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CA-SDI-8303; Carlsbad Municipal Golf Course; Carlsbad Municipal Golf Course Volume II; 2005-08-01
CARLSBAD MUNICIPAL GOLF COURSE DATA RECOVERY PROGRAM FOR CA-SDI 8694, AND INDEXING AND PRESERVATION STUDY FOR CA-SDI-8303 AND CA-SDI-8797 LOCUS C CITY OF CARLSBAD, CALIFORNIA VOLUME II APPENDICES Prepared for: City of Carlsbad Prepared by: Gallegos & Associates August 2005 APPENDIX A RESUMES GENERAL EXPERIENCE AND QUALIFICATIONS Mr. Tracy Stropes experience includes laboratory management, lithic analysis, professional illustrating, report editing, and contributing author on technical reports for various projects throughout San Diego County. He has also served as project archaeologist for the Near the Hams Site Quany project, and the data recovery and preservation program for CA- SDI-12027. He has acted as teaching assistant and lab technician for archaeological field class at several sites in Orange and Los Angeles Counties and served as a teaching assistant at San Diego State University. His duties at SDSU included instmction of field techniques, laboratory analysis, and grading of papers. He has also acted as field surveyor for the Natural History Foundation of Orange County & Institucion Nacional de Antropologia y Historia, (Gary Hurd Ph.D. and George Cenrano Ph.D. Directors) and has surveyed and relocated several sites throughout northem Baja Califomia. PROJECT RESUME AND SPECIFIC EXPERIENCE Primary or Contributing Author • 2004 "Near the Harris Site Quany" Cultural Resource Data Recovery and Preservation Program for CA- SDI- 13028, San Diego County, Califomia. Prepared for Harbrecht Development, L.P. • 2003 Cultural Resource Mitigation Program for the Toney Ranch Site CA-SDI-5325, San Diego Califomia Prepared for Garden Communities. • 2002 Data Recovery Program for the Pacbell Site CA-SDI-5633, San Marcos. Califomia. Prepared for Joseph Wong Design Assodates. • 2001 The Quail Ridge Project Cultural Resource Test Program, San Diego County, Califomia. Prepared for Helix Environmental Planning, Inc. • 2000 Cultural Resource Test Results for the Otay Mesa Generating Project Prepared for the Califomia Energy Commission and Otay Mesa Generating Company, LCC. • 1998 Rainforest Ranch Cultural Resource Survey and Significance Test for Prehistoric Sites CA-SDI-14932 CA-SDI-14937, CA-SDI-14938, and CA-SDI-14946, County of San Diego, Califomia. Prepared for Boys and Girls Club of Inland North County. • 1996 Results of Phase II Test Excavations and Phase III Data Recovery Excavations at Nine Archaeological Sites Within the Newport Coast Planned Community Phase III Entitlement Area, Prepared for Coastal Community Builders. Professional Illustration • 1995 Illustrator- "A Glyccymeris Shell Bracelet From Orange County, Califomia" Henry C. Koerper Ph D P.C.A.S. 1995. / K • 1994 Illustrator- "Point Size and Atlatl Dart Efficiency" Jeffrey Couch, Tracy Stropes, and Adella Schroth Paper Presented at 1994 Annual Great Basin Conference. Elko, Nevada. EMPLOYMENT • Gallegos & Associates, 1996 - Present • Macko, Inc., 1993-1996 • Chambers Group, 1993 • Cypress College, 1991 -1992 • John Minch & Associates, 1992 • Natural History Foundation of Orange County, 1992 EDUCATION & REGISTRATIONS • B.S., Anthropology, University of California, Riverside, 2000 • M.A. in progress, Anthropology, San Diego State University PUBLICATIONS & PRESENTATIONS • 1999 The Effect of Projectile Point Size on Atlatl Dart Efficiency In: Lithic Technology, 24(1) pp. 27-37. • 1996 Trans-Tehachapian Lithic Trade at the Canebreak/Sawtooth Transition. Thirteenth Annual Meeting, Society of Califomia Archaeology, Bakersfield, Caiifomia. • 1994 Point Size and Atlatl Dart Efficiency. Twenty-Fourth Annual Meeting, Great Basin Anthropological Conference, Elko, Nevada. RESUME J. JEFFREY FLENNIKEN PRINCIPAL PO. BOX 684 PULLMAN, WA 99163 Phone (509) 334-9781 FAX 509-334-9781 E-mail: flenniken@completebbs.com EDUCATION 1971 B.A., University of Arkansas 1971-74 Iowa State University 1978 M.A., Washington State University 1980 Ph.D., Washington State University PROFESSIONAL SOCIETIES Sigma Xi, Washington State University Chapter Society for American Archaeology Plains Antiiropological Society Fulbright Alunmi Association TEACHING EXPERIENCE 1971-74 Teaching Assistant, Iowa State University 1975- Rec-7, Cultural Resource Technician ttaining in Lithic Technology, USDA Forest Service, Region 6 1975- 79 Graduate Staff Assistant n, Washington State University 1976- Director, Flintknapping and Lithic Technology Fieldschool 1980-86 Assistant Professor, Washington State University 1982-83 Senior Fulbright Scholar in Lithic Technology, Austtaha 1984 Senior Fulbright Scholar in Lithic Technology, Brazil 1991 Litiiic Technology Workshop and Conference, University of Kentiicky, Lexington 1992 Litiiic Technology Workshop, Cahfomia State University, Fresno 1993 Litiiic Technology Workshop, Far Westem Anthropological Research Group, Davis, Califomia 1994 Litiiic Technology Workshop, Los Padres National Forest, Santa Barbara, Califomia 1995 Litiiic Technology Workshop, Los Padres National Forest, Santa Barbara, Califomia 1996-99 Cultural Resource Management Workshop, Washington State Department of Namral Resources and Washington State Parks 2000- Cultural Resource Management Workshop, Washington State Parks 1996- Intensive Lithic Technology Course (5 Days), Conferences and Programs, Washington State University 1996- Lithic Technology Fieldschool (14 Days), Conferences and Programs,Washington State University SCHOLARSHIPS 1982-83 Fulbright, Senior Scholar, Austraha, Lithic Technology, 6 months 1984 Fulbright, Senior Scholar, Brazil, Litiiic Technology, 6 montiis ASSISTANTSHffS, GRANTS, AND POSITIONS 1968- 71 Arkansas Archeological Survey, Technician 1969- 70 Museum Assistantship, University of Arkansas 1971-74 Teaching Assistantship, Iowa State University 1973 Crabttee Fieldschool of Lithic Technology (National Science Foundation Grant) 1975-79 Dfrector, Laboratory of Litiiic Technology (Graduate Staff Assistant IL), Washington State University . 1978 Research Grant, Graduate School, Washington State University, U.S.S.R. (Sibena) for National Geographic 1979 Travel Grant, Graduate School, Washington State University, SAA Meetings, Vancouver 1979- 80 Lithic Consultant, Great Basin Foundation 1980- 82 E^torialBoaxd,Flintknapper's Exchange 1980- 86 Dfrector, Laboratory of Litiiic Technology (Assistant Professor), Washington State University 1981- 83 Travel Grant, Science and Arts, Washington State University, Glass Buttes, Oregon 1986- Owner/Director, Litiiic Analysts, PuUman, Washington 1986-89 Research Associate, Department of Antiu-opology Washington State University 1987 Don E. Crabttee Lecturer, Herrett Museum, Twin Falls, Idaho 1990- Stone Tool Kit Production, Pictures of Record, Weston, Connecticut 1996- Research Associate in Litiiic Technology, Henett Museum, Twin FaUs, Idaho FIELD RESEARCH-STUDENT 1966-71 Arkansas Archeological Survey, Excavation at 14 sites 1969 Archeological Board of Delaware, Excavation at 2 sites FIELD RESEARCH-ARCHAEOLOGIST AND LITHIC TECHNOLOGIST 1971-86 Excavation (52 sites) in Arkansas, Kansas, Iowa, Washington, Idaho, Oregon Field Survevs (22 projects) in Arkansas, Kansas, Iowa, Washington, Idaho, Oregon Lithic Consultant (35 projects) for National Forest Service, University of Idaho, Washington State University, Bureau of Land Management, National Park Service, National Geographic Society (U.S.S.R.), Westem Ausfralian Museum, and numerous private companies FIELD RESEARCH-ETHNOGRAPHER 19 82 Documentation of AboriginaLflintknapping techniques, Kimberieys, Westem Austtaha PROFESSIONAL FLINTKNAPPING DEMONSTRATIONS 1971- United States, Mexico, Soviet Union, Austtalia, Brazil, Europe, Canada LITHIC TECHNOLOGY FILMS 1980 Simon Eraser University, British Columbia 1982 Sydney University, Austtalia 1982 Westem AusttaUan Museum, Austtaha PAPERS PRESENTED AT PROFESSIONAL MEETINGS 1972 A Suggested Functional Classification of Aboriginal Abraders. Presented at the Annual Plains Antiuropological Conference, Lincoln, Nebraska. 1972 A Comparison of Flaking Qualities of Nehawka Chert Before and After Thermal Pretteattnent. Presented at tiie Annual Society for American Archaeology Meetings, Miami, Florida. And, at the Annual Plains Antiiropological Conference, Lincoln, Nebraska. 1973 The Making of a Clovis Point. Presented at the Annual Iowa Archaeological Meetings, Mt. Ayr, Iowa. 1976 Reevaluation of tiie Lindenmeier Folsom: A Replication Experiment in Lithic Technology. Presented at the Annual Northwest Anthropological Conference, EUensburg, Washington. 1976 Trampling as an Agency in tiie Formation of Edge Damage: An Experiment in Litiiic Technology. Presented at the Annual Northwest Antiiropological Conference, EUensburg, Washington. 1979 Replicative Systems Analysis: A Model Applied to tiie Vein Quartz Artifacts from the Hoko River Site. Presented at the Annual Northwest Anthropological Conference, Eugene, Oregon. And, at tiie Annual Society for American Archaeology Meetings, Vancouver, British Columbia. 1981 RepUcative Systems Analysis: A Model Apphed to tiie Vein Quartz Artifacts from the Hoko River Site, U.S.A. Presented at the Simposiola Obsidiana en Mesoamerica, Pachuca, Hidalgo, Mexico. 1981 Reduction Techniques as Cultural Markers. Presented at tiie Prespectivas en el Estudio de la Litica, Instituto de Investigaciones Anfropologicas, Universidad Nacional Autonomo de Mexico, Mexico City. 1981 RepUcative Systems Analysis: A Model for tiie Analysis of Flaked Stone Artifacts. Presented at the Perspectivas en el Estudio de la Litica, Instimto de Investigaciones Anfropologicas, Universidad Nacional Autonoma de Mexico, Mexico City. 1981 Seasonal Movements and Stone Tool Variation: A Model for the Northwest Coast of North America. Presented at the Annual Society for American Archaeology Meetings, San Diego, Califomia. 1981 Dyuktai Pressure Blade Technology. Presented at the Annual Society for American Archaeology Meetings, San Diego, Califomia. 1984 Mental Templates and "Anaheads:" A Study in Lithic Analysis. Presented at the Annual Society for American Archaeology Meetings, Portland, Oregon. 1984 Morphological Projectile Point Typology of the Great Basin: Replication, Experimentation, and Technological Analysis. Presented at the Annual Society for American Archaeology Meetings, Portland, Oregon. 1986 Flaked Stone Assemblage from Hogup Cave, Utah: Implications for Prehistoric Lithic Technology and Cultural History in the Great Basin. Presented at the Great Basin Conference, Las Vegas, Nevada. 1988 Bifacial Flake Core Reduction in Western North America: ImpUcations for Prehistory. Presented at tiie Great Basin Conference, Park City, Utah. 1990 Diamond Lil: Lithic Technology of a Deer Kill Site. Presented at tiie Northwest Anthropological Conference, Eugene, Oregon. 1997 Reconstmcting Prehispanic Production Processes: An Examination of Xochicalco's Lithic Technology. Presented at the Annual Society for American Archaeology Meetings, NashviUe, Tennessee. 1998 The Economics of Stone Commodities on Islands of tiie Pacific. Discussant. Annual Society for American Archaeology Meetings, Seattie, Washington. 1998 Prehistoric Quarrying Jamul, San Diego County, Cahfomia. Presented at tiie Society for Califomia Archaeology Conference, San Diego, Califomia. 1999 Pathways to Prismatic Blades: Variation in Prehispanic Mesoamerican Obsidian Core Blade Technology. Discussant. Annual Society for American Archaeology Meetings, Chicago, Illinois. SYMPOSIUM CHAIR 1982 Annual Northwest Anthropological Conference, Vancouver, British Columbia Symposium titie, "Litiiic Technology and Experimentation." 1990 Annual Northwest Antiiropological Conference, Eugene, Oregon. Symposium title, "Case Studies in Lithic Technology of Westem North America." TECHNICAL REPORTS ON DEPOSIT 1974-86 Over 24 technical reports on deposit witii the Arkansas Archeological Survey (5), Washington Archaeological Research Center (8), Bureau of Land Management (1), National Forest Service (3), Private Companies (6), and National Park Service (1). Reports ranged from 3 to 214 pages of text, photographs, figures, and tables. LITHIC ANALYSTS-ARCHAEOLOGIST AND LITHIC TECHNOLOGIST 1985- Lithic Analysts-Owner, Director, and Principal Investigator LITHIC ANALYSTS RESEARCH 1987 The Lithic Technology of the East Lake Site, Newberry Crater, Oregon. Litiiic Analysts Research Report No. 1. Pullman. 1987 Archaeological Test Excavations of Three Sites in the Ochoco National Forest. Lithic Analysts Research Report No. 2. Pullman. 1988 Lithic Analysis of Artifacts from Site A461-0683, Bear Valley District, Malheur National Forest, Oregon. Litiiic Analysts Research Report No. 3. Pullman. 1988 Archaeological Investigations in Newberry Crater, Deschutes National Forest, Central Oregon. Lithic Analysts Research Report No. 4. Pullman. 1988 Archaeological Data Recovery from the Cougar Ridge Way Trail if4 Site, 35LIN116, Willamette National Forest, Oregon. Lithic Analysts Research Report No. 5. Pullman. .1989 Cultural Resource Survey of the McCalla, Neilton Point, and Rugged Ridge ProjectUnits in the Quinault and Soleduck Ranger Districts, Olympic National Forest,Washington. Lithic Analysts Research Report No. 6. Pullman. 1989 Cultural Resource Inventory of Odell Lake Shoreline, Crescent Ranger District, Deschutes National Forest, Oregon. Lithic Analysts Research Report No. 7. F*ullman. 1989 Archaeological Test Excavations at Five Sites (35LA320, 35LA444, 35LA814, 35LA633, 35LA632) on the Lowell and Oakridge Ranger Districts, Willamette National Forest, Oregon. Lithic Analysts Research Report No. 8. Pullman. 1989 Archaeological Data Recovery at Eight Sites in the Chandler and Howard Creek Drainages, Lakeview Ranger District; Fremont National Forest, Oregon. Lithic Analysts Research Report No. 9. Pullman. 1989 Archaeological Test Excavations at the Warehouse Site, Blue River Ranger District, Willamette National Forest, Oregon. Lithic Analysts Research Report No. 10. Pullman. 1990 The Diamond Lil Deer Kill Site: A Data Recovery Project in the Westem Oregon Cascade Mountains. Lithic Analysts Research Report No. 11. Pullman. 1990 Archaeological Test Excavations at the Jack Canyon Site #7, Deschutes National Forest, Central Oregon. Lithic Analysts Research Report No. 12. Pullman. 1990 Cultural Resource Inventory of the Proposed Placer and Griefy Timber Sale, North Fork John Day Ranger District, Umatilla National Forest, Oregon. Lithic Analysts Research Report No. 13. Pullman. 1990 Cultural Resource Inventory of Crescent Lake Shoreline, Crescent Ranger District, Deschutes National Forest, Oregon. Lithic Analysts Research Report No. 14. Pullman. 1990 Results of Archaeological Testing and Evaluation of the Russell Bar Site, I0IH58. Litiiic Analysts Research Report No. 15. Pullman. 1990 Lithic Technology ofthe Lower Pittsburg Landing Site, 10IH1639. Lithic Analysts Research Report No. 16. Pullman. 1990 Archaeological Testing and Evaluation ofthe Gate Creek #1 Site, 35LA295. Lithic Analysts Research Report No. 17. PuUman. 1990 Archaeological Testing and Evaluation ofthe Swamp Peak Way Trail One Site. Lithic Analysts Research Report No. 18. Pullman. 1990 Archaeological Testing and Evaluation of the Sycan Marsh Site, 35LK2336.Lithic Analysts Research Report No. 19. Pullman. 1990 The I&K Enterprises Site, 35LA254: A Data Recovery Project in the Westem Oregon Cascade Mountains. Lithic Analysts Research Report No. 20. Pullman. 1991 Archaeological Testing and Evaluation of the Kelly Camp Site, 45GA20I. Lithic Analysts Research Report No. 21. Pullman. 1991 Archaeological Testing and Evaluation of the Dry Creek Site, 35LK2513. Lithic Analysts Research Report No. 22. PuUman. 1991 A Cultural Resource Survey for the Proposed Rock Willow Timber Sale. Lithic Analysts Research Report No. 23. Pullman. 1991 The Stone Cabin Mine Project: Archaeological Testing and Evaluation of Seven Prehistoric Sites. Lithic Analysts Research Report No. 24. Pullman. 1991 Archaeological Data Recovery at the Teal Spring Site, 45GA200. Lithic Analysts Research Report No. 25. Pullman. 1991 Archaeological Testing and Evaluation of Four Sites: 35LIN391, 35LIN392, 35LIN393, and35LIN400. Litiiic Analysts Research Report No. 26. Pullman. 1992 Archaeological Testing and Evaluation of the Rough Site, 35CR616. Lithic Analysts Research Report No. 27. PuUman. 1992 The Pail/Teddy Powers Meadow Sites Assessment: Archaeological Testing and Evaluation of the Intersection Lithics Site, 35KL656, the Powers Quarry Site, 35KL120, and the Pail U2-2 Site, 35KL952. Litiiic Analysts Research Report No. 28. PuUman. 1992 Archaeological Testing and Evaluation ofthe Johnson Butte Site, 45LE417. Lithic Analysts Research Report No. 29. Pullman. 1992 Chetco Archaeological Data Recovery Project: The Winchuck Site, 35CUI76. Lithic Analysts Research Report No. 30. PuUman. 1992 Sweet Thin Archaeological Data Recovery Project: The Joyer Quarry Site, 35CU180; the Miller's Ridge Candy Site, 35CU167; and the Miller's Ridge Lithic Scatter Site, 35CU164. Lithic Analysts Research Report No. 31. Pullman. 1993 Cultural Resource Field Reconnaissance of Fremont National Forest Lands on the Westem Periphery of Sycan Marsh, Southcentral Oregon. Lithic Analysts Research Report No. 32. PuUman. 1993 Battered Implements: Mano and Metate Resharpening Tools from CA-SDI-10148. Lithic Analysts Research Report No. 33. Pullman. 1993 Archaeological Testing and Evaluation of674NA645 and 674NA643. Lithic Analysts Research Report No. 34. PuUman. 1993 Archaeological Data Recovery of the Rough Site, 35CR616. Lithic Analysts Research Report No. 35. PuUman. 1993 Archaeological Testing of the Walnut Site, 35BA844 (FS# 7-45-32/13). Lithic Analysts Research Report No. 36. Pullman. 1993 Analysis of Sampled Lithic Materials from the Flint Ridge Flint Quarry, Robinson Forest, Breathitt County, Kentucky. Lithic Analysts Research Report No. 37. Pullman. 1993 Class HI Cultural Resource Inventory Survey of the Sentinel and Wahatis Peak Project Areas, Saddle Mountains, Grant County, Central Washington. Lithic Analysts Research Report No. 38. PuUman. 1993 Cultural Resource Inventory/Survey of the Coyote Springs Extension, Pacific Northwest Extension Project. Lithic Analysts Research Report No. 39. Pullman. 1993 Archaeological Testing and Evaluation of a Portion of the Big Obsidian Flow Site,35DS212. Litiiic Analysts Research Report No. 40. Pullman. 1993 Archaeological Survey and Evaluation of a Portion of Prehistoric Site 35LK917. Lithic Analysts Research Report No. 41. Pullman. 1994 Toad Archaeological Testing and Evaluation Project (35LIN306, 35LIN307, 35LIN327, 35LIN503, and 35LIN510). Lithic Analysts Research Report No. 42. PuUman. 1994 Swiftwater Rockshelters Archaeological Testing and Evaluation Project (45CH433). Lithic Analysts Research Report No. 43. Pullman. 1994 Archaeological Data Recovery ofthe Squirrel Camp Site, 35CU186. Lithic Analysts Research Report No. 44. PuUman. 1994 Big Mack Archaeological Testing and Evaluation Project. Lithic Analysts Research Report No. 45. Pullman. 1994 Scanning Electron Microscopic Analysis of Prehistoric and Replicated Tools. Analysis and report prepared for P. A. Peterson, Petaluma, Califomia. 1994 Site A641-1377 Lithic Analysis: A Forest Service-Selected Sample. Lithic Analysts Research Report No. 46. Pullman. 1995 Lithic Analysis: An Experimental Approach Applied to Eight Lithic Scatters Near the Lolo Trail in the Clearwater National Forest. Lithic Analysts Research Report No.47. Pullman. 1995 Analysis of Flaked Stone Artifacts from CA-VEN-945, CA-VEN-946, and CA-VEN- 954. Lithic Analysts Research Report No. 48. Pullman. 1995 Analysis of Flaked Stone Artifacts from CA-SLO-1325, CA-SLO-837, and CA-SLO- 710. Litiiic Analysts Research Report No. 49. Pullman. 1995 Analysis of Flaked Stone Artifacts from 35LK917: Scild Project. Lithic Analysts Research Report No. 50. PuUman. 1996 Evaluation of Prehistoric Resources at Pisgah Creator Lava Flow and Lavic Lake, Marine Corps Air Ground Combat Center, San Bemardino County, Califomia. Report prepared for ASM Affiliates, Inc., Encinitas, Califomia. 1996 Archaeological Survey of a Portion of Timber Harvest Unit 1, Section 25. Report prepared for the Boise Cascade Corporation, Kettie Falls, Washington. 1996 Data Recovery at CA-SDI-10,027: A Prehistoric Quarry Site Near Jamul, San Diego County, Califomia. Analysis and report prepared for ASM Affihates, Inc., Encinitas, Califomia. 1996 Data Recovery Excavation of Twelve Sites in the Proposed Cactus Flat Explosives Safety Test Area, Naval Air Weapons Station, China Lake, Inyo County, Califomia.Analysis and report prepared for Brian F. Mooney Associates, San Diego, Califomia. 1997 Technological Comparison of Nine Sites on Otay Mesa, San Diego County, Califomia. Analysis and report prepared for Gallegos and Associates, Carlsbad, Califomia. 1997 Metro Waste Water Department, Clear Water Program, Background Study. Lithic Analysis and report in progress for ASM Affiliates, Inc., Encinitas, Califomia. 1997 Heat Treatment of Marine Corps Air Ground Combat Center Jasper, Twentynine Palms, Califomia. Analysis and report in progress for Marine Corps Air Ground Combat Center, Twentynine Palms, Califomia. 1997 Technological Lithic Analysis of Selected Debitage Samples from CA-SDI-4530B, CA-SDI-4530C, CA-SDI-4531, CA-SDI-8657, and CA-SDI-4608C. Lithic Analysts Research Report No. 51. Pullman. 1997 Flaked Stone Technology at the Los Prietos Boys Camp, CA-VEN-2608, Los Padres National Forest, Califomia. Lithic Analysts Research Report No. 52. Pullman. 1997 Flaked Stone Technology at the Lynch Creek Site, 24SA115, Northwestem Montana. Lithic Analysts Research Report No. 53. Pulhnan. 1997 Evaluation of National Register Eligibility: The Nacimiento Administrative Site, CA- MNT-765, Monterey Ranger District, Los Padres National Forest, Califomia. Lithic Analysts Research Report No.54. Pullman. 1998 Flaked Stone Tool Reduction Technology at the Lynch Creek Site, 24SA115, Northwestem Montana. Lithic Analysts Research Report No. 56. Pullman. 1998 Flaked Stone Tool Reduction Technology at Six Sites on Edwards Air Force Base, Califomia. Lithic Analysts Research Report No.57. PuUman. 1998- Numerous Contract Reports conceming Lithic Technology. REFEREED PUBLICATIONS Mandeville, M., and J. J. Flenniken 1974 A Comparison of the Flaking Qualities of Nehawka Chert Before and After Thermal Pretteattnent. Plains Anthropologist 19(64):146-148. Flenniken, J. J., and E. G. Garrison 1975 Thermally Altered Novaculite and Stone Tool Manufacturing Techniques. Joumal of Field Archaeology 2:125-131. Flenniken, J. J. 1978 Reevaluation of the Lindenmeier Folsom: A Replication Experiment in Lithic Technology. American Antiquity 53(93):473-480. Flenniken, J. J. 1978 The Experimental Replication of Paleo-Indian Eyed Needles from Washington. Northwest Anthropological Research Notes 12(1):61-71. Flenniken, J. J., and J. Haggarty 1979 Trampling as an Agency in the Formation of Edge Damage: An Experiment in Lithic Technology. Northwest Anthropological Research Notes 13(2):208-214. I I I I K n n n I I I Flenniken, J. J., and A. Stanfill 1980 A Preliminary Technological Examination of 20 Archaeological Sites Located During the Cultural Resource Survey of the White Horse Ranch Public Land Exchange. Contract Abstracts and CRM Archeology l(l):23-30. Flenmken, J. J. 1981 Replicative Systems Arialysis: A Model Applied to the Vein Quartz Artifacts from the Hoko River Site. Washington State University Laboratory of Anthropology Reports of Investigations No. 59. PuUman. Flenniken, J. J., and J. P. White 1983 Heat Treatment of Siliceous Rock and It's Implications for Austtalian Prehistory. Australian Aborigirml Studies No.1, pp.43-48. Flenniken, J. J. 1984 The Past, Present, and Future of Flintknapping: An Anthropological Perspective. In Annual Reviews of Anthropology, edited by B. J. Siegel, A. R. Beals, and S. A. Tyler, 13:187-203. Draper, J. A., and J. J. Flenniken 1984 The Use of the Electron Microscope for the Detection of Heat Treated Lithic Artifacts. Northwest Anthropological Research Notes 18(1):117-123. Flenniken, J. J. 1985 Reduction Techniques as Cultural Markers. In Stone Tool Analysis: Essays in Honor of Don E. Crabtree, edited by M. Plew, J. Woods, and M. Pavesic. University of New Mexico Press, pp. 265-276. Flenniken, J. J., and J. P. White 1985 Australian Flaked Stone Tools: A Technological Perspective. Records of the Australian Museum 36:131-151. Flenniken, J. J., and A. Raymond 1986 Morphological Projectile Point Typology: Replicative Experimentation and Technological Analysis. American Antiquity 51(3):603-614. Scott, S. A., C. M. Davis, and J. J. Flenniken 1986 The Pahoehoe Site: A Lanceolate Biface Cache from Cenfral Oregon. Joumal of Califomia and Great Basin Anthropology 8(l):7-23. Daugherty, R. D., J. J. Flenniken, and J. M. Welch 1987 A Data Recovery Study ofLayser Cave (45-LE-223) in Lewis County, Washington. USDA-Forest Service Pacific Northwest Region Studies in Cultural ResourceManagement No. 7. Portland. I I I I « 11 I n H I I I I Daugherty, R. D., J. J. Flenniken, and J. M. Welch 1987 A Data Recovery Study of Judd Peak Rockshelters (45LE222) in Lewis County, Washington. USDA Forest Service, Pacific Northwest Region Studies in Cultural Resource Management No. 8. Portland. Flenniken, J. J., and T. Ozbun 1988 Experimental Analysis of Plains Grooved Abraders. Plains Anthropologist 33(119):37-52. Flenniken, J. J. 1988 The Paleohthic Dyuktai Pressure Blade Technique of Siberia. Arctic Anthropology 24(2): 117-132. Flenniken, J. J., and P. J. Wilke 1989 Typology, Technology, and Chronology of Great Basin Dart Points. American Anthropologist 91:150-159. Scott, S. A., C. M. Davis, and J. J. Flenniken 1989 Reply to Minor and Toepel: A View from Outside Lava Island Rockshelter. Journal of Califomia and Great Basin Anthropology 11(1): 107-113. Flenniken, J. J. 1989 RepUcative Systems Analysis: A Model for tiie Analysis of Flaked Stone Artifacts. In La Obsidiana En Mesoamerica, edited by M. Gaxiola G. and J. E. Clark. Archaeology Series, National Institute of Anthropology and History, Mexico City. 1990 Stone Tool Reduction Techniques as Cultural Markers. In Nuevos Enfoques En El Estudio La Litica, edited by Ma. de los Dolores Soto de Arechavaleta, Institution of Anthropological Investigations, National University, Mexico City. WiUce, P. J., and J. J. Flenniken 1991 Missing the Point: Reply to Bettinger, O'Connell, and Thomas. American Anthropologist 93 :112-113. Flenniken, J. J., T. L. Ozbun, and J. A. Markos (editors.) 1991 Case Studies in Lithic Technology of Westem North America. Joumal of Califomia and Great Basin Anthropology 13(2): 147-272. (Published in 1993). Henniken, J. J. (Published in 1993) 1991 Diamond Lil: Lithic Technology of a Deer Kill Site. In Case Studies in Lithic Technology of Westem North America, edited by J. J. Flenniken, T. L. Ozbun, and J. A. Markos. Joumal of California and Great Basin Anthropology 13(2):180-193. WiUce, P. J., J. J. Henniken, and T. L. Ozbun (Pubhshed in 1993) 1991 Clovis Technology at the Anzick Site, Montana. In Case Studies in Lithic Technology of Westem North America, edited by J. J. Flenniken, T. L. Ozbun, and J. I I I I I A. Markos. Joumal of Califomia and Great Basin Anthropology 13(2): 242-272. Hirth, KG., Flenniken, J. J., and B. Andrews 2000 Flaked-Stone Obsidian Tools and Their Behavioral Implications. In The Xochicalco Mapping Project, edited by K. G. Hirth. University of Utah Press, pp. 136-150. BOOK REVIEWS Rick, J. W. 1983 Heat-Altered Cherts of the Lower Illinois Valley: An Experimental Study in Prehistoric Technology. Northwestern University Archaeological Program Prehistoric Records No.2, 1978. Plains Anthropologist 28(101):249-250. Whittaker, J. C. 1995 Fhntknapping: Making and Understanding Stone Tools. University of Texas Press, Austin. Lithic Technology 20(2): 148-149. I I I I Dennis Oaltegos (3au^QSi«kAss«ieta,t^ Principal GENERAL EXPERIENCE AND QUALIFICATIONS Mr. Gallegos has served as Project Manager/Principal Investigator for cultural resource studies within southem California for federal, State and local compliance. These projects include constraint level evaluations, surveys, CEQA testing programs, evaluations for National Register status. Section 106 compliance, and data recovery programs. Mr Gallegos is knowledgeable of Federal legal requirements as well as, City, County and CEQA requirements, having worked on over 500 projects within the past 30 years. These projects include; surveys and test programs for MWD Pipelines 4, 5, and 6, Oceanside-Escondido Rail Line, SR 905 and the widening of Otay Mesa Road, Camp Pendleton Santa Margarita River Valley Inventory (5,000 acres), NAS Miramar inventory (sample inventory of 20,000 acres). Naval Radio Receiving Facility inventory, Cleveland National Forest report preparation; and testing of 9,000 to 1,000 year-old sites within San Diego County, as well as historic projects, such as data recovery programs for the Aguirre Adobe and the McCool/Lohman projects. Mr. Gallegos's experience in major cultural resource overviews includes: the Otay Mesa Management Plan for 30,000 acres on the US/Mexico border, BLM Kuchamaa Inventory (30,000 acres SE San Diego County); San Dieguito River Valley Park overview of 80,000 acres; and overviews for the cities of Escondido, San Marcos, Encinitas, and for the San Diego, Otay, and San Luis Rey River Valleys. Additional projects managed by Mr. Gallegos include: an inventory for Anza-Borrego Desert State Park; Oceanside-Escondido Bike Trail and Rail Line; Viejas Village inventory and test; survey and testing for Carlsbad Ranch, constraint level study for Gan^illo Ranch Specific Plan; Batiquitos Lagoon Enhancement Project; and inventories for Subareas III (3,000 acres), Subarea IV (1,500 acres), and Subarea V (2,000 acres) for the City of San Diego. Data Recovery programs include: Windsong Shores, PacBell, Twin Oaks Valley Ranch, Batiquitos Ridge, Rodgers Ridge, Toney Ranch, Calpine Otay Sites, Kuebler Ranch, and Legoland. EMPLOYMENT Principal, Gallegos & Associates, 1990 to Present Ogden/ERC Environmental and Energy Services Company, 1978 to 1990 Archaeological Consultant, 1977 to 1978 Bureau of Land Management, 1975 to 1977 State of California, 1975 Archaeological Consultant, 1972 to 1974 State of Califomia, 1970 to 1973 EDUCATION & REGISTRATIONS B.A Anthropology, California State University, Northridge, 1974 B.S. Business, California State University, Northndge, 1973 AFFILIATIONS San Diego Archaeological Center, Board Member 2001 to Present San Diego County Archaeological Society, Vice President 2004 San Diego Presidio Peer Review and Oversight Committee, 2000-2002 Cartsbad Historic Preservation Commission, 1989-1993 Society for American Archaeology Society for California Archaeology PUBLICATIONS Southern California in Transition: Late Holocene Occupation of Southern San Diego County, California. In: Catalysts to Complexity: Late Holocene Societies ofthe California Coast, edited by Erlandson and Jones, Institute of Archaeology, University of California, Los Angeles, 2003. Management Plan for Otay Mesa Prehistoric Resources, San Diego, California. Authors: D. Gallegos, A. Schroth, and C. Kyle. Coyote Press, Salinas, Califomia, Agency Reports, 1998. Five Thousand Years of Maritime Subsistence at Ballast Point Prehistoric Site SDi-48 (W-164), San Diego, California, (with Carolyn Kyle). Coyote Press, Salinas, Califomia, No. 40, 1998. Dennis Gallegos ll Environmental Change and Coastal Adaptations in San Diego County (with Patricia Masters, Ph.D.). In: Archaeology ofthe California Coast During the Middle Holocene, University of California, Los Angeles, Califomia, Vol. 4, 1997. A Review and Synthesis of the Archaeological Record for the Lower San Diego River Valley. Society for California Archaeology, San Diego, California, Volume 8,1995. Patterns and Implications of Coastal Settlement in San Diego County: 9000 to 1300 Years Ago. In: Essays on the Prehistory of Maritime California. Center for Archaeological Research at Davis, No. 10,1992. Antiquity and Adaptation at Agua Hedionda, Carlsbad, Califomia. In: Hunter-Gatherers of Eady Holocene Coastal California, Institute of Archaeology, University of California, Los Angeles, 1991. A Review and Synthesis of Environmental and Cultural Material for the Batiquitos Lagoon Region. In: San Dieguito - La Jolla, Chronology and Controversy, San Diego County Archaeological Society, Research Paper, Number 1, 1987. Relocation of the Ballast Point Tryworks Oven Foundation (with Adella Schroth). In Fort Guijarros Quartedy, 3:2,1989. Early Man and a Cultural Chronology for Batiquitos Lagoon. In: Cast/a/ Papers, Cultural Resource Management Center, Department of Anthropology, San Diego State University, 1986. Batiquitos Lagoon Revisited. In; Casual Papers, Cultural Resource Management Center, Department of Anthropology, San Diego State University, 1985. Class II Cultural Resource Inventory, East Mesa and West Mesa Region, Impenal Valley, California, (with others). USDI, BLM, 1980. Cultural Resource Inventory of the Central Mojave and Colorado Desert Regions, (with others). USDI, BLM, Cultural Resources Publications, Archaeology, 1980. AWARDS Award of Excellence for Historic Preservation, City of San Diego Historical Resources Board, 2004 Certificate of Merit, Association of Environmental Planners, 2002 Outstanding Achievement in the Field of Historic Preservation, Leo Carrillo Ranch Master Plan, California Preservation Foundation, 1998 Special Achievement Award, presented by the Bureau of Land Management, California Desert Planning Staff, 1977 I I I I I I » 1 I I I I I I I I I i I APPENDIX B GLOSSARY OF TERMS AND TECHNOLOGICAL CATEGORY ABBREVIATIONS I I I I I I f I I I I I I I I GLOSSARY OF TERMS Abrader; Friable lithic material (commonly sandstone or pumice) used to grind or abrade an edge m platform preparation for flake removal in flintknapping, or to wear- down, by friction, any bone, antler, or wood artifact. Alternate flake: Flake that is much wider than it is long, ttiangular in cross-section, and produced as a result of the creation of a bifacial edge from a square or broken edge on a given piece of stone; "tuming-the-edge" of a piece of stone. Anvil: Rest or support used in bipolar as well as other lithic reduction techniques. Arris: Ridge on the dorsal surface of a flake. Arrow point: Barbed projectile point that functioned as a tip on an art-ow propeUed by a bow. Bending fracture: Tension/compression fracture that conmionly results from impact during use of projectile points, from end shock during percussion bifacial reduction, from stresses applied to support thin prefonns during pressure bifacial reduction, and from ttampling. Bending fractures can be distinguished from conchoidal fractures by tiieir absence of ring cracks and bulbs of force. Bending fractures initiate at a flaw in the stone, propagate at an angle nearly perpendicular to the surface, and generally terminate in a fragile extension that curves sharply away from tiie propagation angle. Bending flakes are generaUy lipped at the initiation point and "waisted" near the proximal end. For a detailed discussion see The Formation of Flakes by Brian Cotterell and Johan Kaniniinga, 1987, Amencan Ann^M/ry 52(4):675-708. Biface: Lithic material flaked on botii of two faces or surfaces. Bifacial blank: Biface made from a flake blank or core nucleus by direct free hand percussion. These blanks can be further reduced into a variety of bifacial artifacts. Bipolar core: Core produced by placing a piece of lithic material on an anvil and striking the material with a hammerstone. Flakes may be produced from the hammerstone and/or the anvil end of the core. Bipolar flake: Compression flake produced from tiie reduction of a bipolar core. Blade: Specialized flake with parallel lateral margins, associated witii a prepared core technology. Block core: Large, angular, stationary raw lithic material from which flakes are removed by direct free hand percussion. I I I I I I I I i I Bulb removal flake: Percussion ttiinning flake removed from the proximal (platform) end of the ventral surface of a flake blank. This flake removes the contact pomt, cone, and most of the bulb of percussion from the parent flake blank. On a complete bulb removal flake, a cone of force is present on both the ventral and dorsal flake surfaces. Chipping station: Area on, near, or forming an archaeological site where artifacts were produced systematically by flintknapping. Chipping stations exhibit debitage from multiple synchronous events or multiple events through time. Complete: Lithic artifact that retains technologically (stage of reduction) diagnostic attributes. Conical flake core: Single platform flake core from which flakes are removed by percussion in a single direction. Exhausted core is cone-shaped. Core flake blank: Large flake from which a flake core is produced. Cortex: Outer weathered rind on lithic material or naturally occurring rind on the outside of lithic material. Cortex may be primary geological cortex (remnants of contact with formation matrix or weatiiered at or near its outcrop) or incipient cone cortex (water ttansported). Dart point: Barbed projectile point that functioned as the tip on a dart propelled by an aflati. Debitage: Flakes derived as a product or byproduct of flintknapping reduction sequence or ttajectory. Detachment scar: When a flake is produced, the venttal surface of tiiat flake is its detachment scar. Remnants of the detachment scar are used in analysis to identify artifacts manufactured from flake blanks. Distal: Tip of a projectile point or the termination end of a flake. Dorsal: Surface of a flake corresponding to tiie exterior of the artifact from which it was detached. Early stage interior flake: Flakes with few parallel anises and no cortex on their dorsal surfaces. Flakes from the interior of the parent stone or core. Frequentiy associated with flake blank production from flake cores. Early stage bifacial thinning flake; Percussion flake removed from a biface during reduction for the purpose of increasing width-to-thickness ratio while maintaining symmetty. These flakes have few dorsal surface scars, are slightly curved in long- section, and generally have multifaceted, abraded platforms. Early stage pressure flakes: First series of pressure flakes removed from a biface. These flakes have multiple inegular scars on their dorsal surfaces, are twisted m iong- section, are small relative to percussion thinning flakes, and their platforms form an oblique angle with the long-axis of the flake. These flakes are produced as a result of regularizing the biface by pressure reduction. Edge preparation flake: Flake removed from the edge of a flake blank or bifacial blank in order to ready margins for further reduction by changing the platform angle. Flakes are triangular in long-section- and usually wider than they are long. The original detachment scar is visible on the distal end of the dorsal surface of flakes produced in edge preparation of flake blanks. End shock: Occurrence of a bending fracture produced as a result of excessive percussion (dynamic) loading force causing flexion beyond the elastic capacity of a stone. End shock generally occurs during the late stages of bifacial tiiinning when shock waves from a percussion blow cause one end of the biface to snap. Exhausted: Stone tool or artifact discarded because it is spent, used up, or worn-out. Exhausted raw material: Piece of lithic material usually exhibiting multiple flake removal scars. This term refers to a core that has reached the end of its use-Ufe as a result of reduction in size and/or because of checks or flaws. Flake blank: Large flake that is intended for reduction into a bifacial blank or other tool. Unmodified flake blanks are indistinguishable from otiier debitage in most archaeological contexts. The identification of remnant original detachment scars in an assemblage, however, attests to the corporeality of this reduction stage. Flake core: Lithic material that serves as a parent piece for flake removal. Flake cores may include conical cores, bifacial cores, and multidirectional cores. Flake tool: Flake with polished or dulled edge resulting from use (not to be confused with platform preparation). Float: Geological context of some obsidian source areas. The product of weathering of rhyolitic volcanic domes in which nodules of resistant obsidian are left on the surface (See Obsidian Studies in Oregon by Craig E. Skinner, University of Oregon MA tiiesis, 1983). The cortex formed on obsidian float nodules has a wrinkled, vesicular, or pitted appearance. Fragment: Lithic artifact that is a portion of the original or functioning artifact. Fragments may be identifiable as to technological category if diagnostic attributes are still present. Interior flake: Hakes that do not possess cortex on their dorsal surfaces. Rakes from the interior of the parent stone or core. Lanceolate point: Barbless projectile point that tunctioned as the tip on a thmsting spear. Late stage interior flake: Flakes with numerous parallel arrises and no cortex on their dorsal surfaces. Flakes from the interior of the parent stone or core. Last flakes removed from a artifact before bifacial thinning begins. Late stage bifacial thinning flake: Flakes produced during the final stages of percussion biface reduction for the purpose of increasing width-to-thickness ratio. These flakes have numerous scars on their dorsal surfaces, are almost flat in long-section, usually exhibit feather temiination, and have multifaceted platforms. Late stage pressure flake: Flakes produced during the final pressure flaking episodes. They are small, parallel-sided, have one dorsal arris, are slightiy twisted in long-section, and have multifaceted, abraded platforms. Margin removal flake: Semicircular fragment of a bifacial edge produced as a result of a bending fracture, commonly a mistake caused when the knapper strikes a thin or weak margin of a biface. Medial: Artifact mid-section. Artifact missing its proximal.and distal ends. Multifacet platform: Flake platform exhibiting more than one flake scar. Natural platform: Flake platform covered with cortex. Notch flake: Pressure flake whose platform is situated in a depression and is fan-shaped in plan-view. Flakes produced as a result of creating a notch. Outre passe flake: Overpass or overshot flake. Flake with plunging temiination on the margin opposite its initiation, usually on a biface or blade core. Perverse fracture: Helical, spiral or twisted break initiated at the margin of a biface. This is a production enor caused by inappropriate striking angle or excessive force loaded by percussion flaking into the margin. Platform preparation: Alteration performed to ready a margin for the removal of flakes. This alteration is frequentiy achieved through abrasion or small flake removals along an edge or margin. Potlid: Flake produced by heat-induced differential expansion as opposed to the flintknapping process. The flake has a flat dorsal surface and a convex venttal surface and is shaped somewhat like the inverted hd of a pot. Preform: Unfinished artifact made from a blank. For analytical purposes, preforms are separated from blanks on the basis of the presence of pressure flaking scars. Primary decortication: Removal of cortex from a piece of lithic material as the result of raw matenal testing and initial core reduction. These flakes have cortex over their entire dorsal surface. Primary reduction: First stage of preparing lithic materials for reduction. Selection of raw material, core preparation, core reduction, and flake blank production are flintknapping activities considered to be primary reduction activities, debitage, and/or products. Proximal: Haft element end of a projectile point or platform end of a flake. Quarry blank: Any piece of lithic raw material transported from a quarry intended for future reduction. Reduction technology: All of the techniques and sttategies of a given flaked stone tool manufacturing and maintenance system. Rejected: Formed artifact eliminated from the manufacturing or use-life ttajectory prior to exhaustion because of some flaw or manufacturing enor. Rejuvenation: Reworking of unusable (worn or broken) artifacts into functional artifacts. Retooling: Rejuvenation and recycling of hthic artifacts. Stone tool and general hunting equipment maintenance. Evidence of this activity may be present in the debitage as well as in the exhausted and discarded formed artifacts. Secondary decortication: Latter stages of cortex removal from a piece Of lithic material. Secondary decortication flakes have some cortex on their dorsal surfaces. Secondary reduction: Production of functional tools from blanks and preforms. Segregated reduction location (SRL): Area on, near, or forming an archaeological site where a knapper or knappers produced artifacts by flintknapping. An SRL exhibits debitage from a single flintknapping event. Shatter: Cubical or irregularly shaped pieces of lithic material lacking the attributes of conchoidal fracture. Frequentiy associated with bipolar reduction. Single facet platform: Platforms exhibiting a remnant of only one flake scar. Tertiary reduction: All activities associated with the rejuvenation and retooling of formed artifacts. Tested raw material: Lithic material tested for quality by flake removal. Trajectory: Path within a model of a lithic reduction system that defines technological activities associated with stone tool manufacture and use while in systemic context: from selection of raw lithic material to deposition into archaeological context. Unaltered raw material: Large, usable, and flakeable, but unaltered by knapping (not flaked), raw lithic material occurring in an archaeological context at an archaeological site. Unifacial tool: Stone tool worked on one face or surface only. Ventral: Surface of a flake corresponding to the interior of the artifact from which it was detached (exhibits attributes of fracmre). Workshop: Area on, near, or forming an archaeological site where lithic materials have been repeatedly and systematically reduced over an extended period of time by numerous flintknappers. Workshops are frequently associated with sites occupied for long durations and/or hthic source locations exploited extensively through time. NODULE CORE TECHNOLOGICAL CATEGORY ABBREVIATIONS NATURAL PLATFORM NP-1; Flake with natural cortical platform and 100% dorsal surface cortex NP-2: Flake with natural cortical platform and left and right lateral and distal dorsal surface cortex NP-3: Flake with natural cortical platfonn and left and right lateral dorsal surface cortex NP-4: Flake with oatural cortical platform and left lateral and distal dorsal surface cortex NP-5: Flake with natural cortical platform and right lateral and distal dorsal surface cortex NP-6: Flake with natural cortical platform and left lateral dorsal surface cortex NP- 7: Flake with natural cortical platiform and ri^t lateral dorsal surface cortex NP-8: Flake with natural cortical platform and a central strip of dorsal surface cortex NP-9: Flake with natural cortical platform and an isolated island of dorsal surface cortex NP-10: Flake with natural cortical platfonn and distal dorsal surface cortex NP-11: Flake with natural cortical platform and no dorsal surface cortex SINGLE-FACETED PLATFORM SFP-1: Flake with single-faceted platform and 100% dorsal surface cortex SFP-2: Flake with single-faceted platfonn and left and right lateral and distal dorsal surface cortex SFP-3: Flake with singlcrfaceted platiform and left and right lateral dorsal surface cortex SFP-4: Flake with single-faceted platfonn and left lateral and distal dorsal surface cortex SFP-5: Fl^e v\dtii smgle-feceted platfonn and right lataral and distal dorsal surface cortex SFP-6: Flake with smgle-faceted platiform and left lateral dorsal surface cortex SFP-7: Flake with single-faceted platform and right lateral dorsal surface cortex SFP-8: Flake with smgle-faceted platfonn and a central strip of dorsal surface cortex SFP-9: Flake with single-faceted platiform and an isolated island of dorsal surface cortex SFP-IO: Flake with single-faceted platform and distal dorsal surface cortex SFP-l 1: Flake with single-feceted platiform and no dorsal surfece cortex MULTI-^FACETED PLATFORM MFP-1: Flake with multi-faceted platform and 100% dorsal smface cortex MFP-2: Flake with multi-faceted platiform and left and right lateral and distal dorsal surface cortex MFP-3: Flake with multi-faceted platform and left and right lateral dorsal surface cortex MFP-4: Flake with multi-faceted platform and left lateral and distal dorsal surface cortex MFP-5: Flake with multi-faceted platform and right lateral and distal dorsal surface cortex MFP-6: Flake with multi-feceted platform and left lateral dorsal surface cortex NffP-?: Flake with multi-faceted platform and right I^eral dorsal surface cortex MFP-8: Flake with multi-faceted platform and a central ship of dorsal surface cortex MFP-9: Flake with multi-faceted platform and an isolated island of dorsal surface cortex MFP-10: Flake with multi-faceted platform and distal dorsal surface cortex MFP-U: Flake witii multi-faceted platform and no dorsal surface cortex /*yKi.Ttf^r PLArfh^ <u>t>-^ FORMED ARTIFACT CATEGORY ABBREVIATIONS (1) RM-Unait; (2) RM-Test: (3) FC-NP: (4) FC-SF: (5) FC-MF: (6) FC-MD: (7) FC-BP: (8) FC-Exh: (11) B-CompDS: (12) B-FragDS: (13) B-CompBT: (14) B-FragBT: (15) B-Comp: (16) B-Frag; (21) P-CompDS: (22) P-FragDS: (23) P-CompBT: (24) P-FragBT: (25) P-Comp: (26) P-Frag: (3J)LP-Comp: (33) LP-CompExh: (34) LP-Prox: (35) LP-Med: (36) LP-Dist: <41)DP-Comp: (43) DP-CompExh: (44) DP-Prox: (45) DP-Med: (46) DP-Dist:' (51)AP-Comp: (53) AP-CompE3di: (54) AP-Prox: (55) AP-Med: (56) AP-Dist: (61) UF-Comp: (62) UF-Frag: (71) FT: (72) Perf: (96) Point-Dist: (97) Point-Med: (98) UBF-Perc: (99) UBF-Pres: Unaltered raw material Tested raw material NaturalAx>rticai platform core Single facet platfonn flake core Multifacet platform flake core Multidirectional/muitipiatforra flake core Bipolar core Exhausted flake core Complete blank with detachment scar Blank fragment with detachment scar Complete blank made from a bifacial thinning flake Fragment of blank made from a bifacial thinning flake Complete blank Blank fragment Complete preform witii detachment scar Preform fragment with detechment scar Compiete preform made from a bifacial tiiinning flake Fragment of a preform made from a bifacial tiiinning flake Complete preform Preform fragment Complete lanceolate point Complete exliausted lanceolate point Proximal fragment of a lanceolate point Medial fragment of a lanceolate point Distal fragment of a lanceolate point Complete dart point Complete exhausted dart point Proximal fragment of a dart point Medial fragment of a dart point Distal fragment of a dart point Complete arrow point Complete exhausted arrow point Proximal fragment of an arrow point Medial fragment of an arrow point Distal fragment of an anrow point Complete unifacial tool Fragment of a unifacial tool Flake tool Perforator Distal fragment of a projectile point Medial fragment of a projectile point Undiagnostic biface fragment with percussion flake scars Undiagnostic biface fragment with pressure flake scars FORMED ARTIFACTS, Continued (1001) AF: (1002) AP: (1003) AS: (1004) ST: (1005) TP: (1010) GS: (1011) M: (1012) MH: (1013) MHA: (1014) ME: (1015) P: (1016) SB: (1020) HS: (1021) BI: (1022) BT: (1023) AB: Anvil, flat lop Anvil, pitted top Arrow shaft stiaightener/arrow shaft straiglitener firagment Steatite artifact/steatite artifact fragment Tarring pebble Ground stone/ground stone fragment Mano/mano fragment Mano/hammerstone Mano/hammerstone/anvil Metate/metate fragment Pestle/pesde fragment Stone bowl/stone bowl fragment Hammerstone/hammerstone fragment Battered hnplement/batlered implement fragment Bifacial tool/bifacial tool fragment Abrader/abrader fragment DEBITAGE CATEGORY ABBREVIATIONS Sta^el: Core Reduciion Debita ge 100. PP: 101. PI: 102. PC: 103-PS: J04.PM: I10.SP: in.SL 112.SC: I[3.SS: JJ4.SM: 120.IP: 12 LIL I22.IS: J22.IM: r25.iP: 126.11: 127iS: 128.IM: TSO-BP: Primary decortication flake with primary geological cortex Primary decortication flake with mcipient cone cortex Primary decortication flake witii a cortical platfonn Primary decortication flakes witii a single facet platfoiro Primary decortication flake witii a multifacet platfonn Secondary decortication flake witii primary geological cortex Secondaty decortication flake witii incipient cone cortex Secondary decortication flake witii a cortical platiform Secondary decortication flakes witii a sfingie facet platfonn Secondary decortication flake wiUi a multifacet platfomi Early interior flake with primary geological cortical platfonn Early interior flake witii incipient cone cortical platform Early interior flake witii a siiigle facet platfomi Eariy interior flake witii a miilUfacet platform Late interior flake with primary geological cortical platform Late interior flake with incipient cone cortical platfomi - Late interior flake with a single facet platfomi Late interior flake with a liiulfifacet platform Bipolar flake Stage 2: Edge Preparation Debitage 200.B+: •>Ai A • 1 -y-v-. 202.A+: 203.E-: 2G4.E+: Bifacial thinning flake with dorsal bulb remnant from parent flake Bifaciai thinning flake vvith tiie characiensijcs of axi aheruaie fia.ke Bifacial tiiinning flake with the characteristics of an alternate flake and remnant detachment scar Bii^ial tiiinning flake with tiie characteristics of an edge preparation flake Bifacial thinning flake with the characteristics of an edge preparation flake and remnant detachment scar Stage 3: Percussion Bifacial Thinning Debitage 300.M-: 30I;M+: 302. E-: 303. E+: 104.L-: 305.L+: Bifacial thinning flake with the characteristics of a margin removal flake Bifacial thinning flake witii the characteristics of a margin removal flake and remnant detachment scar Early percussion bifacial thinning flake Early percussion bifacial thinning flake witii remnant detachment scar Late percussion bifacial thinning flake Late percussion bifacial thinning flake witii remnant detachment scar Stase 4: Pressure Bifacial Thinning Debitage 400JE-: 401. E+: 402. L-: 4«3.L+: 404. N-: 405. N+: 406. AC: 407.SP: 408. ET: 409. LT: Early pressure bifacial reduction flake Early pressure bifacial reduction flake with remnant detaciiment scar Late pressure bifacial reducbon flake Late pr^sure bifacial reduction flake with remnant detaelmient scar Notch flake from a bifacial preform (usually for a projectile point) Notch flake from a bifacial preform (usually for a projectile point) witii remnant detachment scar Early pressure bifacial reducti'on altemate flake with cortex removed from tabular material Eariy pressure bifacial reduction secondary decortication flake witii primary geologi<^ cortex removed from tabular material Early pressure bifacml reduction flake removed from tabular malerial Late pressure bifacial reduction flake removed from tabular material Sage 5; Technologically Undiagnostic Debitage 995.PL: Potiid 996.SH: Bipolar shatter 997. UP: Undiagnostic flake fragment with primary geological cortex 998. UI: Undiagnostic flake fragment with incipient cone cortex 999. UN: Undiagnostic flake fragment wth no cortex APPENDIX C CATALOGUE CATALOGUE FOR CA-SDI-8303 1 II I I 1 1 I CA-SDI-8303 3/16/2005 CAT NO UNIT TYPE V...; PROVENIENC UNIT IEAT;ITEM ARTII^ACT SleiFilll MATERIAL , QUAN FIRED LENGTH WIDTH THICKNESS. SVEIp.|ff 1 Unit 8 0-10.cm 0 Faunal Com Shell 1 0 0 0 0 2377 2 Unit 8 0-10 cm 0 Faunal Com Olivella 2 0 0 0 0 0.35 3 Unit 8 0-10 cm 0 Faunal Com Bone 1 0 0 0 0 24.21 4 Unit 8 0-10 cm 0 Ceramic Frag Ceramic 24 0 0 0 0 20.59 5 Unit 8 0-10 cm 0 Debitage Com Undif 240 0 0 0 0 104.13 6 Unit 8 0-10 cm 0 Ground stone Frag Granitic 1 1 0 0 0 22.91 7 Unit 8 10-20 cm 0 Debitage Com Undif 201 0 0 0 0 48.25 8 Unit 8 10-20 cm 0 Debitage Com Obsidian 1 0 0 0 0 0.005 9 Unit 8 10-20 cm 0 Mano Frag Granitic 1 1 76.8 57.8 4.5 324.2 10 Unit 8 10-20 cm 0 Ceramic Frag Ceramic 28 0 0 0 0 25,99 11 Unit 8 10-20 cm 0 Biface-AP Base Quartz 1 0 12 11.6 2.7 0,44 12 Unit 8 10-20 cm 0 Faunal Com Bone 1 0 0 0 0 15,67 13 Unit 8 10-20 cm 0 Faunal Com Shell 1 0 0 0 0 972,4 14 Unit 8 10-20 cm 0 Faunal Com Olivella 1 0 0 0 0 0,36 15 Unit 8 10-20 cm 0 Bead Com Olivella 1 0 0 0 0 0.32 16 Unit 8 20-30 cm 0 Faunal Com Bone 1 0 0 0 0 14.1 17 Unit 8 20-30 cm 0 Mano Com Granitic 1 1 103 99.3 53.2 724,8 18 Unit ,8 20-30 cm 0 Debitage Com Undif 146 0 0 0 0 207,44 19 Unit 8 20-30 cm 0 Debitage Com Obsidian 1 0 0 0 0 0,005 20 Unit 8 20-30 cm 0 Ceramic Frag Ceramic 29 0 0 0 0 40,3 21 Unil 8 20-30 cm 0 Faunal Com Shell 1 0 0 0 0 911,7 22 Unit 8 20-30 cm 0 Bead Com Olivella 1 0 0 0 0 0,94 23 Unit 8 30-40 cm 0 Biface-AP Com Volcanic 1 0 24.1 20 3.5 1.46 24 Unit 8 30-40 cm 0 Faunal Com Bone 1 0 0 0 -0 22,34 25 Unit 8 30-40 cm 0 Debitage Com Undif 134 0 0 0 0 99.41 26 Unit 8 30-40 cm 0 Debitage Com Obsidian 1 0 0 0 0 0.31 27 Unit 8 30-40 cm 0 Ceramic Frag Ceramic 17 0 0 0 0 24.33 28 Unit 8 30-40 cm 0 Faunal Com Shell 1 0 0 0 0 880,1 29 Unit 8 0-10 cm 0 Debitage Com Obsidian 1 0 0 0 0 0,12 30 Unit 8 40-50 cm 0 Ceramic Frag Ceramic 5 0 0 0 0 8,81 31 Unit 8 40-50 cm 0 Faunal Com Bone 1 0 0 0 0 21,45 32 Unit 8 40-50 cm 0 Mano Frag Granitic 1 1 70.6 44.2 43.5 184.6 33 Unit 8 40-50 cm 0 Debitage Com Undif 126 0 0 0 0 68,2 34 Unit 8 40-50 cm 0 Debitage Com Obsidian 1 0 0 0 0 0,06 35 Unit 8 40-50 cm 0 Faunal Com Shell 1 0 0 0 0 823,6 36 Unit 8 50-60 cm 0 Ceramic Frag Ceramic 1 0 0 0 0 34,3 37 Unit 8 50-60 cm 0 Faunal Com Bone 1 0 0 0 0 16,5 38 Unit 8 50-60 cm 0 Battered Implement Flake Frag Metavolcanic 1 0 0 0 0 78,9 39 Unit 8 50-60 cm 0 Debitage Com Undif 115 0 0 0 0 48,7 40 Unit 8 50-60 cm 0 Debitage Com Obsidian 3 0 0 0 0 0.09 41 Unit 8 50-60 cm 0 Faunal Com Shell 1 0 0 0 0 196.5 42 Unit 1.1 30-40 cm 0 Faunal Com Shell 1 0 0 0 0 1745.2 Page 1 CA-SDI-8303 3/16/2005 CAT NO UNIT TYPE PROVENIENC liflilEM ARTIFACT PORTION MATERIAL QUAN Ills LENGTH Siyiitiy. THICKNESS WEIGHT 43 Unit 11 30-40 cm 0 Faunal Com Bone 1 0 0 0 0 25.25 44 Unit 11 30-40 cm 0 Mano Frag Granitic 1 1 64.9 62.5 40 185.1 45 Unit 11 30-40 cm 0 Debitage Com Undif 159 0 0 0 0 211.58 46 Unit 11 30-40 cm 0 Debitage Com Obsidian 0 0 0 0 0.2 47 Unit 11 30-40 cm 0 Battered Implement Frag Metavolcanic 1 0 61.8 40.2 33.5 70:62 48 Unit 11 40-50 cm 0 Debitage Com Undif 134 0 0 0 0 101,78 49 Unit 11 40-50 cm 0 Faunal Com Bone 1 0 0 0 0 29.5 50 Unit 11 40-50 cm 0 Ceramic Frag Ceramic 0 0 0 0 4,97 51 Unit 11 40-50 cm 0 Mano Com Granitic 1 1 79.7 61.08 42.6 301,9 52 Unit 11 40-50 cm 0 Mano Com Volcanic 1 1 127.9 91.5 48.5 836,4 53 Unit 11 40-50 cm 0 Faunal Com Shell 1 0 0 0 0 1535,2 54 Unit 11 40-50 cm 0 Bead Com Olivella 1 0 0 0 0 0,57 55 Unit 11 50-60 cm 0 Faunal Com Bone 1 0 0 0 0 14,14 56 Unit 11 50-60 cm 0 Ground stone Frag Granitic 1 1 49.2 53 21.9 50.4 57 Unit 11 50-60 cm 0 Debitage Com Undif 92 0 0 0 0 54,91 58 Unit 11 50-60 cm 0 Debitage Com Obsidian 1 0 0 0 0 0,02 59 Unit 11 50-60 cm 0 Faunal Com Shell 1 0 0 0 0 882,4 60 Unit 11 50-60 cm 0 Bead Com Olivella 1 0 0 0 0 0,3 61 Unit 11 60-70 cm 0 Debitage Com Undif 118 0 0 0 0 73,4 62 Unit 11 60-70 cm 0 Debitage Com Obsidian 1 0 0 0 0 0,02 63 Unit 11 60-70 cm 0 Battered Implement Frag Metavolcanic 1 0 43.9 37.8 19.7 29,9 64 Unit 11 60-70 cm 0 Faunal Com Bone 1 0 0 0 0 13,85 65 Unit 11 60-70 cm 0 Ceramic Com Ceramic 0 0 0 0 15,65 66 Unit 11 60-70 cm 0 Faunal Com Shell 1 0 0 0 0 1095,2 67 Unit 11 60-70 cm 0 Bead Com Olivella 1 0 0 0 0 0,13 68 Unit 11 70-80 cm 0 Debitage Com Undif 0 0 0 0 2,14 69 Unit 11 70-80 cm 0 Debitage Com Obsidian 1 0 0 0 0 0,03 70 Unit 11 70-80 cm 0 Faunal Com Shell 1 0 0 0 0 182,3 71 Unit 11 70-80 cm 0 Bead Com Olivella 1 0 0 0 0 •0,5 72 Unit 11 70-80 cm 0 Faunal Com Bone 1 0 0 0 0 1.36 73 Unit 6 20-30 cm 0 Faunal Com Bone 1 0 0 0 0 7,49 74 Unit 6 20-30 cm 0 Debitage Com Undif 97 0 0 0 0 76.61 75 Unit 6 0-10 cm 0 Faunal Com Bone 1 0 0 0 .0 2,6 76 Unit 6 0-10 cm 0 Faunal Com Shell 1 0 0 0 0 447.3 77 Unit 6 20-30 cm 0 Faunal Com Shell 1 0 0 0 0 580,8 78 Unit 6 10-20 cm 0 Debitage Com Undif 81 0 0 0 0 197,6 79 Unit 6 10-20 cm 0 Faunal Com Bone 1 0 0 0 0 4,2 80 Unit 6 10-20 cm 0 Faunal Com Shell 1 0 0 0 0 625.9 81 Unit 6 30-40 cm 0 Ceramic Frag Ceramic 12 0 0 0 0 9,51 82 Unit 6 30-40 cm 0 Biface-AP Frag PDL 1 0 14.9 10.3 3.3 0,4 83 Unit 6 30-40 cm 0 Battered Implement Frag Volcanic 1 1 78 56.1 22,7 119,8 84 Unit 6 30-40 cm 0 Faunal Com Shell 1 0 0 0 0 382 Page 2 CA-SDI-8303 3/16/2005 CAT NO UNITTYPE ^:;D-liiyE?iiji^e::;r UNIT LEVEL li^lSlTEM ARTIFACT PORTION MATERIAL QUAN FIRED LENGTH WIDTH THICKNESS WEIGHT 85 Unit 6 40-50 cm C Debitage Com Undif 4C 0 0 0 0 70.1 86 Unit 6 40-50 cm c Faunal Com Bone 1 0 0 0 0 3,75 87 Unit 6 40-50 cm 0 Core Frag Metavolcanic 1 0 109,2 88,1 30,3 416,57 88 Unit 6 40-50 cm 0 Core Frag Volcanic 1 0 57,9 50,9 32,1 119,4 89 Unit 6 40-50 cm 0 Faunal Com Shell 1 0 0 0 0 134,4 90 Unit 6 50-60 cm 0 Debitage Com Undif 36 0 0 0 0 24,7 91 Unit 6 50-60 cm 0 Crystal Com Quartz 1 0 0 0 0 0.18 92 Unit 6 50-60 cm 0 Faunal Com Bone 1 0 0 0 0 0.83 93 Unit 6 50-60 cm 0 Ceramic Frag Ceramic 3 0 0 0 0 4,07 94 Unit 6 50-60 cm 0 Flake tool Com Volcanic 1 0 82.9 65,6 25,7 180,1 95 Unit 6 50-60 cm 0 Faunal Com Shell 1 0 0 0 0 107,7 96 Unit 6 20-30 cm 0 Ceramic Frag Ceramic 21 0 0 0 0 33,9 97 Unit 6 0-10 cm 0 Debitage Com Undif 61 0 0 0 0 31,5 98 Unit 6 10-20 cm 0 Ceramic Frag Ceramic 16 0 0 0 0 23,5 99 Unit 6 30-40 cm 0 Debitage Com Undif 50 0 0 0 0 180,56 100 Unit 6 30-40 cm 0 Faunal Com Bone 1 0 0 0 0 4,89 101 Unit 6 0-10 cm 0 Ceramic Frag Ceramic 12 0 0 0 0 12,4 102 Unit 6 20-30 cm 0 Mano Com Granitic 1 1 109,5 82,6 40,9 538,2 103 Unit 6 20-30 cm 0 Bead Com Olivella 1 0 0 0 0 0,35 104 Unit 11 40-50 cm 0 Debitage Com Obsidian 1 0 0 0 0 2,17 105 Unit 11 40-50 cm 0 Bead Com Olivella 1 0 15,4 8,3 8,1 0,63 106 Unit 11 50-60 cm 0 Biface AP Base Obsidian 1 0 14,1 9.3 3,5 0.33 107 Unit 11 10-20 cm 0 Flake tool Frag Quartzite 1 0 28,8 18,1 4,5 3.08 108 Unit 11 10-20 cm 0 Flake knife Frag Shale 1 0 38,5 46,1 3.3 10.3 109 Unit 11 10-20 cm 0 Battered Implement Com Metavolcanic 1 0 81,7 64,7 48.9 279.6 110 Unit 11 10-20 cm 0 Debitage Com Undif 154 0 0 0 0 215,6 111 Unit 11 10-20 cm 0 Faunal Com Bone 1 0 0 0 0 13,87 112 Unit 11 10-20 cm 0 Ceramic Frag Ceramic 28 0 0 0 0 280,8 113 Unit 11 10-20 cm 0 Debitage Com Obsidian 1 0 0 0 0 0,06 114 Unit 11 10-20 cm 0 Bead Com Shell 1 0 5.67 5,6 2,5 0,12 115 Unit 11 10-20 cm 0 Bead Corn Shell 1 0 5.41 5,34 2,88 0,11 116 Unit 11 10-20 cm 0 Faunal. Com Shell 1 0 0 0 0 1210:4 117 Unit 11 10-20 cm 0 Faunal Com Ottolith 1 0 0 0 0 0,1 118 Unit 11 0-10 cm 0 Debitage Com Undif 169 0 0 0 0 179,47 119 Unit 11 0-10 cm 0 -aunal Com Bone 1 0 0 0 0 7,87 120 Unit 11 0-10 cm 0 Debitage Com Obsidian 1 0 0 0 0 0,03 121 Unit 11 0-10 cm 0 Ceramic Frag Ceramic 38 0 0 0 0 49,8 122 Unit 11 0-10 cm 0 •aunal' Com Shell 1 0 0 0 0 1334.8 123 Unit 11 20-30 cm 0 Faunal Com Shell 1 0 0 0 0 1951 124 Unit 11 20-30 cm 0 Debitage Com Jndif 307 0 0 0 0 163.7 125 Unit 11 20-30 cm 0 ^aunal Com 3one 1 0 0 0 0 29.91 126 Unit 11 20-30 cm 0 Deramic -rag Ceramic 20 0 0 0 0 18.8 Page 3 CA-SDI-8303 3/16/2005 -e/^:N:0;: UNIT TYPE PROVENIENC UNIT LEVElf FEAT ITEM ARTIFACT PORTION :|«/ill|i5^iiX; QUAN FIRED LENGTH, WIDTH THICKNESS VVEIGHT 127 Unit 11 20-30 cm 0 Debitage Com Obsidian 0 0 , 0 0 2,5 128 Unit 11 20-30 cm 0 Bead Com Shell 0 5.76 5,6 2.09 0,08 129 Unit 11 20-30 cm 0 Ceramic Cylinder Frag Ceramic 0 14.41 14,1 14.58 3,61 130 Unit 11 20-30 cm 0 Bead Com Olivella 0 11.2 6.7 7.3 0,43 131 Unit 11 20-30 cm 0 Nodule tool Frag Volcanic 0 78.2 45.3 22.3 85,2 132 Unit 11 20-30 cm 0 Ground stone Frag Granitic 0 0 0 0 65 133 Unit 11 20-30 cm 0 Pitch Com Pitch 0 0 0 0 0,53 134 Unit 11 20-30 cm 0 Debitage Com Obsidian 0 0 0 0 0,48 135 Unit 9 0-10 cm 0 Bead Com Shell 0 5.95 6,07 2,4 0,11 136 Unit 9 0-10 cm 0 Faunal Com Bone 0 0 0 0 16,6 137 Unit 9 0-10 cm 0 Mano Frag Volcanic 1 108.4 61.6 34,7 287,6 138 Unit 9 0-10 cm 0 Biface AP Tip PDL 0 14.8 7.2 2,7 0,24 139 Unit 9 0-10 cm 0 Ceramic Frag Ceramic 31 0 0 0 0 37,5 140 Unit 9 0-10 cm 0 Core Frag Metavolcanic 0 52 46,7 31 61 141 Unit 9 0-10 cm 0 Faunal Com Shell • 0 0 0 0 1121,1 142 Unit t 1 9 0-10 cm 0 Debitage Com Undif 157 0 0 0 0 110,3 143 Unit 9 10-20 cm 0 Faunal Com Bone 0 0 0 0 17.3 144 Unit 9 10-20 cm 0 Ground stone Frag Granitic 1 0 0 0 147,6 145 Unit 9 10-20 cm 0 Ceramic Frag Ceramic 31 0 0 0 0 35,38 146 Unit 9 10-20 cm 0 Trade Bead Com Glass 0 3,4 3,32 3,1 0.03 147 Unit 9 10-20 cm 0 Biface AP Com PDL 0 21,9 16,2 4,66 1.6 148 Unit 9 10-20 cm 0 Biface Frag Quartz 0 5.4 4,1 1,9 0,07 149 Unit 9 10-20 cm 0 Biface AP Mid Quartz . 0 12.7 7,3 3,21 0.37 150 Unit 9 10-20 cm 0 Debitage Com Obsidian 0 0 0 0 0,22 151 Unit 9 10-20 cm 0 Debitage Com Undif 229 0 0 0 0 137,7 152 Unit 9 10-20 cm 0 Faunal Com Shell 0 0 0 0 1313,6 153 Unit 9 10-20 cm 0 Bead Com Olivella 0 13.6 8,2 7,4 0,63 154 Unit 9 20-30 cm 0 Biface Pre Com PDL 0 26.4 19,5 4,5 2,6 155 Unit 9 20-30 cm 0 Faunal Com Bone 0 0 0 0 19,6 156 Unit 9 20-30 cm 0 Debitage Com Undif 244 0 0 0 0 172,3 157 Unit 9 20-30 cm 0 Mano Frag Granitic 1 45,5 44.1 53,3 145,5 158 Unit 9 20-30 cm 0 Ceramic Frag Ceramic 42 0 0 0 0 33,7 159 Unit 9 20-30 cm 0 Faunal Com Shell 0 0 0 0 1163.6 160 Unit 9 20-30 cm 0 Bead Com Shell 0 4,12 4 1,54 0,01 161 Unit 9 30-40 cm 0 Battered Implement Frag Metavolcanic 0 51 53.2 15,6 52.7 162 Unit 9 30-40 cm 0 Biface AP Com Quartz 0 22.09 13 4,36 0.97 163 Unit 9 30-40 cm 0 Debitage Com Undif 166 0 0 0 0 163,1 164 Unit 9 30-40 cm 0 Faunal Com Bone 0 0 0 0 13 165 Unit 9 30-40 cm 0 Ceramic Frag Ceramic 12 0 0 0 0 8 166 Unit 9 30-40 cm 0 Faunal Com Shell 0 0 0 0 783.9 167 Unit 9 40-50 cm 0 Faunal Com Bone 0 0 0 0 6,13 168 Unit 9 40-50 cm 0 Ceramic Frag Ceramic 0 0 0 0 2,1 Page 4 CA-SDI-8303 3/16/2005 CAT NO UNIT TYPE PROVENIENC " U--. LEVEL , FEAT ITEM :A|l1gAef r.-.- '-BPRTION MATERIAL QUAN glRECX LENGTH WIDTH THICKNESS WEIGHT 169 Unit 9 40-50 cm 0 Debltage Com Obsidian 1 0 0 0 0 0,03 170 Unit 9 40-50 cm 0 Debitage Com Undif. 53 0 0 0 0 172 171 Unit 9 40-50 cm 0 Faunal Com Shell 1 0 0 0 0 293.3 172 Unit 9 50-60 cm 0 Faunal Com Bone 1 0 0 0 0 3,46 173 Unit 9 50-60 cm 0 Bead Com Shell 1 0 4,3 3.8 1.8 0,01 174 Unit 9 50-60 cm 0 Debitage Com Undif 24 0 0 0 0 4,75 175 Unit 9 50-60 cm 0 Faunal Com Shell 1 0 0 0 0 182,5 176 Unit 7 50-60 cm 0 Debitage Com Undif 76 0 0 0 0 105,5 177 Unit 7 50-60 cm 0 Debitage Com Obsidian 4 0 0 0 0 0,43 178 Unit 7 40-50 cm 0 Debitage Com Undif 68 0 0 . 0 0 135,81 179 Unit 7 40-50 cm 0 Debitage Com Obsidian 1 0 0 0 0 0,02 180 Unit 7 30-40 cm 0 Debitage Com Undif 67 0 0 0 0 107,2 181 Unit 7 10-20 cm 0 Debitage Com Undif 43 0 0 0 0 55.8 182 Unit 7 80-90 cm 0 Debitage Com Undif 14 0 0 0 0 16,1 183 Unit 7 70-80 cm 0 Debitage Com Undif 44 0 0 0 0 29,6 184 Unit 7 60-70 cm 0 Debitage Com Undif 75 0 0 0 0 202,3 185 Unit 7 40-50 cm 0 Faunal Com Bone 0 0 0 0 22,64 186 Unit 7 40-50 cm 0 Faunal Com Shell 0 0 0 0 1581,3 187 Unit 7 40-50 cm 0 Faunal Com Cov;frey Shel 0 40,7 27.1 2r.5 18,78 188 Unit 7 40-50 cm 0 Biface AP Com PDL 0 32 16.8 4.1 2,03 189 Unit 7 40-50 cm 0 Ceramic Frag Ceramic 14 0 0 0 0 27.3 190 Unit 7 40-50 cm 0 Battered Implement Com Volcanic 0 85,9 69.9 . 53.7 421.4 191 Unit 7 40-50 cm 0 Ground stone Frag Granitic 1 103,2 101.8 47.3 751.1 192 Unit 7 40-50 cm 0 Mano Frag Granitic 1 59,5 73.5 30,5 218.6 193 Unit 7 40-50 cm 0 Trade Bead Com Glass 0 5 5.3 4,8 0.16 194 Unit 7 40-50 cm 0 Bead Com Olivella 0 12.5 8.3 7 0.52 195 Unit 7 50-60 cm 0 Faunal Com Shell 0 0 0 0 1593.3 196 Unit 7 50-60 cm 0 Faunal Com Bone 0 0 0 0 236.9 197 Unit 7 50-60 cm 0 Ceramic Frag Ceramic 0 0 0 0 5.27 198 Unit 7 50-60 cm 0 Biface AP Com Quartz 0 23.3 17.4 4,9 1.9 199 Unit 7 30-40 cm 0 Faunal Com Shell 0 0 0 0 1349 200 Unit 7 30-40 cm 0 Faunal Com Bone 0 0 0 0 9.54 201 Unit 7 30-40 cm 0 Ceramic Frag Ceramic 0 0 0 0 15.9 202 Unit 7 30-40 cm 0 Battered Implement Frag Volcanic 1 54.1 36.5 33,5 91.5 203 Unit 7 10-20 cm 0 Faunal Com Shell 0 0 0 0 820.5 204 Unit 7 10-20 cm 0 Ceramic Frag Ceramic 16 0 0 0 0 238,7 205 Unit 7 10-20 cm 0 Faunal Com Bone 0 0 0 0 10.25 206 Unit 10 0-10 cm 0 Faunal Com Shell 0 0 0 0 173.7 207 Surface U7 @9m 340d of NW C 0 Surface 0 Metate Frag Sandstone 0 149.6 150.2 63 0 208 Surface U7 @9m 340d of NW C 0 Surface 0 Metate Frag Sandstone 0 0 188.8 147.2 72,8 0 209 Surface U7 @9m 340d of NW C 0 Surface 0 Metate Frag Sandstone 0 0 128.3 184.2 70,6 0 210 Surface U7 3m of SW Crnr 0 Surface 0 SEUT Com Metavolcanic 1 0 95.5 52.3 28,6 200.3 Page 5 CA-SDI-8303 3/16/2005 CAT NO UNITTYPE PROVENIENC UNIT .:;,;;LEV|L. ' FEAT ITEM, . ARTIFACT PORTION MATERIAL QUAN FIRED LENGTH WIDTH THICKNESS WEIGHT 211 Surface U7 6m of SW Corner 0 Sijrface 0 Mano Com Granitic 1 0 117,8 94.3 56,5 942,5 212 Surface 0 Surface 4 Mano Com Granitic 1 0 120.5 107,8 62,9 1290.8 213 Surface 0 Surface 7 Mano Com Granitic 1 0 115,2 82,4 42,6 601,2 214 Surface 0 Surface 7 Mano Frag Quartzite 1 0 70,7 46,6 53,4 217,8 215 Surface 0 Surface 9 Battered Implement Com Volcanic 1 0 83,6 63,1 50,7 416,9 216 Surface 0 Surface 9 Ground stone Frag Granitic 1 1 104,9 63 63,1 572 217 Surface 0 Surface 6 Mano Com Granitic 1 0 116,1 86,4 59,8 978,5 218 Surface 0 Surface 5 Battered Implement Com Metavolcanic 1 0 71,6 62,5 45 271,8 219 Surface 0 Surface 1 Debitage Com Metavolcanic 1 0 0 0 0 140.6 220 Surface 0 Surface 2 Debitage Com Volcanic 1 0 0 0 0 48.4 221 Surface 0 Surface 8 Mano Frag Volcanic 1 0 75,3 51.9 48,7 268.6 222 Surface U11 @ 11,2m NW@ 3 0 Surface 0 Metate Frag Granitic 1 0 160,6 138,8 32.5 1279.9 223 Surface 0 Surface 10 SEUT Com Metavolcanic 1 0 73,7 76,3 26,9 189.8 224 Surface 0 Surface 14 Mano Frag Granitic 1 0 90,4 64,2 52,6 419.8 225 Surface 0 Surface 12 Debitage Com Metavolcanic 1 0 0 0 0 17.8 226 Surface 0 Surface 11 Mano Frag Granitic 1 0 63,4 37.7 42,8 148.6 227 Surface U7 @ 3m 290d of NE C 0 Surface 0 Metate Frag Granitic 1 0 161,8 101.5 104,7 0 228 Surface 0 Surface 3 Metate Frag Granitic 1 0 224,4 5,7 124.7 0 229 Unit 7 0-10 cm 0 Debitage Com Undif 31 0 0 0 0 19.9 230 Unit 7 20-30 cm 0 Debitage Com Undif 96 0 0 0 0 201 231 Unit 7 20-30 cm 0 Debitage Com Obsidian 1 0 0 0 0 0.1 232 Surface 12m 170dg of Unit 7 0 0-10 cm 0 Battered Implement. Com Volcanic 1 0 80.4 74,2 28.4 239.8 233 Unit 7 20-30 cm 0 Faunal Com Bone 1 0 0 0 ,0 9.3 234 Unit 7 20-30 cm 0 Mano Frag Granitic 1 1 47.3 35,5 43.1 146 235 Unit 7 20-30 cm 0 Ceramic Com Ceramic 18 0 0 0 0 25,3 236 Unit 7 20-30 cm 0 Bead Com Olivella 1 0 16,8 9,9 7,9 0,7 237 Unit 7 20-30 cm 0 Flake tool Com PDL 1 0 20.2 12,3 3,5 0.8 238 Unit 7 Surface 0 Battered Implement Com Volcanic 1 0 94.6 62,7 49,2 411 239 Unit 7 20-30 cm 0 Faunal Com Shell 1 0 0 0 0 1852,3 240 Unit 7 0-10 cm 0 Ceramic Com Ceramic 0 0 0 0 15,1 241 Unit 7 0-10 cm 0 Faunal Com Bone 1 0 0 0 0 4,6 242 Unit 7 0-10 cm 0 Faunal Com Shell 1 0 0 0 0 1013,9 243 Unit 7 60-70 cm 0 Faunal Com Bone 1 0 0 0 0 26,7 244 Unit 7 60-70 cm 0 SEUT Com Metavolcanic 1 0 69.5 55.4 24,1 114.4 245 Unit 7 60-70 cm 0 Biface Frag PDL 1 0 265 21,7 5.9 4,8 246 Unit 7 60-70 cm 0 Faunal Com Ottolith 1 0 0 0 0 0,1 247 Unit 7 60-70 cm 0 Flake tool Com Quartzite 1 0 98.9 71,6 21,9 148,9 248 Unit 7 60-70 cm 0 Polished Stone Frag Volcanic 1 0 92.2 45.1 36,9 192,7 249 Unit 7 60-70 cm 0 Biface AP Base Quartz 1 0 11.7 12,7 3,4 0,5 250 Unit 7 60-70 cm 0 Flake Blank Com Quartz 1 0 16 11,4 2,3 0,5 251 Unit 7 60-70 cm 0 Biface Tip Quartz 1 0 10.9 5,7 2,7 0,05 252 Unit 7 60-70 cm 0 Bead Com Shell 1 0 3,6 3,5 1,1 0,01 Page 6 CA-SDI-8303 3/16/2005 CAT NO UNITTYPE PROVENIENC UNIT ;:: LEN/IEL: FEAT ITEM . ARTIFACT PORTION . M>»tTlRl^^ QUAN FIRED LENGTH WIDTH THICKNESS WEIGHT 253 Unit 7 60-70 cm 0 Faunal Com Shell 1 0 0 0 0 1093.8 254 Unit 7 80-90 cm 0 Biface Frag Chert 1 0 28.6 22.6 7.8 4,4 255 Unit 7 80-90 cm 0 Faunal Com Bone 1 0 0 0 0 4.8 256 Unit 7 80-90 cm 0 Faunal Com Shell 1 0 0 0 0 355.1 257 Unit 7 70-80 cm 0 Faunal Com Bone 1 0 0 0 0 17.1 258 Unit 7 70-80 cm 0 Ceramic Com Ceramic 0 0 0 0 1.6 259 Unit 7 70-80 cm 0 Faunal Com Shell 1 0 0 0 0 696,9 260 Surface 30m 230d of Unit 7 0 Surface 0 Metate Frag Sandstone 1 1 390 210 85.9 0 Page 7 n CATALOGUE FOR CA-SDI-8694 CA-SDI-8694 3/16/2005 CAT NO UNIT TYP| PROVENIENC UNIT LEVEL ARTIFACT PORTION MATERIAL QUAN FIRED. fENGTH WIDTy THICKNESS WEIGHT 1 Unit 13 0-10 cm Debitage Com Undif 25 0 0 0 0 207,2 2 Unit 13 0-10 cm Faunal Com Bone 0 0 0 0 0,78 3 Unit 13 0-10 cm Faunal Com Ottolith 0 0 0 0 0,54 4 Unit 13 0-10 cm Mano Frag Granitic 1 69,2 39,2 40,2 157 5 Unit 13 0-10 cm Mano Frag Volcanic 1 69,5 49,8 40.4 174,2 6 Unit 13 0-10 cm Faunal Com Shell 0 0 0 0 570,6 7 Unit 13 10-20 cm Faunal Com Shell 0 0 0 0 570.7 8 Unit 13 10-20 cm Battered Implement Com Volcanic 0 79,9 68,3 30,46 . 257.4 9 Unit 13 10-20 cm Battered Implement Com Volcanic 0 47,5 55,4 56,9 239.4 10 Unit 13 10-20 cm Mano Frag Volcanic 1 103.7 79.9 58,4 534,7 11 Unit 13 10-20 cm Faunal Com Bone 0 0 0 0 0.72 12 Unit 13 10-20 cm Ceramic Frag Ceramic 0 0 0 0 2,2 13 Unit 13 10-20 cm Debitage Com Undif 29 0 0 0 0 65,64 14 Unit 13 20-30 cm Debitage Com Undif 16 0 0 0 0 15.07 15 Unit 13 20-30 cm Faunal Com Shell 0 0 0 0 1277,1 16 Unit 13 20-30 cm Faunal Com Bone 0 0 0 0 0,4 17 Unit 13 40-50 cm Faunal Com Shell 0 0 0 0 66,4 18 Unit 13 30-40 cm Faunal Com Shell 0 0 0 0 825,6 19 Unit 13 30-40 cm Debitage Com Undif 0 0 0 0 0,1 20 Unit 14 0-10 cm Faunal Com Shell 0 0 0 0 412,1 21 Unit 14 0-10 cm Debitage Com Undif 33 0 0 0 0 114,37 22 Unit 14 0-10 cm Battered Implement Com Volcanic 0 87,6 76,7 56,6 437,7 23 Unit 14 0-10 cm Mano Frag Granitic 1 64,1 69,5 43 238,4 24 Unit 14 0-10 cm Mano Frag . Granitic 1 54,22 44 23,7 83,4 25 Unit 14 0-10 cm Mano Frag Granitic 1 52 54 25,7 75,9 26 Unit 14 0-10 cm Ceramic Frag Ceramic 0 0 0 0 1,09 27 Unit 14 0-10 cm Faunal Com Bone 0 0 0 0 1,51 28 Unit 14 10-20 cm Mano Frag Granitic 1 110,6 49,7 43,8 374,4 29 Unit 14 10-20 cm Debitage Com Undif 35 0 0 0 0 75,45 30 Unit 14 10-20 cm Faunal Com . Shell 0 0 0 0 455,5 31 Unit 14 10-20 cm Ceramic Frag Ceramic 0 0 0 0 1,97 32 Unit 14 10-20 cm Faunal Com Bone 0 0 0 0 1,22 33 Unit 14 20-30 cm Faunal Com Shell 0 0 0 0 384,4 34 Unit 14 20-30 cm Faunal Com Bone 0 0 0 0 1,53 35 Unit 14 20-30 cm Debitage Com Undif 0 0 0 0 105,98 36 Unit 14 30-40 cm Faunal Com Shell 0 0 0 0 214,9 37 Unit 14 30-40 cm Debitage Com Undif 0 0 0 0 6,66 38 Unit 14 30-40 cm Faunal Com Bone 0 0 0 0 0,2 39 Unit North 1/2 14 40-50 cm -aunal Com Shell 0 0 0 0 17,8 40 Unit 21 0-10 cm Faunal Com Shell 0 0 0 0 1,6 41 Unit 21 0-10 cm Debitage Com Undif 6 0 0 0 0 9,39 42 Unit 21 10-20 cm Faunal Com Shell 1 0 0 0 0 1,6 Page 1 CA-SDI-8694 3/16/2005 CAT NO UNIT TYPE Illil^jENC UNIT LEVEL ARTIFACT PORTION MATERIAL QUAN Dili LENGTH WIDTH THICKNESS WEIGHT 43 Unit 21 20-30 cm Debitage Com Undif 13 0 0 0 0 29.78 44 Unit 21 20-30 cm Faunal Com Bone 1 0 0 0 0 0.19 45 Unit 22 0-10 cm Faunal Com Shell 1 0 0 0 0 44.7 46 Unit 22 0-10 cm Faunal Com Bone 1 0 0 0 0 1,1 47 Unit 22 0-10 cm Debitage Com Undif 11 0 0 0 0 24,8 48 Unit 22 10-20 cm Debitage Com Undif 9 0 0 0 0 17,57 49 Unit 22 10-20 cm Faunal Com Shell 1 0 0 0 0 34.7 50 Unit 22 10-20 cm SEUT Com Quartzite 1 0 90 74.5 22.9 196.5 51 Unit 22 20-30 cm Faunal Com Shell 1 0 0 0 . 0 5.2 52 Unit 23 0-10 cm Debitage Com Undif 22 0 0 0 0 88.75 53 Unit 23 0-10 cm Faunal Com Shell 1 0 0 0 0 364.1 54 Unit 23 10-20 cm Faunal Com Shell 1 0 0 0 0 477,7 55 Unit 23 10-20 cm Debitage Com Undif 29 0 0 0 0 119.9 56 Unit 23 20-30 cm Faunal Com Shell 1 0 0 0 0 46,7 57 Unit 23 20-30 cm Debitage Com Undif 7 0 0 0 0 1,23 58 Unit 23 20-30 cm Faunal Com Bone 1 0 0 0 • 0 0,16 59 Unit 10 0-10 cm Faunal Com Shell 1 0 0 0 0 571,4 60 Unit 10 0-10 cm Ceramic Frag Ceramic 1 0 0 0 0 0,5 61 Unit 10 0-10 cm Faunal Com Bone 1 0 0 0 0 0,73 62 Unit 10 0-10 cm Debitage Com Undif 23 0 0 0 0 80,71 63 Unit 10 10-20 cm Faunal Com Shell 1 0 0 0 0 413,6 64 Unit. 10 10-20 cm Debitage Com Undif 33 0 0 . 0 0 168.17 65 Unit 10 20-30 cm Faunal Com Shell 1 0 0 0 0 585.3 66 Unit 10 20-30 cm Faunal Com Bone 1 0 0 0 0 0.66 67 Unit 10 20-30 cm Battered Implement Com Quartzite 1 0 67.4 45.9 39 159.1 68 Unit 10 20-30 cm Debitage Com Undif 18 0 0 0 0 506.1 69 Unit 10 30-35 cm Faunal Com Shell 1 0 0 0 0 335.9 70 Unit 10 30-35 cm Faunal Com Bone 1 0 0 0 0 0.31 71 Unit 10 30-35 cm Debitage Com Undif 3 0 0 0 0 12.4 72 Unit 11 0-10 cm Faunal Com Shell 1 0 0 0 0 739.6 73 Unit 11 0-10 cm Debitage Com Undif 20 0 0 0 0 223.56 74 Unit 11 0-10 cm Ceramic Frag Ceramic 1 0 0 0 0 1.03 75 Unit 11 0-10 cm Faunal Com Bone 1 0 0 0 0 0,79 .76 Unit 11 10-20 cm Faunal Com Shell 1 0 0 0 0 561 77 Unit 11 10-20 cm Faunal Com Bone 1 0 0 0 0 3,47 78 Unit 11 10-20 cm Debitage Com Undif 13 0 0 0 0 32,54 79 Unit 11 20-30 cm Faunal Com Shell 1 0 0 0 0 486,9 80 Unit 11 20-30 cm Faunal Com Bone 1 0 0 0 0 2.37 81 Unit 11 20-30 cm Ceramic Frag Ceramic 1 0 0 0 0 3.71 82 Unit 11 20-30 cm Debitage Com Undif 17 0 0 0 0 71,2 ,83 Unit 11 20-30 cm Awl Frag Bone 1 0 6.9 3.7 3.8 0,13 84 Unit 11 30-40 cm Faunal Com Shell 1 0 0 0 0 700,5 Page 2 CA-SDI-8694 3/16/2005 CAT NO UNITTYPE iliSlEMlNli, UNIT ,LEVEL >;':..v'r...;.,, iFiWACT' PORTION MATERIAL QUAN FIRED LENGTH WIDTI1 THICKNESS WEIGHT 85 Unit 11 30-40 cm Debitage Com Undif 3 0 0 0 0 20,8 86 Unit 12 0-10 cm Faunal Com Shell 1 0 0 0 0 1455.8 87 Unit 12 0-10 cm Mano Com Granitic 1 1 102,5 84,7 37,8 407.2 88 Unit , 12 0-10 cm Mano Frag Granitic 1 1 47,3 87,7 50,9 277,4 89 Unit 12 0-10 cm Ground stone Frag Granitic 1 1 93,7 71,6 41,1 358,9 90 Unit 12 0-10 cm Debitage Com Undif 45 0 0 0 0 177 91 Unit 12 0-10 cm Faunal Com • Bone 1 0 0 0 0 4,21 92 Unit 12 0-10 cm Ceramic Frag Ceramic 7 0 0 0 0 6,29 93 Unit 12 10-20 cm Faunal Com Shell 1 0 0 0 0 944,3 94 Unit 12 10-20 cm Faunal Com Bone 1 0 0 0 0 0,33 95 Unit 12 10-20 cm Ceramic Frag Ceramic 3 0 0 0 0 5,43 96 Unit 12 10-20 cm Debitage Com Undif 19 0 0 0 0 16,16 97 Unit 12 20-30 cm Faunal Com Shell 1 0 0 0 0 1008,6 98 Unit 5 0-10 cm Debitage Com Undif 12 0 0 0 0 54,62 99 Unit 5 0-10 cm Faunal Com Shell 1 0 0 0 0 43,6 100 Unit 5 0-10 cm Faunal Com Bone 1 0 0 0 0 0,42 101 Unit 5 10-20 cm Faunal Com Bone 1 0 0 0 0 2,23 102 Unit 5 10-20 cm Debitage Com Undif 10 0 0 0 0 28,2 103 Unit 5 10-20 cm Faunal Com Shell 1 0 0 0 0 36,4 104 Unit 5 20-30 cm Debitage Com , Undif 2 0 0 0 0 4,33 105 Unit 5 20-30 cm Faunal Com Bone 1 0 0 0 0 0,11 106 Unit .5 20-30 cm Faunal Com Shell 1 0 0 0 0 26,9 107 Unit 6 0-10 cm Debitage Com Undif 4 0 0 0 0 2,6 108 Unit 6 0-10 cm Faunal Com Shell 1 0 0 0 0 26.6 109 Unit 6 0-10 cm Ceramic Frag Ceramic 1 0 0 0 0 2,9 110 Unit 6 10-20 cm Faunal Com Shell 1 0 0 0 0 44,5 111 Unit 8 0-10 cm Faunal Com Shell 1 0 0 0 0 24,3 112 Unit 8 0-10 cm Debitage Com Undif 2 0 0 0 0 4,9 113 Unit 8 0-10 cm Faunal Com, Bone 1 0 0 0 0 0.05 114 Unit 8 10-20 cm Faunal Com Bone 1 0 0 0 0 0,07 115 Unit 8 10-20 cm Debitage Com Undif 9 0 0 0 0 9,43 116 Unit 8 10-20 cm Faunal Com Shell 1 0 0 0 0 14,2 117 Unit 8 20-30 cm Faunal Com Bone 1 0 0 0 0 1,6 118 Unit 8 20-30 cm Debitage Com Undif 8 0 0 0 0 15,5 119 Unit 8 20-30 cm Faunal Com Shell 1 0 0 0 0 8,4 120 Unit 8 30-40 cm Faunal Com Bone 1 0 0 0 0 1,14 121 Unit 8 30-40 cm Faunal Com Shell 1 0 0 0 0 2,07 122 Unit 8 30-40 cm Debitage Com Undif 6 0 0 0 0 8,83 123 Unit 8 40-50 cm Debitage Com Undif 2 0 0 0 0 1,68 124 Unit 8 40-50 cm Faunal Com Shell 1 0 0 0 0 0,08 125 Unit 8 40-50 cm Faunal Com Bone 1 0 0 0 0 0,3 126 Unit 9 0-10 cm Debitage Com Undif 3 0 0 0 0 12,1 Page 3 CA-SDI-8694 3/16/2005 CAT NO UNITTYPE PROVENIENC UNIT LE\/EL ARTII:AeT' PORTION . MATERIAL QUAN liRli lENGTH . WIDTH THICKNESS WEIGHT 127 Unit 9 0-10 cm Faunal Com Shell 1 0 0 0 0 7,05 128 Unit 9 10-20 cm Debitage Com Undif 5 0 0 0 0 6,12 129 Unit 9 10-20 cm Faunal Com Bone 0 0 0 0 0,68 130 Unit 9 10-20 cm Faunal Com Shell 0 0 0 0 1,9 131 Unit 9 20-30 cm Faunal Com Shell 0 0 0 0 1,73 132 Unit 9 20-30 cm Debitage Com Undif 0 0 0 0 1,4 133 Unit 7 0-10 cm Faunal Com Shell 0 0 0 0 34,7 134 Unit 7 0-10 cm Debitage Com Undif 0 0 0 0 1.29 135 Unit 7 10-20 cm Faunal Com Shell 0 0 0 0 34.31 136 Unit 7 10-20 cm SEUT Com Volcanic 0 69.3 62,1 40,9 200.56 137 Unit 7 10-20 cm Debitage Com Undif 0 0 0 0 13,51 138 Unit 7 20-30 cm Faunal Com Shell 0 0 0 0 11,5 139 Unit 7 20-30 cm Faunal Com Bone 0 0 0 0 0,03 140 Unit 4 0-10 cm Mano Com Volcanic 1 95,1 87 37,9 475,4 141 Unit 4 0-10 cm Faunal Com Shell 0 0 0 0 282,8 142 Unit 4 0-10 cm Nodule tool Com Volcanic 0 67.4 45,2 32,6 165,5 143 Unit 4 0-10 cm Faunal Com Bone 0 0 0 0 1,47 144 Unit 4 0-10 cm Debitage Com Undif 22 0 0 0 0 148,36 145 Unit 4 10-20 cm Shaped Stone Com Granitic 0 51,7 48.9 30,7 132 146 Unit 4 10-20 cm Debitage Com Undif 0 0 0 0 0.02 147 Unit 4 10-20 cm Ceramic Frag Ceramic 0 0 0 0 2,3 148 Unit 4 10-20 cm Faunal Com Bone 0 0 0 0 1,29 149 Unit 4 10-20 cm Faunal Com Shell 0 0 0 0 314,5 150 Unit 4 10-20 cm Debitage Com Undif 19 0 0 0 0 143,6 151 Unit 4 10-20 cm Ground stone Frag Granitic 1 29,1 28.9 42,3 45,15 152 Unit 4 20-30 cm Faunal Com Shell 0 0 0 0 705,8 153 Unit 4 20-30 cm Debitage Com Undif 11 0 0 0 0 93,2 154 Unit 4 20-30 cm Faunal Com Bone 0 0 0 0 0,4 155 Unit 4 30-40 cm Faunal Com Shell 0 0 0 0 323,3 156 Unit 3 0-10 cm Faunal Com Shell 0 0 0 0 601,6 157 Unit 3 0-10 cm Ground stone Frag Schist 0 77,5 69.7 46,5 271 158 Unit 3 0-10 cm Faunal Com Bone 0 0 0 0 2,6 160 Unit 3 0-10 cm Ceramic Frag Ceramic 0 0 0 0 1,51 161 Unit 3 0-10 cm Debitage Com Undif 35 0 0 0 0 68,9 162 Unit 3 10-20 cm Faunal Com Shell 0 0 0 0 514,3 163 Unit 3 10-20 cm Ceramic Frag Ceramic .0 0 0 0 1-,6 164 Unit 3 10-20 cm Faunal Com Bone 0 0 0 0 2,18 165 Unit 3 10-20 cm Debitage Com Undif 43 0 0 0 0 226.82 166 Unit 3 20-30 cm Flake tool Com Volcanic 0 78,05 47.3 13,7 50.5 167 Unit 3 20-30 cm Faunal Com Shell 0 0 0 0 1142.3 168 Unit 3 20-30 cm Debitage Com Undif 12 0 0 0 0 16,4 169 Unit 3 20-30 cm Faunal Com Bone 1 0 0 0 0 0,75 Page 4 CA-SDI-8694 3/16/2005 CAT NO UNIT TYPE PROVENIENC UNIT LEVEL PORTION , MATERIAL , QUAN-FIRED' ^WIDTH THICKNESS WEIGHT 170 Unit 3 30-40 cm Faunal Com Shell 1 0 0 0 0 344 171 Unit 3 30-40 cm Debitage Com Undif 0 0 0 0 0.6 172 Unit 32 0-10 cm Debitage Com Undif 29 0 0 0 0 125,75 173 Unit 32 0-10 cm Faunal Com Bone 1 0 0 0 0 1,47 174 Unit 32 0-10 cm Ceramic Frag Ceramic 0 0 0 0 23,35 175 Unit 32 0-10 cm Faunal Com Shell 1 0 0 0 0 1635,2 176 Unit 32 10-20 cm Battered Implement Com Volcanic 1 1 59.7 63,2 48.9 275,8 177 Unit 32 10-20 cm Battered Implement Com Volcanic 1 1 87.8 52,1 52,2 357,3 178 Unit 32 10-20 cm Debitage Com Undif 25 0 0 0 0 53,7 179 Unit 32 10-20 cm Ceramic Frag Ceramic 0 0 0 0 21,33 180 Unit 32 10-20 cm Faunal Com Bone 1 0 0 0 0 1,83 181 Unit 32 10-20 cm Faunal Com Shell 1 0 0 0 0 1445.3 182 Unit 36 0-10 cm Debitage Com Undif 10 0 0 0 0 84.6 183 Unit 36 0-10 cm Mano Frag Granitic 1 1 51.8 74.5 36 241.3 184 Unit 36 0-10 cm Faunal Com Shell 1 0 0 0 0 248,1 185 Unit 36 10-20 cm Debitage Com Undif 16 0 0 0 0 250,4 186 Unit 36 10-20 cm Core Frag Volcanic 1 0 72.5 58.2 41,4 173,4 187 Unit 36 10-20 cm Faunal Com Shell 1 0 0 0 0 214,9 188 Unit 23 0-10 cm Faunal Com Bone 1 0 0 0 0 4,07 189 Unit 11 0-10 cm Biface AP Com Quartz Crystal 1 0 14.8 11,4 2,7 0,37 190 Unit 15 0-10 cm Faunal Com Shell 1 0 0 0 0 87,2 191 Unit 15 0-10 cm Faunal Com Bone 1 0 0 0 0 2,55 192 Unit 15 0-10 cm Debitage Com Undif 24 0 0 0 0 95.8 193 Unit 15 10-20 cm Debitage Com Undif 20 0 0 0 0 186,4 194 Unit 15 10-20 cm Mano Frag Granitic 1 1 74.5 38,2 51,2 189,6 195 Unit 15 10-20 cm Nodule tool Com Volcanic 1 1 67.6 49,7 33,8 112,4 196 Unit 15 10-20 cm Faunal Com Bone 1 0 0 0 0 4,1 197 Unit 15 10-20 cm Faunal Com Shell 1 0 0 0 0 28,2 198 Unit 15 20-30 cm Debitage Com Undif 15 0 0 0 0 169,7 199 Unit 15 20-30 cm Faunal Com Shelf 1 0 0 0 0 7,1 200 Unit 15 20-30 cm Faunal Com Bone 1 0 0 0 0 2,14 201 Unit 15 20-30 cm Nodule tool Frag Metavolcanic 1 1 92.7 61.8 47.4 370.1 202 Unit 15 20-30 cm Nodule tool Frag Volcanic 1 0 52 54 25,9 102.3 203 Unit 15 30-40 cm. Faunal Com Shell 1 0 0 0 0 6.8 204 Unit 15 30-40 cm Faunal Com Bone 1 0 0 0 0 1.08 205 Unit 15 30-40 cm Debitage Com Undif . 10 0 0 0 0 27 206 Unit 15 40-50 cm Faunal Com Bone 1 0 0 0 0 0.44 207 Unit 16 0-10 cm Debitage Com Undif 11 0 0 0 0 17.8 208 Unit 16 0-10 cm Faunal Com Bone 1 0 0 0 0 0.2 209 Unit 16 0-10 cm Faunal Com Shell 1 0 0 0 0 27.3 210 Unit 16 10-20 cm Metate Frag Volcanic 1 0 125.7 . 108.6 60,9 1074 211 Unit 16 10-20 cm Faunal Com Shell 1 0 0 0 0 5.9 Page 5 CA-SDI-8694 3/16/2005 CAT NO UNIT TYPE PROVENIENC, UNIT LEVEL ARTIFACT PORTION MATERIAL QUAN LENGTH WIDTH THICKNESS WEIGHT 212 Unit 16 10-20 cm Faunal Com Bone 1 0 0 0 0 0.91 213 Unit 16 10-20 cm Debitage Com Undif 5 0 0 0 0 15.4 214 Unit 16 20-30 cm Debitage Com Undif 2 0 0 0 0 3,8 215 Unit 17 0-1.0 cm Debitage Com Undif 6 0 0 0 0 148,6 216 Unit 17 0-10 cm Faunal Com Shell 1 0 0 0 0 7,4 217 Unit 17 10-20 cm Debitage Com Undif 11 0 0 0 0 34,9 218 Unit 17 10-20 cm Battered Implement Frag Metavolcanic 1 0 51.5 40,1 23,9 70,6 219 Unit 17 10-20 cm Mano Frag Volcanic 1 0 61.3 52.5 21,3 78,1 220 Unit 17 10-20 cm Fauna! Com Shell 1 0 0 0 0 1,2 221 Unit 17 20-30 cm Faunal Com Shell 1 0 0 0 0 1.2 222 Unit 17 20-30 cm Debitage Com Undif 11 0 0 0 0 11,4 223 Unit 18 0-10 cm Debitage Com Undif 13 0 0 0 0 65.5 224 Unit 18 0-10 cm Faunal Com Bone 1 0 0 0 0 0,1 225 Unit 18 0-10 cm Faunal Com Shell 1 0 0 0 0 4,4 226 Unit 18 0-10 cm Historic Com Ceramic 0 0 0 0 26,9 227 Unit 12 10-20 cm Debitage Com Undif 12 0 0 0 0 31,5 228 Unit 18 10-20 cm Faunal Com Shell 1 0 0 0 0 1,5 229 Unit 18 10-20 cm Historic Com Ceramic 1 0 0 0 0 3,5 230 Unit 18 20-30 cm Debitage Com Undif 0 0 0 0 121,8 231 Unit 18 20-30 cm Faunal Com Bone 1 0 0 0 0 0,41 232 Unit 18 20-30 cm Faunal Com Shell 1 0 0 0 0 3,9 233 Unit 18 30-40 cm Faunal Com Shell 1 0 0 0 0 0,14 234 Unit 18 30-40 cm Faunal Com Bone 1 0 0 0 0 0,07 235 Unit 18 30-40 cm Debitage Com Undif 8 0 0 0 0 18,2 236 Unit 18 40-50 cm Debitage Com Undif 2 0 0 0 0 0,64 237 Unit 19 0-10 cm Debitage Com Undif 13 0 0 0 0 46,7 238 Unit 19 0-10 cm Faunal Com Shell 1 0 0 0 0 17,5 239 Unit 19 10-20 cm Debitage Com Undif 0 0 0 0 7,34 240 Unit 19 10-20 cm Faunal Com Shell 1 0 0 0 0 1 241 Unit 19 20-30 cm Debitage Com Undif 0 0 0 0 1,28 242 Unit 19 20-30 cm Faunal Com Shell 1 0 0 0 0 0,1 243 Unit 24 0-10 cm Faunal Com Shell 1 0 0 0 0 456,5 244 Unit 24 0-10 cm Faunal Com Bone 1 0 0 0 0 0,8 245 Unit 24 0-10 cm SEUT Frag Volcanic 1 0 51,6 44,3 21,1 66,3 246 Unit 24 0-10 cm Debitage Com Undif 28 0 0 0 0 98,1 247 Unit 24 0-10 cm Historic Com Glass 1 0 0 0 0 57,4 248 Unit 24 10-20 cm Nodule tool Com Volcanic 1 0 71.9 47,3 30,3 152,6 249 Unit 24 10-20 cm Debitage Com Undif 17 0 0 0 0 60,1 250 Unit 24 10-20 cm Faunal Com Shell 1 0 0 0 0 208 251 Unit 24 10-20 cm -aunal Com Bone 1 0 0 0 0 1,86 252 Unit 24 20-30 cm Faunal Com Shell 1 0 0 0 0 160,8 253 Unit 24 20-30 cm Flake tool Com Metavolcanic 1 0 54.1 40,1 21,4 43,5 Page 6 CA-SDI-8694 3/16/2005 CAT NO UNITTYPE UNIT . LEVEL L..:-; y:.?mUff^' I'C,'"'::-PORTION MATERIAL ' ' QUAN FIRED LENGTH WIDTH THICKNESS WEIGHT 254 Unit 24 20-30 cm Faunal Com Bone 1 0 0 0 0 4.01 255 Unit 24 20-30 cm Debitage Com Undif 35 0 0 0 0 194.2 256 Unit 24 30-40 cm Debitage Com Undif 12 0 0 0 0 171.3 257 Unit 24 30-40 cm Faunal Com Bone 1 0 0 0 0 2.55 258 Unit 24 30-40 cm Faunal Com Shell 1 0 0 0 0 60 259 Unit 25 0-10 cm Faunal Com Shell 1 0 0 0 0 267.8 260 Unit 25 0-10 cm Ceramic Frag Ceramic 1 0 0 0 0 1.53 261 Unit 25 0-10 cm Faunal Com Bone 1 0 0 0 0 0.75 262 Unit 25 0-10 cm Debitage Com Undif 18 0 0 0 0 37.5 263 Unit 29 0-10 cm Faunal Com Shell 1 0 0 0 0 5.9 264 Unit 28 0-10 cm Faunal Com Shell 1 0 0 0 0 24.4 265 Unit 28 0-10 cm Debitage Com Undif 0 0 0 0 28.3 266 Unit 28 10-20 cm Faunal Com Shell 1 0 0 0 0 10.4 267 Unit 28 10-20 cm Debitage Com Undif 0 0 0 0 62.2 268 Unit 28 10-20 cm Mano Frag Volcanic 1 1 59 46.2 49.8 228.87 269 Unit 28 20-30 cm Debitage Com Undif 0 0 0 0 11.7 270 Unit 28 20-30 cm Faunal Com Shell 1 0 0 0 0 8.7 271 Unit 28 20-30 cm Faunal Com Bone 1 0 0 0 0 0,41 272 Unit 28 30-40 cm Faunal Com Shell 1 0 0 0 0 0.3 273 Unit 28 30-40 cm Faunal Com Bone 1 0 0 0 0 1,28 274 Unit 28 30-40 cm Debitage Com Undif 0 0 0 0 4,92 275 Unit , 26 0-10 cm Debitage Com Undif 14 0 0 0 0 34.9 276 Unit 26 0-10 cm Faunal Com Shell 1 0 0 0 0 123,5 277 Unit 26 0-10 cm Faunal Com Bone 1 0 0 0 0 1,1 278 Unit 26 10-20 cm Faunal Com Shell 1 0 0 0 0 135,5 279 Unit 26 10-20 cm -Faunal Com Bone 1 0 0 0 0 0,57 280 Unit 26 10-20 cm Debitage Com Undif 31 0 0 0 0 112,6 281 Unit 26 20-30 cm Faunal Com Shell 1 0 0 0 0 156,5 282 Unit 26 20-30 cm Faunal Com Bone 1 0 0 0 0 2,69 283 Unit 26 20-30 cm Debitage Com Undif 22 0 0 0 0 101,9 284 Unit 26 20-30 cm Battered Implement Frag Volcanic 1 0 56.8 38.8 25.7 53.8 285 Unit 26 30-40 cm Faunal Com Shell 1 0 0 0 0 106,9 286 Unit 26 30-40 cm Faunal Com Bone 1 0 0 0 0 1,3 287 Unit 26 30-40 cm Debitage Com Undif 12 0 0 0 0 125.1 288 Unit 26 40-50 cm Battered Implement Frag Volcanic 1 1 58.3 42.9 42.6 164.3 289 Unit 26 40-50 cm Debitage Com Undif 0 0 0 0 104.3 290 Unit 26 40-50 cm Faunal Com Shell 1 0 0 0 0 65.8 291 Unit 26 40-50 cm Faunal Com Bone 1 0 0 0 0 0.2 292 Unit 31 10-20 cm Core Com Metavolcanic 1 0 103 98.5 66 917.2 293 Unit 31 10-20 cm Debitage Com Undif 0 0 0 0 6.9 294 Unit 31 10-20 cm -aunal Com Bone 1 0 0 0 0 1.4 295 Unit 31 10-20 cm Faunal Com Shell 1 0 o| 0 0 55,6 Page 7 CA-SDI-8694 3/16/2005 CAT NO UNIT TYPE PROVENIENC UNIT LEVEL ARTIFACT PORTION MATERIAL QOIii FIRED LENGTH WIDTH THICKNESS WEIGHT 296 Unit 25 30-40 cm Debitage Com Undif 27 0 0 0 0 46,9 297 Unit 25 30-40 cm Faunal Com Shell 1 0 0 0 0 61.6 298 Unit 25 30-40 cm Faunal Com Bone 1 0 0 0 0 1.3 299 Unit 25 10-20 cm Faunal Com Shell 1 0 0 0 0 293,9 300 Unit 25 10-20 cm Debitage Com Undif 40 0 0 0 0 88 301 Unit 25 10-20 cm Faunal Com Bone 1 0 0 0 0 1,4 302 Unit 25 10-20 cm Historic Com Bullet Casing 1 0 0 0 0 1,1 303 Unit 25 40-50 cm Biface AP Com Quartz 1 0 22.4 14,8 6 1,8 304 Unit 25 40-50 cm Debitage Com Undif 4 0 0 0 0 0.7 305 Unit 25 40-50 cm Faunal Com Shell 1 0 0 0 0 55 306 Unit 25 20-30 cm Faunal Com Shell 1 0 0 0 0 92.6 307 Unit 25 20-30 cm Debitage Com Undif 27 0 0 0 0 47.9 308 Unit 25 20-30 cm Faunal Com Bone 1 0 0 0 0 0.3 309 Unit 25 20-30 cm Flake tool Com Metavolcanic 1 0 28.7 15 8,3 3.6 310 Unit 25 50-60 cm Faunal Com Shell 1 0 0 0 0 0.7 311 Unit 25 50-60 cm Faunal Com Bone 1 0 0 0 0 0.05 312 Unit 27 0-10 cm Faunal Com Shell 1 0 0 0 0 20.1 313 Unit 27 0-10 cm Debitage Com Undif 4 0 0 0 0 5,8 314 Unit 27 10-20 cm Faunal Com Shell 1 0 0 0 0 ,11.7 315 Unit 27 10-20 cm Debitage Com Undif 7 0 0 0 0 21.5 316 Unit 27 20-30 cm Debitage Com Undif 13 0 0 0 0 104.1 317 Unit 27 20-30 cm Faunal Com Shell . 1 0 0 0 0 3.3 318 Unit 27 20-30 cm Faunal Com Bone 1 0 0 0 0 0.4 319 Unit 27 30-40 cm Debitage Com Undif 9 0 0 0 0 33.9 320 Unit 27 30-40 cm Faunal Com Shell 1 0 0 0 0 0.3 321 Unit 30 0-10 cm Debitage Com Undif 3 0 0 0 0 13.4 322 Unit 30 0-10 cm Faunal Com Shell 1 0 0 0 0 46.4 323 Unit 30 0-10 cm Faunal Com Bone 1 0 0 0 0 0.05 324 Unit 30 10-20 cm Faunal Com Shell 1 0 0 0 0 15.4 325 Unit 30 10-20 cm Debitage Com Undif 5 0 0 0 0 80.5 326 Unit 30 10-20 cm Faunal Com Bone 1 0 0 0 0 2.6 327 Unit 30 20-30 cm Debitage Com Undif 2 0 0 0 0 31.4 328 Unit 30 20-30 cm Faunal Com Shell 1 0 0 0 0 12.7 329 Unit 31 0-10 cm Debitage Com Undif 7 0 0 0 0 13 330 Unit 31 0-10 cm Faunal Com Shell 1 0 0 0 0 21.8 331 Unit 31 20-30 cm Faunal Com Shell 1 0 0 0 0 61.5 332 Unit 31 20-30 cm Debitage Com Undif 3 0 0 0 0 10.6 333 Unit 31 30-40 cm -aunal Com Shell 1 0 0 0 0 14.7 334 Unit 31 30-40 cm Debitage Com Undif 4 0 0 0 0 2,3 335 Unit 35 20-30 cm Faunal Com Shell 1 0 0 0 0 1325,8 336 Unit 35 20-30 cm Battered Implement Com Volcanic 1 1 80.9 80,1 20,8 205,1 337 Unit 35 20-30 cm Vlano Com Granitic 1 1 103.1 8,4 46,5 505,5 Page 8 CA-SDI-8694 3/16/2005 CAT NO UNIT TYPE PROVENIENC UNIE; |:.;r:;;(|EiEL";;; „ ARTIFACT ••P^bRTION" .MATERIAL QUAN* FIRED LENGTH WIDTH, .THICKNESS WEIGHT 338 Unit 35 20-30 cm Mano Frag Granitic 1 0 110 72,1 48,3 470.3 339 Unit 35 20-30 cm Battered Implement Com Metavolcanic 1 1 115.9 102.3 41.2 588 340 Unit 35 20-30 cm Ground stone Com Granitic 1 1 101.3 94,8 39 582.6 341 Unit 35 20-30 cm Mano Frag Granitic 1 1 64.1 60,8 42,3 213,4 342 Unit 35 20-30 cm Ground stone Frag Granitic 1 1 57.9 42,9 54,9 198 343 Unit 35 20-30 cm Ceramic Frag Ceramic 0 0 0 0 6 344 Unit 35 20-30 cm Debitage Com Undif 12 0 0 0 0 9 345 Unit 35 20-30 cm Faunal Com Bone 1 0 0 0 0 3 346 Unit 41 0-10 cm Faunal Com Shell 1 0 0 0 0 724,8 347 Unit 41 0-10 cm Debitage Com Undif 13 0 0 0 0 79,9 348 Unit 41 0-10 cm Faunal Com Bone 1 0 0 0 0 2,7 349 Unit 41 0-10 cm Ceramic Frag Ceramic 0 0 0 0 1,8 350 Unit 41 40-50 cm Mano Frag Granitic 1 1 79.9 41.3 49,5 293,5 351 Unit 41 40-50 cm Battered Implement Frag Quartzite 1 0 60.7 58,2 42,4 244,6 352 Unit 41 40-50 cm Ground stone Frag Granitic 1 1 92.7 69 43,7 473,9 353 Unit 41 40-50 cm Ground stone Frag Granitic 1 1 74.7 56,6 52,9 307,3 354 Unit 41 40-50 cm Hammer stone Com Granitic 1 0 125.6 65,8 65.1 757,4 355 Unit 41 40-50 cm Debitage Com Undif 14 0 0 0 0 77,8 356 Unit 41 40-50 cm Ceramic Frag Ceramic 0 • 0 0 0 10.9 357 Unit 41 40-50 cm Faunal Com Bone 1 0 0 0 0 1.8 358 Unit 41 40-50 cm Faunal Com Shell 1 0 0 0 0 752 359 Unit ,41 30-40 cm TRM Com Quartz 1 0 79 75,7 35 247,7 360 Unit 41 30-40 cm Ground stone Frag Granitic 1 1 79.4 56,9 32.3 168,1 361 Unit 41 30-40 cm Mano Frag Granitic 1 1 90,5 68,9 51,7 450,4 362 Unit 41 30-40 cm Debitage Com Undif 25 0 0 0 0 71.8 363 Unit 41 30-40 cm Faunal Com Bone 1 0 0 0 0 0,8 364 Unit 41 30-40 cm Ceramic Frag Ceramic 1 0 0 0 0 3,2 365 Unit 41 30-40 cm Faunal Com Shell 1 0 0 0 0 1254,4 366 Unit 47 10-20 cm Faunal Com Bone 1 0 0 0 0 0,2 367 Unit 47 10-20 cm Ceramic Frag Ceramic 0 0 0 0 12,2 . 368 Unit 47 10-20 cm Debitage Com Undif 27 0 0 0 0 132,5 369 Unit 47 10-20 cm Mano Com Volcanic 1 0 143,2 81.1 38,4 767,1 370 Unit 47 10-20 cm Battered Implement Com Volcanic 1 0 61 53.3 48,7 203.5 371 Unit 47 10-20 cm Battered Implement Com Quartzite 1 0 63,3 45,2 39.5 170,2 372 Unit 47 0-10 cm Ceramic Frag Ceramic 0 0 0 0 6,6 373 Unit 47 0-10 cm Faunal Com Shell 1 0 0 0 0 0,2 374 Unit 47 0-10 cm Historic Com Bullet Casing 1 0 0 0 0 0,6 375 Unit 47 0-10 cm Debitage Com Undif 10 0 0 0 0 106,4 376 Unit 47 20-30 cm Debitage Com Undif 1 0 0 0 0 21,7 377 Unit 43 20-30 cm Faunal Com Shell 1 0 0 0 0 832,2 378 Unit 43 20-30 cm Ceramic Frag Ceramic 1 0 0 0 0 0,7 379 Unit 43 20-30 cm Faunal Com Bone 1 0 0 0 0 0,4 Page 9 CA-SDI-8694 3/16/2005 CAT NO UNIT TYPE . PROVENIENC Uflli;! LEVEL ARTIFACT PORTION MATERIAL QUAN FIRED LENGTH WIDTH THICKNESS WEIGHT 380 Unit 43 20-30 cm Debitage Com Undif 12 • 0 0 0 0 27,3 381 Unit 46 0-10 cm Ceramic Frag Ceramic 5 0 0 0 0 12,9 382 Unit 46 0-10 cm Faunal Com Shell 1 0 0 0 0 1,1 383 Unit 46 0-10 cm Debitage Com Undif 20 0 0 0 0 193,5 384 Unit 46 0-10 cm Ground stone Frag Volcanic 1 1 88.9 66,9 56,1 361,8 385 Unit 46 0-10 cm Faunal Com Bone 1 0 0 0 0 0,3 386 Unit 46 0-10 cm Historic Com Bullet Casing 2 0 0 0 0 1,2 387 Unit 46 10-20 cm Mano Com Volcanic 1 1 90.4 75.7 34,7 389,5 388 Unit 46 10-20 cm Mano Com Granitic 1 1 53.9 43.8 40,2 123,7 389 Unit 46 10-20 cm Ceramic Frag Ceramic 3 0 0 0 0 8,5 390 Unit 46 10-20 cm Faunal Com Bone 1 0 0 0 0 0,05 391 Unit 46 10-20 cm Debitage Com Undif 20 0 0 0 0 86,9 392 Unit 46 20-30 cm Ceramic Frag Ceramic 1 0 0 0 0 1,8 393 Unit 46 20-30 cm Debitage Com Undif 2 0 0 0 0 6,5 394 Unit 46 20-30 cm Faunal Com Bone 1 0 0 0 0 0,4 395 Unit 44 40-50 cm Faunal Com Shell 1 0 0 0 0 1064,5 396 Unit 44 40-50 cm Mano Com Granitic 1 1 65.8 70,2 55,1 0 397 Unit 44 40-50 cm Debitage Com Undif 5 0 0 0 0 5,6 398 Unit 44 40-50 cm Faunal Com Bone 1 0 0 0 0 0,01 399 Unit 44 30-40 cm Faunal Com Shell 1 0 0 0 0 1017.1 400 Unit 44 30-40 cm Debitage Com Undif 26 0 0 0 0 53,3 401 Unit 44 30-40 cm Ceramic Frag Ceramic 5 . 0 0 0 0 10,9 402 Unit 44 30-40 cm Faunal Com Bone 1 0 0 0 0 4,8 403 Unit 44 30-40 cm Mano Frag Volcanic 1 1 104.9 63,3 36,7 378,7 404 Unit 44 30-40 cm Mano Frag Granitic 1 1 64.9 55,5 36,7 190,5 405 Unit 35 0-10 cm Faunal Com Shell 1 0 0 0 0 1175,9 406 Unit 35 0-10 cm Debitage Com Undif 14 0 0 0 0 77,5 407 Unit 35 0-10 cm Ceramic Com Ceramic 7 0 0 0 0 7,5 408 Unit 35 0-10 cm Faunal Com Bone 1 0 0 0 0 2,5 409 Unit 35 10-20 cm Faunal Com Shell 1 0 0 0 0 2307,5 410 Unit 35 10-20 cm Faunal Com Bone 1 0 0 0 0 10,9 411 Unit 35 10-20 cm Faunal Com Ottolith 1 0 0 0 0 0,05 412 Unit 35 10-20 cm Mano Frag Volcanic 1 1 77,5 90.6 39,7 355,3 413 Unit 35 10-20 cm Mano Frag Granitic 1 1 50,1 63.96 52,2 277 414 Unit 35 10-20 cm Ceramic Com Ceramic 12 0 0 0 0 27,2 415 Unit 35 0-10 cm Debitage Com Undif 51 0 0 0 0 188 416 Unit 35 10-20 cm Historic Com , Bullet Casing 1 0 0 0 0 0,6 417 Unit 35 30-40 cm Faunal Com Shell 1 0 0 0 0 1820.6 418 Unit 35 30-40 cm Debitage Com Undif 3 0 0 0 0 22,6 419 Unit 35 30-40 cm Faunal Com Bone 1 0 0 0 0 0,1 420 Unit 33 0-10 cm Debitage Com Undif 20 0 0 0 0 162,2 421 Unit 33 0-10 cm Faunal Com Bone 1 0 0 0 0 1,8 Page 10 CA-SDI-8694 3/16/2005 CAT NO UNIT TYPE PROVENIENC UNIT LEVEL ARTIFACT" T" , , MATERIAL QUAN, ©REb LENGTH WIDTH THICKNESS WEIGHT 422 Unit 33 0-10 cm Ceramic Com Ceramic 2 0 0 0 0 7,2 423 Unit 33 0-10 cm Faunal Com Shell 1 0 0 0 - 0 1057,6 424 Unit 33 10-20 cm Faunal Com Shell 1 0 0 0 0 1174,3 425 Unit 33 0-10 cm Debitage Com Undif 1 0 0 0 0 0 426 Unit 33 10-20 cm Ceramic Com Ceramic 11 0 0 0 0 15,8 427 Unit 33 10-20 cm Faunal Com Bone 1 0 0 0 0 1,9 428 Unit 33 10-20 cm Debitage Com Undif 31 0 0 0 0 55 429 Unit 33 20-30 cm Faunal Com Bone 1 0 0 0 0 5,3 430 Unit 33 20-30 cm Ceramic Com Ceramic 5 0 0 0 0 11,3 431 Unit 33 20-30 cm Mano Frag Volcanic 1 1 68.8 33,2 36 120,9 432 Unit 33 20-30 cm Debitage Com Undif 28 0 0 0 0 106,7 433 Unit 33 20-30 cm Faunal Com Shell 1 0 0 0 0 1529,7 434 Unit 33 30-40 cm Faunal Com Shell 1 0 0 0 0 1046.1 435 Unit 33 30-40 cm Debitage Com Undif 4 0 0 0 0 18,8 436 Unit 33 30-40 cm Faunal Com Bone 1 0 0 0 0 1,2 437 Unit 39 0-10 cm Faunal Com Shell 1 0 0 0 0 778,3 438 Unit 39 0-10 cm Debitage Com Undif 11 0 0 0 0 19,4 439 Unit 39 0-10 cm Ceramic Com Ceramic 2 0 0 0 0 6,9 440 Unit 39 10-20 cm Mano Frag Granitic 1 1 132 67,2 40,3 381.3 441 Unit 39 10-20 cm Mano Frag Volcanic 1 1 82,5 47.3 37,5 179,3 442 Unit 39 10-20 cm Mano Frag Granitic 1 1 38 36.1 55,1 110,6 443 Unit 39 10-20 cm Ceramic Com Ceramic 2 0 0 0 0 6,1 444 Unit 39 10-20 cm Debitage Com Undif 23 . 0 0 0 0 91,3 445 Unit 39 10-20 cm Faunal Com Bone 1 0 0 0 0 3,7 446 Unit 39 10-20 cm Faunal Com Shell 1 0 0 0 0 1424,7 447 Unit 39 20-30 cm Debitage Com Undif 8 0 0 0 0 39,4 448 Unit 39 20-30 cm Faunal Com Shell 1 0 0 0 0 1919,8 449 Unit 34 10-20 cm Debitage Com Undif 29 0 0 0 0 103 450 Unit 34 10-20 cm Ceramic Frag Ceramic 4 0 0 0 0 22.9 451 Unit 34 10-20 cm Faunal Com Bone 1 0 0 0 0 2,4 452 Unit 34 10-20 cm Ground stone Frag Granitic 1 1 65,1 71,4 52,3 251.2 453 Unit 34 0-10 cm Faunal Com Shell 1 0 0 0 0 1858 454 Unit 34 10-20 cm Faunal Com Shell 1 0 0 0 0 1514.2 455 Unit 34 0-10 cm Debitage Com Undif 26 0 0 0 0 156.7 456 Unit 34 0-10 cm Ceramic Frag Ceramic 7 0 0 0 0 30 457 Unit 34 0-10 cm Faunal Com Bone 1 0 0 0 0 2.9 458 Unit 34 30-40 cm Faunal Com Bone 1 0 0 0 0 0.01 459 Unit 34 30-40 cm Debitage Com Undif 2 0 0 0 0 0.7 460 Unit 34 30-40 cm Faunal Com Shell 1 0 0 0 0 1463.2 461 Unit 32 40-50 cm Faunal Com Shell 1 0 0 0 0 3036.2 462 Unit 32 40-50 cm Faunal Com Bone 1 0 0 0 0 0.5 463 Unit 32 40-50 cm Debitage Com Undif 4 0 0 0 0 3.9 Page 11 CA-SDI-8694 3/16/2005 CAT-NO UNIT TYPE PROVENIENC UNIT LEVEL ARTIFACT . PORTION MATERIAL QUAN FIRED LENGTH; WIDTH THICKNESS WEIGHT 464 Unit 42 0-10 cm Ceramic Frag Ceramic 1 0 0 0 0 1.2 465 Unit 42 0-10 cm Debitage Com Undif 35 0 0 0 0 118.7 466 Unit 42 0-10 cm Ground stone Frag Granitic 1 1 0.5 69.5 27,3 175,7 467 Unit 42 0-10 cm Mano Frag Granitic 1 1 80 73,3 39.6 286,3 468 Unit 42 0-10 cm Faunal Com Shell 1 0 0 0 0 533,7 469 Unit 42 10-20 cm Debitage Com Undif 33 0 0 0 0 135,8 470 Unit 42 10-20 cm Ceramic Frag Ceramic 12 0 0 0 0 16,2 471 Unit 42 10-20 cm Faunal Com Bone 1 0 0 0 0 1,1 472 Unit 42 10-20 cm Mano Frag Granitic 1 1 85.1 63,9 28,7 195,8 473 Unit 42 10-20 cm Mano Frag Granitic 1 1 89.1 56.7 43,8 239 474 Unit 42 10-20 cm Faunal Com Shell 1 0 0 0 0 619,6 475 Unit 42 20-30 cm Debitage Com Undif 22 0 0 0 0 71,6 476 Unit 42 20-30 cm Battered Implement Frag Volcanic 1 0 70.6 48,6 34,4 84,7 477 Unit 42 20-30 cm Faunal Com Bone 1 0 0 0 • 0 1,3 478 Unit 42 20-30 cm Ceramic Frag Ceramic 8 0 0 0 0 33,3 479 Unit 42 20-30 cm Nodule tool Com Volcanic 1 0 92.3 64,4 36,8 262,8 480 Unit 42 20-30 cm Faunal Com Shell 1 0 0 0 0 579,1 481 Unit 42 30-40 cm Debitage Com Undif 11 0 0 0 0 8.1 482 Unit 42 30-40 cm Faunal Com Bone 1 0 0 0 0 0.5 483 Unit 42 30-40 cm Faunal Com Shell 1 0 0 0 0 776.6 484 Unit 34 20-30 cm Ground stone Frag Granitic 1 1 137.8 100,2 79,2 1594.8 ,485 Unit 34 20-30 cm Ground stone Frag Granitic 1 1 85.4 48,3 77.8 535.8 486 Unit 34 20-30 cm Faunal Com Shell 1 0 0 0 0 1423.5 487 Unit 34 20-30 cm Ceramic Frag Ceramic 3 0 0 0 0 7,1 488 Unit 34 20-30 cm Faunal Com Bone 1 0 0 0 0 2,4 489 Unit 34 20-30 cm Debitage Com Undif 31 0 0 0 0 98,2 490 Unit 34 20-30 cm Mano Com Granitic 1 0 90.5 73.9 47.5 464,5 491 Surface Near Unit 44 0 Surface Mano Com Granitic 1 1 135.2 84,9 41.1 873 492 Unit 44 0-10 cm Debitage Com Undif 18 0 0 0 0 114.9 493 Unit 44 0-10 cm Faunal Com Bone 1 0 0 0 0 0,6 494 Unit 44 0-10 cm Ceramic Frag Ceramic 1 0 0 0 0 1,9 495 Unit 44 0-10 cm Historic Com Bullet Casing 1 0 0 0 0 3,5 496 Unit 44 0-10 cm Ground stone Frag Granitic 1 1 109.9 92,5 45,6 371,6 497 Unit 44 0-10 cm Faunal Com Shell 1 0 0 0 0 727 498 Unit 44 10-20 cm Debitage Com Undif 31 0 0 0 0 111,6 499 Unit 44 10-20 cm Faunal Com Bone 1 0 0 0 0 1,5 500 Unit 44 10-20 cm Ceramic Frag Ceramic 3 0 0 0 0 55,7 501 Unit 44 10-20 cm Faunal Com Shell 1 0 0 0 0 1167,8 502 Unit 44 20-30 cm Debitage Com Undif 32 0 0 0 0 80,6 503 Unit 44 20-30 cm Ceramic Frag Ceramic 2 0 0 0 0 6.6 504 Unit 44 20-30 cm Faunal Com Bone 1 0 0 0 0 2.5 505 Unit 44 20-30 cm Mano Com Volcanic 1 1 108.5 69,4 57,3 510.4 Page 12 CA-SDI-8694 3/16/2005 CAT NO UNITTYPE -IglliliilNC UNIT LEVEL .ARTIFACT PORTION • MATERIAL QUAN I^IREi liiiis WIDTH THICKNESS-VVEIGHT 506 Unit 44 20-30 cm Faunal Com Shell 1 0 0 0 0 1054,9 507 Unit 44 20-30 cm Mano Com Volcanic 1 1 85,2 68.6 43.2 364.4 508 Unit 44 30-40 cm Mano Frag Volcanic 1 1 97,07 65.5 46,6 453,1 509 Unit 44 20-30 cm Ground stone Frag Granitic 1 1 171,1 59.3 43,8 194,2 510 Unit 44 20-30 cm Ground stone Frag Granitic 1 1 94,6 35 42,2 205,6 511 Unit 45 0-10 cm Ceramic Frag Ceramic 9 0 0 0 0 15,4 512 Unit 45 0-10 cm Debitage Com Undif 24 0 0 0 0 108,4 513 Unit 45 0-10 cm Faunal Com Abalone Shell 1 0 0 0 0 67,4 514 Unit 45 10-20 cm Awl Com Bone 1 0 98.2 18.51 9,3 9,6 515 Unit 45 10-20 cm Faunal Com Bone 1 0 0 0 0 2,8 516 Unit 45 10-20 cm Ceramic Frag Ceramic 8 0 0 0 0 18,5 517 Unit 45 10-20 cm Debitage Com Undif 13 0 0 0 0 212,6 518 Unit 45 20-30 cm Battered Implement Frag Volcanic 1 1 70,9 41.7 35,8 91,7 519 Unit 45 20-30 cm Flake tool Com Volcanic 1 0 84,8 70,8 25,6 187.9 520 Unit 45 20-30 cm Debitage Com Undif 13 0 0 0 0 187.3 521 Unit 45 20-30 cm Ceramic Frag Ceramic 3 0 0 0 0 7.3 522 Unit 45 20-30 cm Faunal Com Bone 1 0 0 0 0 1,3 523 Unit 36 20-30 cm Debitage Com Undif 10 0 0 0 0 29,3 524 Unit 36 20-30 cm Fauna! Com Shell 1 0 0 0 0 442.1 525 Unit 37 0-10 cm Faunal Com Shell 1 0 0 0 0 429 526 Unit 37 0-10 cm Nodule tool Com Metavolcanic 1 0 99,3 94,7 40 408,9 527 Unit 37 0-10 cm Ceramic Frag Ceramic 1 0 0 0 0 0,6 528 Unit 37 0-10 cm Debitage Com Undif 35 0 0 0 0 131,3 529 Unit 37 10-20 cm Faunal Com Shell 1 0 0 0 0 243 530 Unit 37 10-20 cm Debitage Com Undif 18 0 0 0 0 35,4 531 Unit 37 10-20 cm Mano Com Granitic 1 1 105,9 80,2 48,8 556,9 532 Unit 37 20-30 cm Faunal Com Shell 1 0 0 0 0 442,1 533 Unit 37 20-30 cm Faunal Com Bone 1 0 0 0 0 3,3 534 Unit 37 20-30 cm Debitage Com Undif 6 0 0 0 0 14,5 535 Unit 37 30-40 cm Faunal Com Shell 1 0 0 0 0 817,7 536 Unit 38 20-30 cm Faunal Com Shell 1 0 0 0 0 1708,6 537 Unit 38 20-30 cm Debitage Com Undif 7 0 0 0 0 18,3 538 Unit 38 20-30 cm Faunal Com Bone 1 0 0 0 • 0 1,3 539 Unit 38 20-30 cm Bead Com Olivella 1 0 9,7 6,5 5,4 0,2 540 Unit 38 0-10 cm Faunal Com Shell 1 0 0 0 0 986,7 541 Unit 38 0-10 cm Ceramic Com Ceramic 2 0 0 0 0 1,7 542 Unit 38 0-10 cm Faunal Com Bone 1 0 0 0 0 0,4 543 Unit 38 0-10 cm Mano Frag Volcanic 1 1 110,8 69,5 30,4 341,8 544 Unit 38 0-10 cm Mano Frag Volcanic 1 1 86,2 48,1 38,1 245,1 545 Unit 38 0-10 cm Debitage Com Undif 21 0 0 0 0 104,7 546 Unit 38 10-20 cm Faunal Com Shell 1 0 0 0 0 1419,9 547 Unit 38 10-20 cm Debitage Com Undif 45 0 0 ,0 0 113,1 Page 13 CA-SDI-8694 3/16/2005 CAT NO.. HidiFii IHiifENIENC; UNIT , LEVEL ARTIFACT PORTION MATERIAL QUAN FIRED LENGTH WIDJH i THICKNESS WEIGHT 548 Unit 38 10-20 cm Faunal Com Bone 1 0 0 0 0 0,15 549 Unit 38 10-20 cm Ceramic Com Ceramic 11 0 0 0 0 41,6 550 Unit 38 10-20 cm SEUT Com Metavolcanic 1 0 64.3 58 43,2 194,6 551 Unit 38 10-20 cm Mano Com Volcanic 1 1 105.8 90.3 71,3 857,8 552 Unit 36 10-20 cm Mano Com Volcanic 1 1 101.1 75.8 43,3 506,6 553 Unit 38 10-20 cm Mano Frag Granitic 1 1 79.2 47,3 48 156,7 554 Unit 41 10-20 cm Faunal Com Shell 1 0 0 0 0 942 555 Unit 41 10-20 cm Mano Frag Granitic 1 1 46.6 54.8 26,1 73,6 556 Unit 41 10-20 cm Faunal Com Bone 1 0 0 0 0 1 557 Unit 41 10-20 cm Ceramic Com Ceramic 0 0 0 0 10,2 558 Unit 41 10-20 cm Debitage Com Undif 31 0 0 0 0 47,2 559 Unit 41 20-30 cm Faunal Com Shell 1 0 0 0 0 1630,2 560 Unit 41 20-30 cm Faunal Com Bone 1 0 0 0 0 3,9 561 Unit 41 20-30 cm Ceramic Com Ceramic 21 0 0 0 0 85,6 562 Unit 41 20-30 cm Debitage Com Undif 18 0 0 0 0 78,6 563 Unit 43 0-10 cm Ceramic Com Ceramic 0 0 0 0 16,5 564 Unit 43 0-10 cm Faunal Com Bone 1 0 0 0 0 5,5 565 Unit 43 0-10 cm Mano Frag Volcanic 1 1 81.7 51,8 33,7 224,3 566 Unit 43 0-10 cm Debitage Com Undif 25 0 0 0 0 99,7 567 Unit 43 0-10 cm Faunal Com Shell 1 0 • 0 0 0 593,8 568 Unit 43 10-20 cm Ceramic Com Ceramic 0 0 0 0 14,7 569 Unit 43 10-20 cm Faunal Com . Bone 1 0 0 0 , 0 5,2 570 Unit 43 10-20 cm Debitage Com Undif 39 0 0 0 0 150,3 571 Unit 43 10-20 cm Mano Frag Granitic 1 1 57.3 74.3 58.2 376.3 572 Unit 43 10-20 cm Mano Frag Granitic 1 1 88.9 55.1 36.6 220 573 Unit 43 10-20 cm Mano Frag Granitic 1 1 67.7 58,7 56,7 353,9 574 Unit 43 10-20 cm Mano Frag Granitic 1 1 115.7 83,8 43,6 482,9 575 Unit 43 10-20 cm Faunal Com Shell 1 0 0 0 0 930 576 Unit 32 20-30 cm Ceramic Com Ceramic 1 0 0 0 0 0,4 577 Unit 32 20-30 cm Debitage Com Undif 0 0 0 0 70,6 578 Unit 32 20-30 cm Faunal Com Bone 1 0 0 0 0 2,9 579 Unit 32 20-30 cm Battered Implement Com Volcanic 1 0 94.8 69,7 42 378,9 580 Unit 32 20-30 cm Faunal Com Shell 1 0 0 0 0 1065 581 Unit 32 20-30 cm Metate Frag Sandstone 1 1 168.5 166,2 90,8 0 582 Unit 32 20-30 cm Metate Frag Granitic 1 1 139.4 114 74.6 0 583 Unit 32 20-30 cm Mano Frag Granitic 1 1 89.9 71,3 58,2 485,8 584 Unit 32 20-30 cm Mano Frag Volcanic 1 1 78.7 34,2 31,3 131,8 585 Unit 32 30-40 cm Faunal Com . Shell 1 0 0 0 1361,8 586 Unit 32 30-40 cm Mano Frag Granitic 1 1 98.7 63 63,6 519 587 Unit 32 30-40 cm Mano Frag Granitic 1 1 53 85,2 35 316,7 588 Unit 32 30-40 cm Mano Frag Granitic 1 1 108.2 65.1 62,9 571,8 589 Unit 32 30-40 cm Mano Frag Granitic 1 1 70.9 62,1 51,8 351,3 Page 14 CA-SDI-8694 3/16/2005 CAT NO UNIT TYPE PftOVENIENC UNIT LEVEL. ARTIFACT "rPORTJON, MATERIAL CIlMi Illl LENGTH WIDTH THICKNESS .WEIGHT 590 Unit 32 30-40 cm Debitage Com Undif 5 0 0 0 0 6 591 Unit 32 30-40 cm Faunal Com Bone 0 0 0 0 1,1 592 Unit 32 30-40 cm Ceramic Com Ceramic 0 0 0 0 0,3 593 Unit 40 0-10 cm Faunal Com Bone 0 0 0 0 1.9 594 Unit 40 0-10 cm Ceramic Com Ceramic 15 0 0 0 0 38,8 595 Unit 40 0-10 cm Debitage Com Undif 18 0 0 0 0 47,8 596 Unit 40 0-10 cm Faunal Com Shell 0 0 0 0 1392.5 597 Unit 40 0-10 cm Biface AP Tip Volcanic 0 14.7 8,6 3-4 0,2 598 Unit 40 10-20 cm Ceramic Com Ceramic 13 0 0 0 0 27,3 599 Unit 40 10-20 cm Faunal Com Bone 0 0 0 0 1,8 600 Unit 40 10-20 cm Faunal Com Bone 0 0 0 0 1,2 601 Unit 40 10-20 cm Debitage Com Undif 40 0 0 0 0 182,7 602 Unit 40 10-20 cm Faunal Com Shell 0 0 0 0 1976,8 603 Unit 40 20-30 cm Ceramic Com Ceramic 0 0 0 0 21,3 604 Unit 40 20-30 cm Faunal Com Bone 0 0 0 0 0,3 605 Unit 40 20-30 cm Debitage Com Undif 0 0 0 0 31.8 606 Unit 40 30-40 cm Faunal Com Shell 0 0 0 0 1382,3 607 Unit 40 30-40 cm Ceramic Com Ceramic 0 0 0 0 0,4 608 Unit 40 30-40 cm Core Frag Quartzite 0 98.6 94,3 40,1 530,9 609 Unit 40 30-40 cm Debitage Com Undif 0 0 0 0 8,3 610 Unit 40 30-40 cm Faunal Com Bone 0 0 0 0 4,7 611 Unit 40 30:40 cm Mano Frag Granitic 1 99.6 81,9 57 574.3 612 Unit 40 30-40 cm Battered Implement Com Metavolcanic 0 95 46.7 28,3 187,6 613 Surface 0 Surface Mano Frag Granitic 1 100.3 49,9 57,5 419,8 614 Surface 0 Surface Battered Implement Com Metavolcanic 0 69.2 56,3 27,3 171 615 Surface 6m East of Unit 0 Surface Core Frag Metavolcanic 0 90.8 79,8 37.6 342,8 616 Surface 0 Surface Debitage Com Undif 0 0 0 0 32,1 617 Surface @ Unit 6 0 Surface Battered Implement Frag Metavolcanic 0 81.3 68,4 59,1 402,7 618 Surface W of Unit 16 0 Surface Battered Implement Com Quartzite 0 79.1 57,7 56,3 376,4 619 Surface Adjacent to Unit 0 Surface Ground stone Frag Granitic 1 70.1 64,5 69,6 535,8 620 Surface @ Unit 12 0 Surface Nodule tool Com Metavolcanic 0 86,1 56 52.9 404 621 Surface 2m E of Unit 26 0 Surface Core Com Quartzite 0 57,6 60,7 39.4 163,1 622 Surface @ Unit 14 0 Surface Metate Frag Granitic 1 62,6 54,3 50,7 353,4 623 Surface 0 Surface Mano Com Granitic 1 170,6 106,3 63,4 1811,2 624 Surface 0 Surface Vlano Com Quartzite 1 99,3 72,7 41,4 457,8 625 Surface 4m West of U12 0 Surface Metate Frag Sandstone 1 170,5 183,7 101,4 0 626 Unit 45 20-30 cm Ground stone Com Granitic 0 310 180 120 0 627 Unit 33 20-30 cm Metate Frag Granitic 0 265 260 90 0 628 Unit 33 20-30 cm Faunal Com Otolith 0 0 0 0 2.63 Page 15 CATALOGUE FOR CA-SDI-8797 I CA-SDI-8797 3/16/2005 _ CAT NO UNIT TYPE PROVENIENC - UNir LEVEL ARTIFACT PORTION MATERIAL QUAN^ CORTEX FIRED LENGTH WIDTH THICKNESS WEIGHT 1 Unit 1 0-10 cm Faunal Com Shell 1 0 0 0 0 0 51.5 2 Unit 1 0-10 cm Debitage Com Undif 20 0 0 0 0 0 52,7 3 Unit 1 0-10 cm Ground stone Frag , Granitic 1 0 0 53.2 33.1 29,3 82,6 4 Unit 1 0-10 cm Mano Frag Volcanic 1 0 0 84.3 54.9 34,1 247,9 5 Unit 1 10-20 cm Faunal Com Bone 1 0 0 0 0 0 0,8 6 Unit 1 10-20 cm Faunal Com Shell 1 0 0 0 0 0 31,4 . 7 Unit 1 10-20 cm Debitage Com Undif 13 0 0 0 0 0 79,7 8 Unit 1 20-30 cm Debitage Com Undif 5 0 0 0 0 0 40,4 9 Unit 1 20-30 cm Faunal Com Shell 1 0 0 0 0 0 2,7 10 Unit 1 30-40 cm Faunal Com Shell 1 0 0 0 0 0 1,2 11 Unit 1 30-40 cm Debitage Com Undif 1 0 0 0 0 0 0,05 12 Unit 2 0-10 cm Faunal Com Shell 1 0 0 0 0 0 77 13 Unit 2 0-10 cm Battered Implement Com Volcanic 1 0 0 74.4 50.1 28,1 153,7 14 Unit 2 0-10 cm Faunal Com Bone 1 0 0 0 0 0 0.5 15 Unit 2 0-10 cm Debitage Com Undif 10 0 0 0 0 0 18,7 16 Unit 2 10-20 cm Faunal Com Shell 1 0 0 0 0 0 140,1 17 Unit 2 10-20 cm Debitage Com Undif 7 0 0 0 0 0 18,8 18 Unit 2 20-30 cm Faunal Com Bone 1 0 0 0 0 0 1 19 Unit 2 20-30 cm Faunal Com Shell 1 0 0 0 0 0 154.5 20 Unit 2 20-30 cm Debitage Com Undif 9 0 0 0 0 0 26,7 21 Unit 2 30-40 cm Faunal Com Shell 1 0 0 0 0 0 31,7 22 Unit 2 30-40 cm Debitage Com Undif 10 0 0 0 0 0 25.8 23 Unit 2 30-40 cm Faunal Com Bone 1 0 0 0 0 0 0,9 24 Unit 2 40-50 cm Faunal Com Shell 1 0 0 0 0 0 15,5 25 Unit 2 40-50 cm Faunal Com Bone 1 0 0 0 0 0 0,05 26 Unit 2 40-50 cm Debitage Com Undif 18 0 0 0 0 0 38 27 Unit 2 50-60 cm Faunal Com Shell 1 0 0 0 0 0 7,1 28 Unit 2 50-60 cm Faunal Com Bone 1 0 0 0 0 0 0,5 29 Unit 2 50-60 cm Debitage Com Undif 15 0 0 0 0 0 37,7 30 Unit 2 60-70 cm Faunal Com Shell 1 0 0 0 0 .0 3 31 Unit 2 60-70 cm Faunal Com Bone 1 0 0 0 0 0 0,05 32 Unit 2 60-70 cm Debitage Com Undif 17 0 0 0 0 0 26,7 33 Unit 2 70-80 cm Debitage Com Undif 2 0 0 0 0 0 2,2 34 Unit 2 70-80 cm Faunal Com Shell 1 0 0 0 0 0 0,5 35 Unit 3 0-10 cm Faunal Com Shell 1 0 0 0 0 0 61,4 36 Unit 3 0-10 cm Debitage Com Undif , 1 0 0 0 0 0 0,05 37 Unit 3 10-20 cm Mano Frag Volcanic 1 0 0 79.5 58.57 27.3 196,5 38 Unit 3 10-20 cm Debitage Com Undif 2 0 0 0 0 0 5,1 39 Unit 3 10-20 cm Faunal Com Shell 1 0 0 0 0 0 82,2 40 Unit 3 20-30 cm Faunal Com Shell . 1 0 0 0 0 0 80,8 41 Unit 3 20-30 cm Debitage Com Undif 2 0 0 0 0 0 20,2 42 Unit 3 30-40 cm Faunal Com Shell 1 0 0 0 0 0 5,9 Page 1 CA-SDI-8797 3/16/2005 CAT NO UNIT TYPE PROVENIENC. UNIT LEVEL ' . ARTIFACT PORTION .MATERIAL QUAN CORTEX FIRED LENGTH WIDTH THICKNESS WEIGHT 43 Unit 3 30-40 cm Debitage Com Undif 12 0 0 0 0 0 7,4 44 Unit 3 40-50 cm Faunal Com Shell 1 0 0 0 0 0 3,1 45 Unit 3 40-50 cm Debitage Com Undif 21 0 0 0 0 0 15,8 46 Unit 3 50-60 cm Faunal Com Shell 1 0 0 0 0 0 7.2 47 Unit 3 50-60 cm Debitage Com Undif 10 0 0 0 0 0 17 48 Unit 3 60-70 cm Faunal Com Shell 1 0 0 0 0 0 0.8 49 Unit 3 60-70 cm Debitage Com Undif 7 0 0 0 0 0 4.1 50 Unit 3 70-80 cm Debitage Com Undif 8 0 0 0 0 0 2,5 51 Unit 3 70-80 cm Faunal Com Shell 1 0 0 0 0 0 0,4 52 Unit 3 70-80 cm Faunal Com Bone 1 0 0 0 0 0 0.1 53 Unit 3 80-90 cm Debitage Com Undif 2 0 0 0 0 0 0.8 54 Unit 6 0-10 cm Faunal Com Shell 1 0 0 0 0 0 24.5 55 Unit 6 0-10 cm Debitage Com Undif 3 0 0 0 0 0 17.2 56 Unit 6 10-20 cm Faunal Com Shell 1 0 0 0 0 0 21.4 57 Unit 6 10-20 cm Debitage Com Undif 2 0 0 0 0 0 24,1 58 Unit 6 20-30 cm Faunal Com Shell 1 0 0 0 0 0 4,1 59 Unit 6 20-30 cm Debitage Com Undif 4 0 0 0 0 0 11.5 60 Unit 6 30-40 cm Faunal Com Shell 1 0 0 0 0 0 0,6 61 Unit 6 30-40 cm Debitage Com Undif 1 0 0 0 0 0 0.05 62 Unit 6 40-50 cm Debitage Com Undif 2 0 0 0 0 0 0.1 63 Unit 6 40-50 cm Faunal Com Shell 1 0 0 0 0 0 1,6 64 Unit 6 40-50 cm Faunal Com Bone 1 0 0 0 0 0 0,05 65 Unit 6 50-60 cm Faunal Com Shell 1 0 0 0 0 0 1,6 66 Unit 6 50-60 cm Debitage Com Undif 3 0 0 0 0 0 0,3 67 Unit 4 0-10 cm Faunal Com Shell 1 0 0 0 0 0 18.1 68 Unit 4 0-10 cm Debitage Com Undif 3 0 0 0 0 0 4,6 69 Unit 4 0-10 cm Polished Stone Frag Volcanic 1 0 0 48.2 68.2 39,5 185.4 70 Unit 4 0-10 cm Faunal Com Bone 1 0 0 0 0 0 0,6 71 Unit 4 10-20 cm Faunal Com Shell 1 0 0 0 0 0 5 72 Unit 4 10-20 cm Debitage Com Undif 3 0 0 0 0 0 1.1 73 Unit 4 20-30 cm Faunal Com Shell 1 0 0 0 0 0 9.7 74 Unit 4 20-30 cm Debitage Com Undif 3 0 0 0 0 0 19.9 75 Unit 4 30-40 cm Faunal Com Shell 1 0 0 0 0 0 56.9 76 Unit 4 30-40 cm Debitage Com Undif 7 0 0 0 0 0 27.5 77 Unil 4 40-50 cm Faunal Com Shell 1 0 0 0 0 0 26,1 78 Unit 4 40-50 cm Faunal Com Bone 1 0 0 0 0 0 0,4 79 Unit 4 40-50 cm Debitage Com Undif 20 0 0 0 0 0 65,2 80 Unit 4 50-60 cm Debitage Com Undif 12 0 0 0 0 0 15,3 81 Unit 4 50-60 cm Faunal Com Bone 1 0 0 0 0 0 0,7 82 Unit 4 50-60 cm Faunal Com Shell 1 0 0 0 0 0 8,7 83 Unit 1M SW of U4 0 Surface Battered Implement Com Volcanic 1 0 0 86.2 72.2 55,2 435,2 84 Unit 4 60-70 cm Debitage Com Undif 5 0 0 0 0 0 14 Page 2 CA-SDI-8797 3/16/2005 CATNO UNIT TYPE PROVENIENC UNIT , ,liEVEL , ARTIFACT PORTION MATERIAL QUAN CORTEX ftlRED LENGTH ,WIDTH THICKNESS WEIGHT 85 Unit 4 60-70 cm Faunal Com Shell 1 0 0 0 0 0 4.6 86 Unit 4 70-80 cm Faunal Com Cowry Shell 1 0 0 0 0 0 4.8 87 Unif 4 70-80 cm Mano Com Volcanic 1 0 0 50 38.4 48,6 148,6 88 Unit 4 70-80 cm Debitage Com Undif 23 0 0 0 0 0 29,3 89 Unit 4 70-80 cm Faunal Com Shell 1 0 0 0 0 0 4.2 90 Unit 4 70-80 cm Faunal Com Bone 1 0 0 0 0 0 0,5 91 Unit 4 80-90 cm Faunal Com Bone 1 0 0 0 0 0 0,3 92 Unit 4 80-90 cm Debitage Com Undif 4 0 0 0 0 0 5,9 93 Unit 4 90-100 cm Debitage Com Undif 2 0 0 0 0 0 0.3 94 Unit 5 0-10 cm Faunal Com Shell 1 0 0 0 0 0 241.7 95 Unit 5 0-10 cm Debitage Com Undif 10 0 0 0 0 0 47.1 96 Unit 5 10-20 cm Faunal Com Shell 1 0 0 0 0 0 212.3 97 Unit 5 10-20 cm Faunal Com Bone 1 0 0 0 0 0 0.8 98 Unit 5 10-20 cm Debitage Com Undif 7 0 0 0 0 0 23 99 Unit 5 20-30 cm Faunal Com Shell 1 0 0 0 0 0 409.9 100 Unit 5 20-30 cm Debitage Com Undif 18 0 0 0 0 0 15.2 101 Unit 5 30-40 cm Faunal Com Shell 1 0 0 0 0 0 212.2 102 Unit 5 30-40 cm SEUT Com Metavolcanic 1 0 0 35.4 31,9 13,3 22.7 103 Unit 5 30-40 cm Flake Tool Com Metavolcanic 1 0 0 39.3 23,4 5.8 10.3 104 Unit 5 30-40 cm Faunal Com Bone 1 0 0 0 0 0 0.3 105 Unit 5 30-40 cm Debitage Com Undif 4 0 0 0 0 0 65 106 Unit 5 40-50 cm Faunal Com Shell 1 0 0 0 0 0 298.9 107 Unit 5 40-50 cm Faunal Com Bone 1 0 0 0 0 0 1 108 Unit 5 40-50 cm Debitage Com Undif 12 0 0 0 0 0 35.6 109 Unit 5 50-60 cm Faunal Com Bone 1 0 0 0 0 0 1.9 110 Unit 5 50-60 cm Faunal Com Shell 1 0 0 0 0 0 134.9 111 Unit 5 50-60 cm Debitage Com Undif 11 0 0 0 0 0 9.6 112 Unit 5 60-70 cm Faunal Com Shell 1 0 0 0 0 0 7.4 ,113 Unit 5 60-70 cm Debitage Com Undif 4 0 0 0 0 0 1.5 114 Unit 5 70-80 cm Debitage Com Undif 5 0 0 0 0 0 2.7 115 Unit 5 70-80 cm Faunal Com Shell 1 0 0 0 0 0 0.5 116 Unit 5 80-90 cm Faunal Com Shell 1 0 0 0 0 0 2 117 Unit 5 20-30 cm Mano Com Granitic 1 0 0 121.9 81,7 47,8 0 Page 3 SHELL ANALYSIS CATALOGUES CA-SDI-8303 Shell 5/31/2005 Accession Unit Level Species Habitat Weight CA-SDI-8303 CA-S5l-8303 CA^DF-SSOS CA-S6T-5303 CA-SDi-8303 CA-SDI-8303 CA-SDi-83d3 CA-SDI-8303 CA-SDI-8303 CA-SDI-8303 ;10 ITo' Ho"' ho' lio {11 hi iiT |0-10cm (0-10 cm {6-16 cm jci-IOcm iO-lb cm §-10 cm jO-l6cm jO-l 0 cm 10-10 cm Argopecten jChione jDonax gouldii iOstrea luridea iUnidentifiable Argopecten jCerithrdea califomica jChione IChiton (BLE jBLE SB BLE jBLE ] ;BLE iRsbc 25. 96 19. 9 13 28. a 258 2. CA-SDI-8303 hi p-10cm jo-l6cm CA-SDI-8303 CA-SDI-8303 CA-SDI-8303 CA-SDI-8303 iponaxgouldii iOlivella biplicata SB SB' 986. 11 1? p-10 cm iO-IOcrn {Ostrea luridea iUnidentifiable 11 i10-20 cm CA-SDI-8303 11 H 0-20 cm Argopecten iCerithidea californica CA-SDI-8303 h1 Jl0-20cm Si 0-20 cm iChione iChiton BLE 0. 2.6 46.3 BLE 22.7 BLE 0.6 BLE 202.5 CA-SDI-8303 RSOC CA-SDI-8303 ill '!ii 1.9 CA-SDI-8303 hi CA-SDi-8303 111 J10-20cm JIO^ cm^ T[0-20 crn !2d-3C)cmi {Donax gouldii IOstrea luridea jSB BLE CA-SDI-8303 hl CA-SDI-8303 11 CA-SDI-8303 !l 1 j2q-30cm 2120-30017 120-36 cm iUnidentifiable jArgopecten^ iCerithidea californica BLE 92Z8 43.4 iBLE jChione IBLE 39. 1.5 iChiton CA-SDI-8303 IRSOC CA-SDI-8303 JII iif 120-30 cm 380.8 jDonax gouldii 120-30 cm IOstrea luridea {SB IBLE CA-SDI-8303 hi 1472.8 CA-SDI-8303 CA-SDI-6303 CA-SDI-8303 hi |20-3pcm pp-30cm 130^ cm IPolinices iBLE 1.4 iUnidentifiable sArgopecten IBLE CA-SDI-8303 hi CA-SDI-8303 CA-SDI-8303 CA-SDI-8303 CA-SDI-8303 11 11 11 CA-Spjl-83q3 CA-SDI-8303 11 11 CA-SDI-8303 CA-SDI-8303 CA-SDI-8303 11 11 11 11 30-40 cm 30^6crn 30-46 cm ICerithidea californica IBLE 4a 47.9 iChione jDonax gouldii IBLE 0.8 4023 iSB 1252.8 30-40 cm 130-40 cm Olivella biplicata (SB 0.7 30-40 cm jOstreaJuridea iUnidentifiable BLE 5.2 40-50 cm Argopecten 40-50 cm iCerithidea califomica 40-50 cm IChione 40-50 cm 40-50 cm CA-SDI-8303 CA-SDI-8303 hi 140-50 cm 40-50 cm CA-SDI-8303 CA-SDI-8303 CA-SDI-8303 CA-SDi-8363" if JiT' Ill" 140-50 cm i50-60 cm Chiton Donax gouldii Olivella biplicata Ostrea luridea Unidentifiable BLE 17 '47.2 BLE 1 BLE 379.3 RSOC 1.8 SB 1056 SB BLE 1.4 3.9 28.7 |50-60 cm iso-eocm Argopecten _ jBLE Cerithidea^caNfornica jBLE Ctiione iBLE 28.2 0.5 274.3 Page 1 CA-SDI-8303 Shell 5/31/2005 Accession Unit Level Species Habitat Weight CA-SDI-8303 11 {50-60 cm iChiton RSOC 0.8 CA-SDi^303 hi 50^6 cm SDonax gouldii SB"'•(' 557.1 CA-SDI-8303 'hi"' 50-^0 cm jOiivelfa biplicata ISB^7 ~^"o74 CA-SDT-8363 "hi 50-60 cm jOstrea luridea 'IBLE""'2"'\ CA-SDI-8303 hi 50-60 cm IUnidentifiable 15.3 CA-SDI^SOS hi {60-70 cm Argopecten IBLE"\ riiii 29 CA-SDI-8303 ]ii 160-70 cm jCerithidea califomica IBLEf"""' 2 CA-SDI-8303 'ji'i"" 60-70 cm jChione JBLE 231.5 CA-SDI-8303" hi 60-70 cm IChiton IRSOC 2-9{ CA-SDI-8303 jii ]66-76 cm jDonax gouldii ISB 1 801.3 CA-SDI-8303 ill , |60-70 cm jOlivella biplicata SB ""oTT CA-SDI-8303 hi 60-70 cm iOstrea luridea IBLE i 4.9 CA-SDI-^363' "h'l 60-70 cm iPolinices IBLE i 3 CA-SDI-8303 hi 60-70 cm iUnidentifiable 13.7 CA-SDI-8303 h1 70-80 cm [Argopecten IjBLE \ 5.5 CA-SDI-8303 111 70-80 cm jChione iBLE 25.5 CA-SDI-8303 "hi ' 70-80 cm Chiton iRSOC J 0.3 CA-SDI-8303 hi 70-80 cm Donax gouldii {SB i 143.9 CA-SDI-8303 h 1 70-80 cm Melatoma iRSOC 0.1 CA-SDI-8303 hi 70-80 cm Modiolus ILE " '2 ""• - -Q 2 CA-SDI-8303 hi 70-80 cm Ostrea luridea iBL£ r 0.9 CA-SDI-8303 jn" 70-80 cm Pseudochama exogyra iRSOC i 3 CA-SDI-8303 hi ^70^0 cm Unidentifiable ! 'i 77~" 2 CA-SDI-8303 i5 0-10 cm Unidentifiable 1 : 59T6 CA-SDI-8303 15 10-20 cm Unidentifiable I • i 49.3 CA-SDI-8303 15 20-30 cm Unidentifiable 1 .' ' i" 92Ti CA-SDI-8303 (5 130-40 cm Unidentifiable 47.8 CA-SDI-8303 15 40-50 cm Unidentifiable ' J 77.4 CA-SDI-8303 ' !5"""' i-. . .. 50-60 cm Unidentifiable 52.8 CA-SDI-8303 i5 60-70 cm Unidentifiable j ^_ \ 2.1 CA-SDI-8303 15 {70-80 cm Unidentifiabie 0.3 CA-SDI-8303 i5 80-90 cm Unidentifiable i j 0.5 CA-SDr-8303 6 0-10 cm Argopecten jBLE i 14.9 CA-SDI-8303 6 0-10 cm Cerithidea californica (BLE I 0.1 CA-SDI-8303 6 0-10 cm Chione IBLE i 95.3 CA-SDI-8303 6 0-10 cm Chiton iRSOC 1 0.8 CA-SDI-8303 6 0-10 cm Donax gouldii iSB i 323.3 CA-SDI-8303 6 0-10 cm jOlivella biplicata ISB 1 1 CA-SDI-8303 6 0-10 cm Unidentifiable s ^ i 11.6 CA-SDI-83b3 6 10-20 cm Argopecten BLE i 8.6 CA-SDI-8303 6 10-20 cm Cerithidea californica BLE~- r "" 0.3 icA-SDI-8363 ^ 6 10-20 cm ^ Chione BLE j 134.3 CA-SDi-8303 6 10-20 cm Chiton RSOC j 1.2 CA-SDI-8303 ^ J 10-20 cm Donax gouldii SB 1 465.8 CA-SDI-83d3 6 jl 0-20 cm Olivella biplicata SB 0.8 CA-SDI-8303 6 h 0-20 cm lOstrea luridea iLE ! 0.5 Page 2 CA-SDI-8303 Shell 5/31/2005 Accession Unit Level Species Habitat Weight CA-SDI-8303 h 0-20 cm iUnidentifiable 15.5 CA-SDI-8303 p""""' {26-36 cm {Argopecten iBLE 7.2 CA-SDi-8363 S6-36 cm jChione ]BLE"""'"1 114.8 CA-SDI-8303 w 12^-30 cm jChiton RSOC"i 1.8 CA-Sbl-8363 J26-36 cm ponax gouldii SB 442.9 CA-soi^sds" 16-30 cm {Olivella biplicata '!SB"""'""1 0.5 CA-SDi-8363 ' 20-30 cm Ostrea luridea ]BI!E""'1 0.7 CA-SDI-8303 gojsO cm ' " Unidentifiable 1 I 12^4 CA-SDT-^363~ W" {36-46 cm Argopecten BLE "~'"'1 " 5 CA-SDI-83d3 ie Ji {36-40 cm Chione iBLE ' { 54.1 CA-SDI-8303 16 130-40 cm Chiton iRSOC 1 0.8 CA-SDI-8303 16 {30^0 cm Donax gouldii '|SB "] 313.5 CA-SDI-8303 16 130-40 cm Olivella biplicata !SB i 0.1 CA-SDI-8303 16 !30-40 cm Ostrea luridea BLE i 0.9 CA-SDI-8303 16 130-40 cm Unidentifiable 1 6.4 CA-SDI-8303 16 140-50 cm Argopecten jBLE 2 CA-SDI-8303 16 |40-50 cm Chione BLE j I4T2 CA-SDI-8303 16 40-50 cm Chiton RSOC i 0.1 CA-SDI-8303 {6 40-50 cm Donax gouldii SB i 117.5 CA-SDI-8303 16 40-50 cm Unidentifiable ! 0.7 CA-SDI-8303 6 50-60 cm Argopecten BLE 0.6 CA-SDI-8303 'e" ' Isd^Ocm Chione jBLE j 16.4 CA-SDI-8303 6 {50-60 cm Chiton IRSOC [ 0.8 CA-SDI-8303 6 150-60 cm Donax gouldii ;SB 86.7 GA-SDI-8303 6 150-60 cm iUnidentifiable 3.4 CA-SDI-8303 7 jO-IOcm 'Argopecten BLE""•' •[ " 26.1 CA-SDI-8303 7 p-10 cm iCerithidea californica BLE 0.7 CA-SDI-8303 7 0-10 cm [Chione BLE 220.1 CA-SDI-8303 i7 6-16 cm jDonax gouldii SB 2 727.9 CA-SDI-8303 17 6-10 cm iModioius BLE r 0.5 CA-SDI-8303 7 0-10 cm JOstrea luridea B"LE I 3.8 CA-SDI-8303 7" 0-10 cm 1 Unidentifiable i 29.2 CA-SDI-8303 7 10-20 cm {Argopecten BLE i 19.4 CA-SDI-8303 7 10-20 cm jCerithidea californica BLE 0.5 CA-SDI-8303 7 16-20 cm jChione ^ BLE - - T 188.9 CA-SDI-8303 7 ~ —~ - — 10-26 cm jDonax gouldii SB 1 572.8 CA-SDI-8303 7 10-20 cm iOlivella biplicata SB 1 CA-SDI-8303 7 ^ 10-20 cm ( Dstrea luridea BLE 1 3 CA-SDI-8303 7 10-20 cm ^olinices BLE 1 1.1 CA-SDi^363 7 10-20 cm I Jnidentifiable i 14.4 CA-SDI-8303 7 20-30 cm {/\rgopecten BLE i 34.3 CA-SDI-8303 7 '' 20-36 cm jCerithidea califomica BLE 2.2 CA-SDI-8303 7 26^0 cm (Chione BLE i 451.8 CA-SDI-8363 ^ 7 20-36 cm jDonax gouldii ^ SB i 1263.2 CA-SDI-8303 7' 20-30 cm IOlivella biplicata iSB 0.6 CA-SDI-8303 ! 7 i20-30cm iOstrea luridea iBLE F 9.5 Page 3 CA-SDI-8303 Shell 5/31/2005 Accession Unit Level Species Habitat Weight CA-SDI-8303 !7 ]20-30 cm iPolinices BLE 18.4 CA-SDI-8303 rf 126-36 cm jtJnidentifiable { jJIZZ STM CA-SDI-8303 ]7 30-40 cm Argopecten li^E"""" '"I"'28.5 CA-SDI-8303 '17""' 130-40 cm {(ierithiclea californica IBLE {"'19 CA-SDI-8303 '{7'' [36-46 cm IChione {BLE" {SB 'T 1 1 385^ CA-SDl-8363 '2f'" [36^ cm ponax gouldii {BLE" {SB Tf[ gms CA-SDI-8303 ]7" {36^6 cm •Ostrea luridea {BLE ""T"'"4.8 CA-SDI-8303 !7'""' isO^Ocm {Unidentifiabie \ \ i 8.9 CA-SDl'^SOS ' 17 {40-50 cm {Argopecten _ "'"r 42^2 CA-SDI-8303 17 146-56 cm {Cerithidea califomica iBLE ! 1.8 CA-SDI-8303 i7 140-50 cm {Chione jBLE ! 470.8 CA-SDI-8303 {7 140-50 cm jDonax gouldii JSB i 990.2 CA-SDI-8303 17 {40-50 cm iiviacoma BLE i 5.2 CA-SDI-8303 17 {40-50 cm {Ostrea luridea BLE i 6.1 CA-SDI-8303 17 140-50 cm i —-— J . .. iPolinices iBLE 16.2 CA-SDI-8303 {7 i40-50 cm {Unidentifiable 25.9 CA-SDI-8303 (7 {50-60 cm Argopecten BLE 1 81.3 CA-SDI-8303 17 {50-60 cm {Cerithidea califomica BLE 1 2.2 CA-SDT-8363 |7 {50-60 cm IChione BLE 1 537.3 CA-SDI-8303 i7 i50-60 cm {Donax gouldii SB 897.9 CA-SDI-8303 I7 i50-60cm IOlivella biplicata SB i 0.7 CA-SDI-8303 j7 50-60 cm jOstrea iuridea BLE ! 21.3 CA-SDI-8303 7 50-60 cm iUnidentifiable 31.7 CA-SDI-8303 7 60-70 cm {Argopecten BLE 1 95.2 CA-SDI-8303 60-70 cm iCerithidea californica BLE ' . 0.7 CA-SDI-8303 7 60-70 cm jChione BLE ! 331.2 CA-SDI-8303 7 60-70 cm {Donax gouldii SB 626.7 CA-SDI-8303 7 {60-70 cm IOlivella biplicata SB I 1.5 CA-SDi-8303 7 l66-76cm IOstrea luridea BLE i 10.5 CA-SDI-8303 7 60-70 cm Unidentifiable ! 1 j ! 22.3 CA-SDI-8303 7 70-80 cm Argopecten ! 1 j BLE 1 32.5 CA-SDI-8303 7 70-80 cm Cerithidea californica IBLE 1 0.5 CA-SDi-8303' 7 70-80 cm Chione IBLE i 200.7 CA-SDI-8303 7 70-80 cm Donax gouldii ISB j 447.7 CA-SDI-8303 17 70-80 cm Olivella biplicata jSB 1 0.1 CA-SDI-8303 7 70-80 cm Ostrea luridea IBLE i 3.3 CA-SDI-8303 7 70-80 cm Unidentifiable 1 1 9.6 CA-SDI-8303 7 80-90 cm Argopecten IBLE 1 21.6 CA-'SDI-8303 7 80-90 cm Cerithidea californica iBLE i 0.6 CA-SDI-8303 7 80-90 cm Chione iBLE i 109.7 CA-SDI-8303 7 80-90 cm Donax gouldii jSB i 203.2 CA-SDI-8303 7 80-90 cm Ostrea luridea IBLE i 3.5 CA-SDI-8303 7 80-90 cm iUnidentifiable { 15.5 CA-SDI-8303 8 D-10 cm {Argopecten IBLE { 40 CA-SDI-8303 8 0-10 cm {Cerithidea californica 'pLE i 0.2 CA-SDI^303 8 10-10 cm iChione IBLE 1 463.6 Page 4 CA-SDI-8303 Shell 5/31/2005 Accession Unit Level Species Habitat Weight CA-SDI-8303 is P-10 cm {Chiton iRSOC 1.8 CA-SDI-8303 18 {6-16 cm {Donax goulcJii SB 227'^1490 CA-SDT-8303 8 [6-16 cm {Ostrea luridea BLE'7'7"' "'"""2.1' CA-SDi-8363 8"" 16-10 cm iUnidentifiable ' ~ "46~4 CA-SDr-8363 '8 {16-20 cm iArgopecten BLE 17 CA-SDI-8303 8" " jl 6-^0 cm {Ceritliidea califomica BLE """"T'.'3 CA-SDI-8303 8'"""' jl6-26cm iChione BLE 227.3 CA-SDI-8303 8 {i6-20cm jChiton RSOC 0.9 CA-SDI-8303 8""""' {10-26 cm {Donax gouldii SB 694.7 CA-SDI-8303 h0-20cm jOstrea iuridea BLE 2.8 CA-SDI-8303 8 h 0-26 cm iUnidentifiable 23.6 CA-SDI-8303 8 120-30 cm jArgopec;ten BLE 16.2 CA-SDI-8303 8 120-30 cm ICerithidea californica BLE 0.6 CA-SDI-8303 , . 8 {20-30 cm {Chione BLE 227.1 CA-SDI-8303 8 120-30 cm iChiton RSOC 0.5 CA-SDI-8303 8 120-30 cm {Donax gouldii^ SB : 622 CA-SDI-8303 8 " 120-30 cm iOstrea luridea BLE 1 0.5 CA-SDI-8303 8 {20-30 cm {Unidentifiable [ 31.7 CA-SDI^303'' 8 |30-40 cm {Argopecten BLE 1 9.9 CA-SDI-8303 8 130-40 cm iCerithidea californica jBLE i 0.3 CA-SDI-8303 (8 CA-Spi-8303 C>^SDi-8363 CA-SDI-8303 f8 i30-40 cm 130-40 cm i30-40 cm CA-SDi-8303 CA-SDi-8303 i30-40 cm CA-Spi-8303 CA^SDm03 CA-Spi^363 CA-SDI-8303 IChione JChiton {[Donax gouldii jOstrea luridea IBLE IRSOC iSB 240.3 557.6 IBLE 27.3 30-40 cm 40-50 cm {UnidentifialDle {Argopecten 31.7 {40-50 cm 140-50 cm 40-50 cm JCerithidea califomica iChione jBLE IBIJE' 12.3 0.7 IBLE CA-Spi-8303 CA-SDI-8363' CA-SDI-8303 CA-SDI-8303 CA-SDI-8303 CA-SDi-8303 CA-SDI-8303 CA-SDI-8303 CA-SDI-8303 CA-SDI-8303 CA-SDI-8303 CA-SDI-8303 40-50 cm 4{0-50cm^ 40-50 cm JChiton IDonaxgoijIdii iOstrea luridea {Unidentifiable RSOC 157.7 " 6.1 [SB 290.8 2^6 16.2 50-60 cm Argopecten 50-60 cm 50-60 cm 50-60 cm 50-60 cm 0-10 cm 0-10 cm BLE 10.1 Cerithidea californica IBLE 0.7 Chione IBLE 69.4 Donax gouldii Unidentifiable iSB 1144 Argopecten iBLE Chione iBLE 0-10 cm iChiton iRSOC CA-SDI-8303 CA-SDI-8303 CA-SDI-8303 9 9 j9 'Tg'' "i" i0-10cm SDonax gouldii SB 7.2 15.7 246^ 1.7 822.2 |0-10cm lo^O cm 0-10 cm 6-10 cm 16-26 cm {Olivella biplicata jOstreajuridea^ {Polinjc^s IUnidentifiable {Argopecten ISB 1.8 IBLE 1.4 JBLJE 2.8 24.6 BLE 24 Page 5 CA-SDI-8303 Shell 5/31/2005 Accession Unit LiBvel Species Habitat Weight CA-SDI-6303 19 h 0-20 cm iCerithidea califomica IBLE i 0.2 CA-SDI-8303 10-26 cm (Chione IBLE 288.7 CA-SDI-8303 !9 10-20 cm IChiton RSOC 1.9 CA-SDI-8303 {9"'" 10-20 cm jDonax gouldii iSB 955.7 CA-SDI-8303 ig" 10-20 cm Olivella biplicata ]SB 0.5 CA-SDI-8303 9 "" ' 10-20 cm Ostrea luridea BLE"T 5.8 CA-SDi-8303 10-20 cm Unidentifiable { 31.4 CA-SDI-8303 19 20-30 cm Argopecten BLE 17 CA-SDI-8303 9 20-30 cm Chione BLE 216.7 CA-SDr-8'3d3 " 9 20-30 cm Chiton RSOC 1 CA-SDI-8303 i9 20-30 cm Donax gouldii SB i 892.1 CA-SDI-8303 19 20-30 cm Olivella biplicata SB { 1.5 CA-SDI-8303 9 20-30 cm Ostrea luridea BLE i 1.8 CA-SDI-8303 9 {20-30 cm Unidentifiable 1 24.7 CA-SDI-8303 9 130-40 cm Argopecten BLE i 15.5 CA-SDI-8303 9 30-40 cm Chione .. , , BLE 156.1 CA-SDI-8303 u9 }30-40cm Chiton RSOC i 1 CA-SDI-8303 9 130-40 cm Donax gouldii jSB J 565.8 CA-SDI-8303 9 |30-40cm Olivella biplicata SB 0.1 CA-SDl'-8303 " 9 30-40 cm Ostrea luridea BLE 3.1 CA-SDI-8303 9 30-40 cm Unidentifiable ! 29.8 CA-SDI-8303 9 40-50 cm (Argopecten itE { 4.1 CA-SDt-8303 •g 1 40-50 cm Chione BLE 65.2 CA-SDi-8303 9 40-50 cm Chiton RSOC i 0.1 CA-SDI-8303 9 40-50 cm Donax gouldii SB i 212.9 CA-SDI-8303 9 40-50 cm iOstrea luridea BLE 1 0.1 CA-SDi-8303 9 40-50 cm Unidentifiable 1 7.2 CA-SDi^303 ^ 9 150-60 cm {Argopecten BLE 4.7 CA-SDI-8303 i 9 [56^ cm ichione BLE 35.2 CA-SDI-8303 9 [50-66 cm Ichiton RSOC { 0.4 CA-SDI^363 '1 .„ j 9 j50'^6 cm Ibonax gouldii SB t 135:8 CA-SDI-8303 i 9 {50-60 cm 1 Ostrea luridea BLE 0.3 CA-SDI-8303 (9 150-60 cm {Unidentifiable j 3.3 Pages I CA-SDI-8694 Shell 5/31/2005 Accessibh Unit Level Spiscies Habitat Weight CA-SDI-8694 ho p-IOcm iArgopecten iBLE 60.8 CA-SDI-8694 I16 {6-16 cm {Astraea undosa RSOC i'l,"'ae CA-'SDi^8694' 'iTo'" iO-IOcm {Balanus RSOC ]"""""'a2 CA-Sbr-8694 h6'"""" {0-10 cm jCPiione jBLE ['""435;3 CA-SDI-8694 ho {0-10 cm {Crepipatella lingulata RSOC 0.2 CA-SDi-869"4 ITo'" iO-IOcm Mytilus IRSOC" 0.4 CA-SDi'-8694' p-10 cm Ostrea lurida BLE ] '16:8 CA-SDI^94 jT6 p-iOcm Polinices jBLE 26.6 CA-SDI-8694 Ho""""' {6-16 cm Tivela stulturom ISB i 2.2 CA-SDi-8'6'94 'ho "' 10-10 cm Unidentifiable 34.3 CA-SDI-8694 10 h 0-20 cm Argopecten i 48.4 CA-SDI-8694 io ji 0-20 cm Astraea undosa IRSOC 0.4 CA-SDI-8694 ho h 0-20 cm Balanus IRSOC i 0.2 CA-SDI-8694 ho 110-20 cm 1., _ ,. Chione jjBLE 1 334.9 CA-SDI-8694 ho h 0-20 cm Donax gouldii jSB 1 0.1 CA-SDI-8694 ho h 0-20 cm Mytilus jRSOC 0.4 CA-SDi-8694 ho h 0-20 cm Ostrea lurida jBLE 1 3.3 CA-SDI-8694 ho h 0-20 cm Polinices BLE j 5.9 CA-SDi-8694 ho !l 6-26 cm Tivela stulturom SB I 2.2 CA-SDI-8694 ho |10-20 cm Unidentifiable i 17.8 CA-SDI-8694 ho j20-30cm Argopecten BLE ! 127.9 CA-SDI-8694 ho {20-30 cm Astraea undosa RSOC i 1.4 CA-SDI-8694 ho I2O-36 cm Chione BLE i 404.1 CA-SDI-8694 ho (20-30 cm Donax gouldii SB r"6^3 CA-SDi-8694 ho [20-30 cm Mytilus RSOC 1.3 CA-SDi-8694 10 120-30 cm Olivella Biplicata SB 'h.4 CA-SDI-8694 10 126-30 cm Ostrea lurida BLE 8.5 CA-SDi-8694 10 . — 20-30 cm Polinices BLE 4 CA-SDI-8694 10 20-30 cm ^ Tagelus BLE 0.2 CA-SDi-8694 10 20-30 cm Unidentifiable 36.2 CA-SDi-8694 10 30-40 cm /Vgopecten BLE 120.5 CA-SDI-8694 10 L., 130-40 cm Chione BLE 186.7 CA-SDI-8694 10 30-40 cm Ostrea lurida SLE 15.8 CA-SDI-8694 10 30-40 cm Unidentifiable 12.9 CA-SDi-8694 11 0-10 cm (, Argopecten BLE 126.3 CA-SDi-8694 11 0-10 cm Chione BLE 531 CA-SDI-8694 11 0-10 cm {Chiton RSOC 0.6 CA-SDI-8694 11 0-10 cm j Donax gouldii SB 1.3 CA-SDI-8694 11 0-10 cm jMytilus RSOC 1 0.9 CA-SDI-8694 11 0-10 cm jOstrea lurida BLE i 13.4 CA-SDI-8694 11 0-10 cm jPoiinices BLE i 1 CA-SDi-8694 11 ^ 0-10 cm Juinidentifiable 65.1 CA-SDI-8694 11 10-20 cm jArgopecten BLE 1 "'79.9 CA-SDI-8694 11 10-20 cm {Chione BLE i 275.4 CA-Sbl-86'94 if^ 10-20 cm ponax gouldii SB i 0.5 CA-SDI-8694"i i"T"'" 16-20 cm iMytilus RSOC 1 1.7 Page 1 CA-SDI-8694 Shell 5/31/2005 Accession Unit Level Species Habitat Weight CA-SDI-8694 ill 110-20 cm {Ostrea lurida iBLE 10.3 CA-|Di-8694 "jii" {10-20 cm {Tagelus 'jBLE 22227 6.i CA-SbT-8694 ' "iiT""".' 10-20 cm . .. _ .... lUnicientifiable T ' isQh CA-SDI-8694 Jii {20-30 cm (Argopecten {BLE 149.9 CA-SDI-8e94 hi"""" 20-30 cm iChione jBLE j 294.5 CA-SDI-8694 hi 120-30 cm (Donax gouldii {SB"' j, 7ae CA-SDi-8694 ]i"i '""""•'' 26-36 cm Mytiius IRSOC" CA-SDI-8694 Ili"''' 26-36 cm Ostrea lurida IBLE j 7.9 CA-SDI-8694 |11 20-30 cm iPolinices BLE" CA-SDI-8e94 11 20-30 cm [Tagelus 'BLE 0.5 CA-SDI-8e94 11 120-30 cm (Unidentifiable j 12.1 CA-SDI-8694 11 130-40 cm Argopecten BLE j 265 CA-SDI-8694 11 130-40 cm 1 . „ Balanus iRSOC i 1.2 CA-SDI-8e94 11 [30-40 cm Chione ¥LE 1 364.7 CA-SDI-8e94 jii 66-40 cm Mytilus IRSOC 3.3 CA-SDI-8694 11 i30-40cm Ostrea lurida BLE 31.7 CA-SDI-8694 11 j30-40 cm Tagelus BLE i 2.5 CA-SDI-8694 11 {30-40 cm Unidentifiable i 32.1 CA-SDI-8694 12 i0-10cm Argopecten BLE ! 228.9 CA-SDI-8e94 ^12 !0-10cm Astraea undosa IRSOC i a7 CA-SDI-8694 12 iO-IOcm Balanus jRSOC 1 a3 CA-SDI-8694 |12 p-10 cm Chione BLE iff'1076.5 CA-SDI-8694 h2 jO-l6cm Chiton RSOC RSOC ^ L 1 ' 1-7 CA-SDI-8694 Il2~"" 0-10 cm Crepipatella lingulata RSOC RSOC ^ !"""'0.3 CA-SDI-8694 I12 0-10 cm Donax gouldii SB i 6.3 CA-SDI-8e94 Il2 0-10 cm Mytilus RSOC i 3.9 CA-SDI-8694 12 0-10 cm Olivella Biplicata SB I 1.8 CA-SDi-8e94 12 0-10 cm Ostrea lurida BLE 49.2 CA-SDI-8694 12 0-10 cm Polinices BLE 16.6 CA-SDI-8694 12 . 0-10 cm Serpulorbis squamiger RSOC a 3 CA-SDi-8694 ' 12 0-10 cm Tagelus BLE 1.9 CA-SDI-8694 12 0-10 cm Tivela stulturom ISB 1.7 CA-SDI-8694 12 0-10 cm Unidentifiable 65.7 CA-SDi-8694 12 10-20 cm Argopecten BLE 385.7 CA-SDI-8694 12 10-20 cm Balanus iRSOC 1.1 CA-SDI-8694 12 10-20 cm Chione jBLE 474.6 CA-SDi-8694 12 10-20 cm Donax gouldii {SB 1.1 CA-SDI-8e94 12 10-20 cm Mytilus JRSOC 23.5 CA-SDi-8694 12 10-20 cm _| Ostrea lurida jBLE 38.8 CA-SDI-8694 12 10-20 cm Polinices IBLE 48 CA-SDI-8694 12 ^ 10-20 cm Fagelus jBLE | 47 CA-SDI-8e94 12 10-20 cm IUnidentifiable | 10 CA-SDi^694 12 20-30 cm IArgopecten J 3LE ! 277.2 CA-SDI-8e94 12 ; 20-30 cm iBaianus i RSOC 3.6 CA-SDI-8694 12 I: 20-30 cm iChione 1 BLE I 631.1 CA-SD|l8694 12 120-30 cm iChiton IRSOC ~ f ae Page 2 CA-SDI-8694 Shell 5/31/2005 Accession Unit Level Species Habitat Weight CA-Spi-8694 CA-SDi-8694 CA-SDT-86'94 (5A-SbT-8694 CA-SDI-8694 CA-Sbi^94 CA-Sm-8694 CA-SDI-8694 CA-Spi^94 CA-SDii^'694 CA-SDI-8e94 ;12 il2 {:^2 I12" w 13 13" 13 {20-30 cm I2O-36 cm CA-SDI-8694 CA-SJpi-8694 CA-SDr-8694 CA-Sp[-8694 CA-SDT-«694 CA-SDI-8694 {20-30 cm (26-30 cm {20-30 cm |20-36cm JIO-SOOT (6-16cm |6-l6 cm _ jCMOcm 16-10 cm {Crepipatella lingulata ponax gouldii jMytilus iOstirea luricia^ {Polinices {Tagelus ^ Unidentifiaijie Argopecten Astraea undosa Chione iRSOC "ISB""" RSOC BLE BLE BLE IBLE " iRSOC 13 13j 13 IO-IOcm jCirepidula^ _ Ostrea lurida {BLE RSOC iO-10cm 10-10 cm Polinices Unidentifiable 13 h 0-20 cm jArgopecjten BLE BLE 13 h 0-20 cm {Astraea undosa BLE _ iRSioC 13 CA-SDI-8694 h3 {10-20 cm h 0-20 cm iChione {Crepidula BLE iRSOC CA-SDI-8e94 {13 h 0-20 cm iOstrea lurida BLE CA-SDI-8694 h3 h 0-20 cm IPolinices CA-SDi-8694 h3 110-20 cm Unidentifiable CA-SDi^694 Jl3 ]3d46cm Argopecten CA-SDi^694 I13' 136-46 cm Astraea undosa CA-SDI-8694 il3 30-40 cm Chione CA-SDI-8694 [is 30-40 cm Mytilus CA-SDI-8694 Jl3 30-40 cm Ostrea lurida CA-Sbl^94 ii3 ^ 30-40 cm Polinices IBLE jBLE iRSOC IBLE " iRSOC TBLE ' BLE CA-SDI-8694 CA-SDI-6e94 CA-Spi-8694 CA-SDI^6~94 P '113"' "{13' "Il3""' 130-40 cm {Unidentifiable '40-50 cm {Argopecten iBLE J40-50cm 140-50 cm CA-SDI-8694 {13 CA-SDi-8694 CA-SDi-8694 CA-SDi-8694 CA-SDI-8694 14 {40-50 cm {Ch[one Ostrea lurida_ Unidentifiable 10-10 cm 14 10-10 cm 14 jO-IOcm CA-SDI-8694 h4 il4' !0-10cm p-IOcm CA-SDI-8694 h4 lO-IOcm CA-SDI-8694 14 CA-SDi-8694 iO-IOcm h4 10-20 cm CA-SDI-8694 i14 14 CA-SDI-8e94 CA-SDI-8694 CA-SDi-8694 14 CA-SDI-8694 CA-SDI-8694 14 {14 114 .IBLE,. iBLE /Argopecten iBLE Chione BLE iMytilus iRSOC Ostrea lurida BLE Polinices BLE Tivela stulturom ISB Unidentifiable Argopecten 10-20 cm Astraea undosa 10-20 cm 10-20 cm 10-20 cm 10-20 cm IBLE IRSOC Chione IBLE Mytilus iRSOC Ostrea lurida Polinices 10-20 cm iUnidentifiable BLE BLE 7. "37 "25. ' "4. 19 4i'. 368, 0.8 "5.7' 8.2 143.5 46.6 1.1 384.9 ai 3-1 1.4 13a9 342.7 _ a2 358.9 26 7772 " 3.9 40. 26.2 32.8 3.5 3.9 23.3 273.2 1.1 a3 3.2 108 23.7 " h.8 297 a 7 3.6 3.9 1248 Page 3 I I I CA-SDi-8694 Shell 5/31/2005 Accession Unit Level Species Habitat Weight CA-SDI-8694 h4 120-30 cm Argopecten (BLE 126.8 CA-SDi-8694 ]i4'" t20-36cmi i/\straea undosa IRSOC 1 CA-SDI-8694 ]i4'" {20-30 cm {Balanus IRSOC 6.2 CA-SDi-^6'94 "ji4'"""' 20-30 cm IChione IBLE 'i44':3 CA-SDI-8694 h4 20-30 cm {Crepidula jRSOC a3 CA-SDI-8e94 'I14""'" {20-30 cm {Ostrea lurida IBLE" 15 CA-Sbi-8694 {i4 l26-30cm [Polinices IBLE "' '17"'~2.4 CA-SDI^'694 ' 14 {26-36 cm {Unidentifiable ] "94.4 CA-SDI-8694 "14"' jso^ cm JArgopecten T" 91^4 CA-SDT-86'94i il4 130-40 cm iChione IBLE 95 CA-SDI-8e94 h4 {30-40 cm Ostrea lurida BLE i 4.5 CA-SDi-8e94 h4 130-40 cm Unidentifiable i ";"'"" '"'"24 CA-SDI-8694 14 140-50 cm Argopecten jBLE { 3.1 CA-SDI-8694 14 {40-50 cm Chione BLE 5.3 CA-SDI-8e94 14 140-50 cm Ostrea lurida iBLE 1 ai CA-SDI-8694 14 140-50 cm Unidentifiable L 9-3 CA-SDI-8e94 15 p-10 cm Argopecten BLE j~"1.4 CA-SDI-8694 15 !0-10 cm Chione BLE 37.9 CA-SDI-8e94 15 |0-10cm Ostrea lurida BLE i ae CA-SDI-8694 15 "" 10-10 cm Unidentifiable f ' ' • - " I i 47.1 CA-SDI-8e94 15 h 0-20 cm Chione BLE 13.5 CA-SDI-8694 15 jlO-20 cm Unidentifiable i 147 CA-SDI-8e94 15 20-30cm Chione [BLE" 21 2.7 CA-SDI-8694 15 {26-36 cm Unidentifiable 1 [' 424 CA-SDI-8694 15 ' 130-40 cm Chione BLE 5.2 CA-SDI-8e94 15 i30-40 cm Unidentifiable ! '"""i^ CA-SDI-8694 16 iO-IOcm Argopecten BLE 2 CA-SDI-8694 16 0-io cm Chione BLE i 13.5 CA-SDi-8694 i'e 0-10 cm Donax gouldii SB 1 af CA-SDi-8e94 he 0-10 cm Ostrea lurida BLE i a7 CA-SDi-8694 ie" 6-iOcm Unidentifiable 11 CA-SDI-8694 16 10-20 cm Argopecten "BIE" 1 CA-SDi-8e94 16 10-20 cm Chione BLE 1.7 CA-SDI-8694 16 10-20 cm Ostrea lurida BLE a2 CA-SDI-8e94 16 10-20 cm Unidentifiable 3 CA-SDI-8694 16 ^ 30-40 cm Unidentifiable " 6.2 CA-SDI-8694 17 6-16 cm Argopecten BLE a9 CA-SDI-8694 17 0-10 cm ' Chione iBLE 44 CA-SDi-8694 17 0-10 cm J Unidentifiable 2.1 CA-SDI-8694 17 10-20 cm Unidentifiable I 1.2 CA-SDI-8694 17 20-30 cm IArgopecten jBLE ai CA-SDI-8694 17 20-30 cm jChione BLE a3 CA-SDI-8694 17 20-30 cm IUnidentifiable j ae CA-SDI-8694 il8 WO cm iChione BiJE i 2.6 CA-Spi-8694 h8 ' p-10 cm iUnidentifiable 1.8 CA-SDI-8e94 18 h 0-20 cm IUnidentifiable i "1.5 Page 4 CA-SDi-8694 Shell 5/31/2005 Accession Unit Level Species Habitat Weight CA-SDI-8e94 h8 20-30 cm iChione BLE i 2.3 CA-SDI-8694 hs j26-36cm pniclentifiabie BLE I^16 CA-SDI-8e94 118'' p6^6 cm jUnidentifialble !""'6"i4 CA-SDi-8e94 {19 ""' i6-l6cm iArgopecten {BLE "'12 CA-SDI-8694 h9 0-10 cm {Chione jBLEj '"" i 10-8 CA-SDI-8e94 6-16 cm jijnidentifiabie j i~"'5.5 CA-S'DI^694 jig"'" Ji 0-20 cm IArgopecten WE i ai CA-SDI-8694 jl9'" li 6-20 cm iUnidentifiable 2 '6.9 CA-SDI-8694 {19 j2a<30cm Unidentifiable J""^ ai CA-SDI-8694 |6-io cm Argopecten Ipl"" ai CA-SDI-8694 21 !0-10cm Chione jlBLE " a5 CA-SDI-8694 21 10-10 cm {Unidentifiable 1 1 CA-SDI-8694 21 10-20 cm {Unidentifiable { 1.6 CA-SDI-8e94 22 " 0-10 cm iChione IBLE 16.6 CA-SDi-8694 22 0-10 cm {Unidentifiable 28.1 CA-SDi-8694 22 16-20 cm Argopecten {BLE a3 CA-SDI-8e94 22 10-20 cm Chione jBLE 9 CA-SDi-8e94 22 {10-20 cm Polinic^es {BLE 3.6 CA-SDI-8694 ^2^ iio-20 cm Unidentifiable 21.8 CA-SDI-8694 22 20-30 cm iChione BLE a9 CA-SDi-8694 22 20-30 cm {Unidentifiable 43 CA-SDi-8694 23 0-10 cm Argopecten BLE 32.1 CA-SDi-8694 23 0-10 cm Chione BLE 249.4 CA-SDi-8694 23 {0-10 cm Donax gouldii SB 2.5 CA-SDi-8694 ^23 0-10 cm Ostrea lurida BLE ' 13 CA-SDI-8694 23 0-10 cm Tagelus BLE { a2 CA-SDI-8694 ^ 23 0-10 cm Unidentifiable 66.9 CA-SDi-8694 23 10-20 cm Argopecten BLE 47.6 CA-SDi-8e94 23 10-20 cm Chione 1 286.6 CA-Sbi-8694 ' 23 10-20 cm Donax gouldii SB I 8.7 CA-SDI-8694 |23 10-20 cm Ostrea lurida 18.5 CA-SDI-8694 "123 10-20 cm Unidentifiable • i 116'^3 CA-Sbl-8694 i23 20-30 cm Argopecten r~ • 1 BLE ia3 CA-SDI-8694 123 20-30 cm Chione BLE 1 13.9 CA-SDI-8694 123 20-30 cm Crepidula RSOC 1 ai CA-SDI-8694 |23 20-30 cm Donax gouldii SB 1 1.9 CA-SDi-8694 i23 . j ,— 20-30 cm Ostrea lurida BLE 1 CA-SDI-8694 |23 20-30 cm Unidentifiable 1 19.5 CA-SDI-8694 ]24 ' 0-10 cm Argopecten BLE j 33.1 CA-SDI-8694 {24 0-10 cm Chione BLE i 236.5 CA-SDI-8694 |24 0-10 cm t Donax gouldii SB j a2 CA-SDI-8694 |24 O-i 0 cm Mytilus RSOC 1 ae CA-SDI-8694 (24 0-10 cm Ostrea lurida i BLE i 3.3 CA-SDi^694 24 ""^ 0-10 cm iPolinices jBLE i 11.7 CA-Sbl-8694' {24 D-10 cm iUnidentifiable ] i i7a9 CA-SDI-8694 |24 10-20 cm iArgopecten jBLE ! 14.9 Page 5 CA-SDI-8e94 Shell 5/31/2005 Accession Unit Level Speciies Habitat Weight CA-SDI-8e94 {24 {10-20 cm Chione iBLE 85.3 CA-SDI-a694 W jl6-20cm Donax gouldii 'jSB"'"•" ]'b^ CA-SDI-8e94 124 {10-20 cm Mytilus {RSOC ]''"as CA-SDI-8694 l24 " !lO-26cm Ostrea lurida iBLE a2 CA-SDi-8e94 {24 {10-20 cm Unidentifiable j 106.9 CA-Spi-8694 CA-Sbi-8694" " I24'""' '|24 J26-36 cm 126-36 cm {Argopecten {Chione IBI^E BLE " 'i""""'"""6.2 i 58.2 CA-Spi-8694 24"" 20-30 cm iPolinices BLE ia2 CA-SDr-8694 ,24 20-36 cm {Unidentifiable 86.2 CA'-Sbi-86'94 24 30-40 cm Argopecten JChione IBLE i 2.3 CA-SDI-8694 24 30^ cm Argopecten JChione BLE 19.5 CA-SDI-8e94 24 30-40 cm {Ostrea lurida BLE a4 CA-SDI-8e94 24 130-46 cm {Unidentifiable \ Z7.8 CA-SDI-8e94 25 j6-iOcm iArgopecten ^LE i 17.1 CA-SDI-8e94 25 iO-10cm IChione BLE 117.7 CA-SDI-8694 |25 iO-10cm jDonax gouldii SB" ai CA-SDI-8694 25 p-10 cm {Ostrea lurida BLE 1 as CA-SDI-8694 125 0-10 cm iUnidentifiable F i 132.6 CA-SDI-8694 ^5 10-20 cm iArgopecten ^BLE i 12.1 CA-SDI-8e94 25 10-20 cm {Astraea undosa RSOC 1 as CA-SDI-8e94 25 10-20 cm icfiione BLE 135.3 CA-SDI-8694 j25 10-20 cm ponax gouldii SB 1 Q.i CA-SDi-8694 25 10-20 cm iPoiinices BLE i 2.1 CA-SDI-8e94 25 10-20 cm {Unidentifiable BLE i 143^8 CA-SDI-8e94 {25 20-30 cm {Argopecten BLE 2.8 CA-SDI-8e94 125 20-30 cm jChione BLE '" T " " ' 27;6 CA-SDI-8e94 25 20-30 cm iOstrea lurida BLE i a2 CA-SDI-8694 25 20-30 cm iPolinices BLE " 3.5 CA-Sbl-86'94 " 25 20-30 cm iUnidentifiable 5e25 CA-Sbi-8694 ^ 25 30-40 cm {Argopecten BLE CA-SDi-8e94 25 30-40 cm IChione BLE 31.3 CA-SDI-8e94 25 30-40 cm Unidentifiable " 29".3 CA-SDi-8694 25 40-50 cm Argopecten BLE " '"a4 CA-SDI-8694 25 J 40-50 cm Chione BLE 27.3 CA-SDi-8694 25 40-50 cm Unidentifiable 27.3 CA-SDI-8694 25 50-60 cm Unidentifiable a 7 CA-Sbl-8694 26 0-10 cm Argopecten ^ BLE 6.1 CA-SDI-8694 26 i 0-10 cm Chione BLE ! 55.3 CA-SDI-8e94 ; 26 ^ 0-10 cm Ostrea lurida pBLE ! a4 CA-SDI-8694 2 26 0-10 cm . . . , 1 Poiinices {BLE i 1.1 CA-SDI-8694 : 26 ^ 0-10 cm {Unidentifiable { ! 1 eae CA-SDI-8694 : _ . , (, 26 10-20 cm JArgopecten jBLE T 46 CA-SDI-8694 {26 10-20 cm JChione jBLE ^ '57 CA-Sbl-8694 l26 • ' i— 10-20 cm |l\/iytilus iRSOC " 6.3 CA-{Spi-8694 >6 10-20 cm i Ostrea lurida jBLE T a5 CA-SDI-8e94 {26 0-20 cm iPolinices IBLE ] ""5.4 Page 6 CA-SDI-8694 Shell 5/31/2005 Accession Unit Level CA-SDI-8694 CA-SDI-8694 (i;A-Sbi-8694 (5/\-Sbi-B694 CA-Spi-8694 CA-SDi^"694 CA-Sbi-8e94 CA-^SDI-6694 CA-SDI-8694 CA-S'bl-8694 {26 26 ""'{26 """{26 j26"j^ "'"26" "j'26 ' mf 'fee " "'126""" SpiBcies {10-20^ cm p6^36 cm fZO-^crn {26-30 cm jgO-SOcm {30-46 cm 30-40 cm 30-40 cm CA-SDI-8694 CA-SDI-8e94 26 26 27 w CA-SDI-8e94 127 CA-SDI-8694 40-50 cm 46-56 cm 40-50 cm 40-50 cm 0-10 cm CA-SDI-8694 0-10 cm CA-SDI-8694 CA-SDI-8694 |27 I27 CA-SD{[-8694 CA-Sbl-8e94 CA-SDI-8e94 {27 ^Unidentifiable j/Agicjpecten iChione iPolinices {Unidentifiabie iArgopecten {Chione iijni(ientifiat3le iArgopecten jCliione JOstrea lurida {Unidentifiabie Argopecten Habitat | Weight 0-10 cm 10-26 cm Chione Unidentifiabie 10-20 cm JArgopecten iChione i10-20 cm 120-30 cm CA-SDI-8694 CA-SDI-8694 {27 i28 20-30 cm {30-40 cm Unidentifiable JArgopecten {Unidentifiable [unidentifiable i0-10cm CA-SDI-8694 28 CA-SD1-8694 28 CA-SDI-8694 CA-SDI-8694 jO-IOcm 10-10 cm CA-SDI-8694 CA-Spi-8694 CA-Sbi-8694' 28 ]28j |28 "128" '"{28" h 0-20 cm h 0-20 cm h 0-20 cm Argopecten Chjon^ Unidenfifiabie Ai^qpecten Chione 20-30 cm 26-36 cm (^SDI^694 CA-SDI-8e94 28 28 CA-SDI-8e94 CA-SDI-8694 CA-SDI-8694 CA-SDI-8694 CA-SDI-8694 20-30 cm 30-40 cm 29 29 UnkJent|fiable iArgopecten IChione 0-10 cm 0-10 cm 0-10 cm iUniclentifiable Unidentifiabie Chione Unidentifiable Argopecten CA-SDI-8694 3 I3" JO-10 cm 16-10 cm 0-10 cm Astraea undosa Chione CA-SDI-8694 0-10 cm CA-SDi-8694 0-10 cm CA-SDI-8e94 13 CA-SDi-8694 CA-SDI-8694 CA-SDI-8694 Donax gouldii Ostrea lurida 0-10 cm 10-20 cm 10-20 cm CA-SDI-8694 "r h 0-20 cm Polinices Unidentifiable /Argopecten Astraea undosa Chione h 0-20 cm CA-Spi-8694 CA-Sbl^694" Donax gouldii i3 "is" h 0-20 cm ]i656cm" Ostrea lurida^ Unidentifiable IBLE BLE 'BLE BLE III jBLE BLE BLE BLE" 67.7 "6.3 '52.3 6I9 "i6'3 '"1.1 '57.3 48.5 6.8 " 24 i~3j'5' "2775 BLE BLE BLE 0.6 15.2 43 0.6 1.9 IBLE 9.2 OA 32 {{BLE 'IBLE" 0.3 "j).7 137 10 {BLE IBLE 0.4 "'e.'s {BLE^ "isiLE 3^5 0.' 6.6 BLE BLE RSOC BLE a3 1.9 186.1 12.3 296.2 SB a2 BLE 12.2 BLE 1.8 92.8 IBLE IRSOC BLE SB 1^ BLE r t46 hai 272 ""a7 "'9.6 "75."9" Page 7 CA-SDI-8694 Shell 5/31/2005 Accession Unit Level SpiBcies Habitat Weight CA-SDI-8694 CA-Sbl^94 CA-SDI-8694 CA-SDi^694 CA-Sbii^94 CA-SDI-8694 CA-S 01^94 CA-Sbi^694" CA-SDi-8~694" CA-Sbl-8694 !3 ¥ •"lis" "F 'fe' "js" i3 .-I— 13 13 {20-30 cm j26-36(^ 56-30 cm j26-30cm I26-36 cm 20-30 cm 20-30 cm 20-30 cm 30^0 cm ^36^ cm CA-SDI-8e94 |3 CA-SDI-8e94 13 30-40 cm 30-40 cm CA-SDI-8694 {3 130-40 cm Arpojpecten {Astraea undosa iBaianus {Chione ibonax gouldii {Ostrea lurida jPoHnic^s lUnidentifiabie (Argopecten {Chione {Crepidula jMytilus iBLE {RSOC IRSOC" ISB" " {BLE IBLE" IBLE IBLE IRSOC 402.8 j3i8i4 a2 489.5 as "'f7378 159^5 a2 IRSOC jOlivella Biplicata jSB 1.5 0".'5 CA-SDI-8694 3 "" ' ! — {30^6 cm iOstrea lurida SLE ia9 CA-SDI-8694 13 i30-40 cm {Tageius BLE a4 CA-SDI-8e94 3 130-40 cm {Tivela stulturom SB 6.8 CA-SDI-8e94 3 {30-40 cm iUnidentifiable BLE 11 7'""-67^8 CA-SDI-8694 30 10-10 cm •„..j ... ...^ _ JArgopecten BLE 5 CA-SDI-8e94 go _ ,. „ !0-10cm iO-IOcm {Chione IBLE 16.6 CA-"sbi-^6"94 30 !0-10cm iO-IOcm iOstrea lurida jBLE as CA-SDi-8694 {30 P-10 cm {Unidentifiable 24.5 CA-Spi-8694 CA-^SDi'-8694 CA-SDI-8694 Page 8 CA-SDI-8694 Shell 5/31/2005 Accession Unit Level Species Habitat Weight CA-SDI-8e94 32 h 0-20 cm iArgopecten IBLE 260.3 CA-SDI-8694 {32""' 10-20 cm iChione "iBLE 22"937.3 CA-SDi-8694 !32'"" 10-20 cm ji-laliotus •RSOC "i'""""3.8 CA-SDI-8e94 '{32" ii6-20cm IOstrea lurida iBilE'" " """ Jl 172.1 CA-Sbi^694 " {32"'"" {10-20 cm {Poiinices BLE J 1.6 CA-Spi-8694 " [32""""'"'" hO-26 cm iUnidentifiable i 762 CA-Sbi-8694 ]32 20-30 cm {Argopecten {BiLE ] 155 CA-SDI-8694 132 {26-36 cm jCerithidea {BLE "1"as CA-SDI-8694 32 {26-30 cm jChione BLE "j'"'" 751.2 CA-SDI-8694 32"'•" 120-30 cm iChiton IRSOC 1.5 CA-SDI-8e94 32 20-30 cm jCrepidula jRSOC 1"'02 CA-SDI-8e94 32 {20-30 cm ponax gouldii ISB i 5.9 CA-SDI-8694 32 120-30 cm jiviodioius BLE ! 3.1 CA-SDI-8694 32 20-30 cm IMytilus jRSOC i as CA-SDI-8694 132 20-30 cm Ostrea lurida BLE 112.9 CA-SDI-8694 i32 20-30 cm Polinices %"L"E -L. 7.6 CA-SDI-8694 {32 ^0-30 cm Pseudochama exogyra {RSOC 1"7.2 CA-SDi-8e94 '32 20-30 cm Unidentifiable i 19.8 CA-SDI-8e94 32 30-40 cm IArgopecten BLE i 451.4 CA-'sbl-8694' "" 32 i30-40 cm lAstraea undosa RSOC ! " ~1.6 CA-SDi-8694 32 {30-40 cm {Chione BLE 819.5 CA-SDi-8694 32 30-40 cm jChiton RSOC" 1 a7 CA-SDi-8694 32 " 36^ cm {Crepidula RSOC i ai CA-SDI-8e94 32 30-40 cm Donax gouldii iSB i 46 CA-SDI-8e94 "32" 30-40 cm Mytilus RSOC r" 1.3 CA-SDi-8694 32 30-40 cm Olivella Biplicata SB ! a9 CA-SDi-8694 32 30-40 cm Ostrea lurida BLE 643 CA-SDI-8e94 132 30-40 cm Polinices BLE i '~ 7.6 CA-SDI-8694 32 36^0"c;m"' Tegula eiseni RSOC a7 CA-SDI-8e94 {32 30-40 cm Unidentifiable | 9.1 CA-Sbl^94 §2 40-50 cm Argopecten BLE 846.3 CA-SDI-8694 32 i40-50 cm Astraea undosa RSOC 44 CA-SDI-8694 32 {40-50 cm Chione BLE 2029.4 CA-SDI-8694 32 i40-50 cm Crepidula jRSOC a4 CA-SDI-8e94 32 {40-50 cm Donax gouldii |SB ae CA-Sbl-8694 ^ 32 {40-50 cm Mytilus RSOC 7.5 CA-SDI-8694 32 f 40-50 cm Ostrea lurida jBLE 115.7 CA-SDI-8694 {32 j 40-50 cm Polinices IBLE 6.5 CA-SDI-8694 i32 40-50 cm Unidentifiable i 25.2 CA-SDI-86"94 {33 0-10 cm /Argopecten IBLE 158.2 CA-SDI-8694 |: 33 p-IOcm Astraea undosa | RSOC 5.2 CA-SDI-8694 133 p-IOcm Chione BLE 75a2 CA-SDI-8694 j: 33 iO-IOcm Chiton RSOC as CA-Sbl-8694 j: _ . , i3 p-10 cm ponax gouldii SB i 8.1 9A:SD!-:86?4 . {33 iO-10cm 1 \/Iytiius RSOC as CA-SDI-8694 {33 iO-IOcm jOstrea lurida "" \ 3LE i 84.1 Page 9 CA-SDI-8694 Shell 5/31/2005 Accession Unit Level Species Habitat Weight CA-SDI-8694 iss iO-IOcm {Tagelus IBLE 1-5 CA-SDI-8694 "iss'" 0-10 cm jlJniidentifiable J1 j49.5 CA-Sbi-8694 '{33" ii 6-26 cm IArgopecten BLE'"""'" 2" """' iia5 CA-Sbi^694 "p""""' Ji6-26 cm {Chione iBLE f" ' 1826^3 CA-Sbi"-8694 " 33' " ji 0-26 cm jChiton IRSOC a7 CA-Sbi¥6"9"4 '(33" {10-20 cm {Crepidula IRSOC 2.8 CA-SDI-8694 "133 ji6-26cm jDonax gouldii SB '7'"""I0.8 CA-SDI-8694 33 h 0-20 cm jMytilus RSOC 'i '" "d7 CA-SDr-S694 33 [10-20 cm [Ostrea lurida iPolinices Ulll. BLE 'i "'• •~h65"2 CA-lSbi"^694 'Iss'"•"""" ji 6-20 cm [Ostrea lurida iPolinices Ulll. BLE 1.5 CA-SDI-6694 Iss \lQ-20m\ jTivela stulturom SB T4.7 CA-SDI-8e94 {33 h 0-20 cm iUnidentifiable 43.1 CA-SDI-8694 jSS 20-30 cm Argopecten BLE i 166.1 CA-SDi-8e94 {33 ^20-30 cm Chione BLE 1082.6 CA-SDI-8694 33 20-30 cm Chiton RSOC i 1-2 CA-SDI-8694 133 20-30 cm Crepidula RSOC i ae CA-SDI-8694 |3S {20-30 cm Donax gouldii SB i 8.8 CA-SDi-6694 {33 {20-30 cm Mytilus RSOC as CA-SDI-8694 {33 20-30 cm Ostrea luricia BLE 166.2 CA-SDI-8694 133""" 20-30 cm Polinices BLE i 712 CA-SDI-8694 Iss {20-30 cm Serpulorbis squamiger RSOC 1 CA-SDI-8694 iss 120-30 cm IUnidentifiable 1 31.3 CA-SDi-8694 jss iSO^O cm {Argopecten BLE i 311.5 CA-SDI-8694 133 {30-40 cm Astraea undosa RSOC i a2 CA-SDi-8694 iss 130-40 cm Chione BLE i 636.1 CA-SDI-8694" 133 {30-40 cm Chiton RSOC a4 CA-SDI-8694 33 130-40 cm Crepidula RSOC ao CA-Sbi-^8694" 33 i30-40 cm Donax gouldii SB 3.3 CA^SDi-eegii ss " " 30-40 cm Mytilus RSOC a5 CA-SDI-8694 33 30-40 cm Ostrea lurida BLE 76 CA-SDI-8694 33 30-40 cm Pteropurpura festiva BLE 2.7 CA-SDI-8694 33 30-40 cm Unidentifiable j 145 CA-Sbl-8694 "" " 34" 0-10 cm Argopecten 1 BLE 347.2 CA-SDI-8694 34 0-10 cm Astraea undosa | RSOC 2.6 CA-SDi-8694"' 34 0-10 cm Cerithidea [BLE ae CA-SDI-8694 34 p-10 cm i Chione TBLE 2431.4 CA-SDI-8694 34 0-10 cm Chiton jRSbc 3 CA-SDI-8694 34 0-10 cm Crepidula jRSOC ae CA-SDI-8e94 34„ ._„.Z 0-10 cm Donax gouldii ISB 12.2 CA-SDI-6694 34 0-10 cm Modiolus IBLE 1.2 CA-"SDI^94 "^ 34 0-10 cm Mytilus (RSOC 1 a 7 CA-SDI-8e94 34 O-fo cm 1 Ostrea lurida IBLE i 406.7 CA-SDI-8694 "^ 34 ]p-10cm Polinices jBLE f 30.5 CA-SDI^e94 34 10-10 cm Unidentifiable | 131.3 CA-SDI-8694 ( 34 j20-30cm ^rgopecten (BLE ] 24a 1 CA^Sbi^694' "j; 34 {20-30 cm lAstraea undosa jRSOC 1.2 Page 10 CA-SDI-S694 Shell 5/31/2005 Accession Unit Level Species Habitat Weight CA-SDI-8694 134 20-30 cm iCerithidea iBLE 1.1 CA-Sb|i-8694 "{34"'" 126^36 cm iChione iBLE lj j937ii9 CA-Sbl-8694" i34""" 126-36 cm iChiton IRSOC "[""' ae CA-SDI-8694 "{34 {20-30 cm {Crepidula iRSOC ]j'"''2 CA-Sbr-8694 "134"""" 20-30 cm ibonax gouldii ISB 1" "' ""45 CA-SDI-8e94 l34"'"""" 120-30 cm jOstrea lurida BLE 1 ies^s CA-SDI-6694 " {34 120-30 cm iPolinices BLE 1"""as CA-SDI-e694 i34 {20-30 cm iUnidentifiable i 60.9 CA-SDI-6694 lS4""'" 130^6 cm {Argopecten jBll'""~" 7 "" 466.1 CA-Sbi-^'94" 34 130-40 cm jAstraea undosa iRsbc 2.6 CA-SDI-ee94 34 130-40 cm Balanus ^OC as CA-SDI-8694 34" 130-40 cm Chione JBILE 1 941.8 CA-SDI-e694 34 130-40 cm Donax gouldii SB i 2.5 CA-SDi-8e94 34 130-40 cm 1 • . . . , , ,. Mytilus RSOC i 1.1 CA-SDI-8e94 134 J30-40cm Ostrea lurida BLE { 77.5 CA-SDI-8694 134 i3a40cm Unidentifiable i i 36.6 CA-SDI-8694 35 jO-IO cm Argopecten jBLE i 136.5 CA-SDI-8694 35 p-10 cm {Astraea undosa {RSOC a4 CA-SDI-8694 35 IO-IOcm Chione IBLE 1 840.5 CA-SDi-8694 35"" p-IOcm Chiton jRSOC 3.4 CA-SDi-8694 35 jO-IOcm Crepidula IRSOC j as CA-SDi-8694 35 !0-10cm Donax gouldii 'MB '" " i 4 CA-SDI-8694 35 10-10 cm Ostrea lurida BLE i 'IO6.5 CA-SDI-8694 35 0-10 cm Petaloconchus monter Rsdc " \ ' 0^1 CA-SDI-8694 35 10-10 cm Polinices BLE L 5.8 CA-SDI-8694 35 0-10 cm Unidentifiable 1 78^ CA-SDI-8694 35 10-20 cm Argopecten BLE 316.7 CA-SDI-6e94 35 110-20 cm Astraea undosa RSOC i 47 CA-SDI-8694 s's"" Ro-26 cm Cerithidea BLE as CA-SDI-8694 %5 10-20 cm Chione BLE I 1629.3 CA-SDI-8694 _j 35 10-20 cm Chiton RSOC t 42 CA-SDI-8694 35 h 0-20 cm Crepidula jRSbc L 1-1 CA-SDI-8694 35 10-20 cm Donax gouldii isB 7.6 CA-SDI-8694 35 10-20 cm Mytilus IRSOC a2 CA-Sbi-^94 35 10-20 cm Ostrea lurida iBLE 259.8 CA-SDI-8694 35 10-20 cm Polinices { BLE 8.7 CA-SDi-8e94 35 10-20 cm Pteropurpura festiva {BLE 3 CA-SDi-8694 35 10-20 cm Unidentifiable i 71.9 CA-SDI-8694 35 20-30 cm j Argopecten 1 BLE 266.2 CA-SDi-8e94 ^ 35 20-30 cm I Astraea undosa I RSOC as CA-SDi-8e94 35 20-30 cm Cerithidea jBLE ae CA-SDI-6694 35 „ ^ , 20-30 cm Chione jBLE 887.9 CA-SDI-6694 "^ 35 20-36 cm ciiiton IRSOC 1 CA-SDi-6e94 35 20-30 cm Crepidula ^ RSOC as CA-SDI-8694 {35 120-30 cm Donax gouldii "j : SB i 3.2 CA-SDI-6694 {35 20-30 cm Vlytilus 1 RSOC 1.3 Page 11 I CA-SDI-8694 Shell 5/31/2005 Accession Unit Level Species Habitat Weight CA-SDI-8694 ;S5 {20-30 cm iOstrea lurida BLE I 87.9 CA-Sbii^94 '"P" 20-30 cm iPolinices IBLE""" 223i""j5 CA-iSDl-8694 "ias"""'""' {26-36 cm jTivela stuiturom !!SB1"I11 ]""""""'141 CA-Sbi-8694 '"135"""' (26-30 cm^" IUnidentifiable 13L6 CA-SDI-8694 "{35" (36-46 cm Argopecten BCE J1.1 1 •^•5 CA-SDI-8694 {35""" Jso^Ocm jAstraea undosa JRSOC ! ""lj8 CA-SDI-8694 iss""'" j30-46cm (Chione BLE j 1278.4 CA-SDI-8e94 '{35 13046 cm jbonax gouldii 'jSB "" 208 CA-^Sbr-8694 " '{35" """" 36-46 cm jMytilus liRsbc" " T"""""Z3 CA-Sbi-e694 'i3!5"""" 3040 cm J Ostrea lurida iBLE 64 CA-SDI-8e94 135 X . , 30-40 cm Polinices BLE 35.5 CA-SDI-S694 135 30-40 cm Unidentifiable i 15.3 CA-SDI-6694 jse 0-10 cm Argopecten BLE J 22.8 CA-SDI-8694 {36 0-10 cm Astraea undosa iRSOC i 9.3 CA-SDI-8694 ise 0-10 cm Chione jBLE i 1601 CA-SDI-8694 ise 0-10 cm ponax gouldii iSB 04 CA-SDI-8e94 ise l0-10cm IOstrea lurida BLE 1 2.1 CA-SDI-e694 Ise ]6-io cm lUnidentifiabie i 53.4 CA-SDI-8694 jse {10-20 cm iArgopecten IBLE 21.3 CA-"sbl-"8'694 " " 136 h 0-20 cm Chione BLE 1 131 CA-SDI-ee94 ise 10-20 cm Donax gouldii iSB i 02 CA-SDI-6694 ise 16-26 cm Ostrea iurida 'jBLE 1 _ 1-2 CA-SDI-e694 •j36 i 0-26 cm Unidentifiable ! '~ "612 CA-SDI-8694 iS7 0-10 cm Argopec^ten IBLE i 23.5 CA-SDI-8694 137 0-10 cm Astraea undosa {RSOC I 4.2 CA-Sbi-e694" " 137 0-10 cm Chione iBLE 7""311I9 CA-SDI-8694 137 0-10 cm Donax gouldii jSB 1.4 CA-SDi-6694 {37 0-10 cm Ostrea lurida iBLE 5.3 CA-SDI-8694 137 """"" •"" 0-10 cm Unidentifiable \ 62.7 CA-SDI-8694 37 10-20 cm JArgopecten iBLE I 11.5 CA-SDi-8694 37 10-20 cm iChione 1., ,— iBLE I 125.3 CA-SDI-8694 37 10-20 cm iOstrea lurida |{L"E 1 12 CA-SDI-8694 37 10-20 cm iPolinices |BLE 37.4 CA-SDI-e694 ^"37 10-20 cm iUnidentifiable | 67.6 CA-SDI-8694 37 20-30 cm jArgopecten BLE 13.9 CA-SDI-8694 37 20-30 cm jArgopecten "BL'E 31 CA-SDi-6694 ' 37 20-30 cm Astraea undosa RSOC 2.2 CA-SDI-e694 37 20-30 cm Chione BLE 119.8 CA-SDI-8e94 37 20-30 cm Chione BLE 92.2 CA-SDI-8694 37 20-30 cm Ostrea lurida BLE 08 CA-SDI-8694 37 20-30 cm ~T Ostrea lurida BLE 3.3 CA-SDi-8e94 "* '37 ^ 20-30 cm Polinices BLE 03 CA-SDI-e694 37 20-30 cm "^ Jnidentifiable i 86.6 CA-SDI-8694 3'7 20-30 cm 1 Jnidentifiable 7 92 CA-SDI-8694 37 30-40 cm iArgopecten BLE 1 1174 CA-SDI-8694 |S7 ; 30-40 cm {Astraea undosa RSOC i 2 Page 12 CA-SDI-8694 Shell 5/31/2005 Accession Unit Level Species Habitat Weight CA-SDI-8694 137 30-40 cm {Chione BLE 6101 CA-SDI-8694 "{37 |36^ cm jciiiton IRSOC 09 CA-Sbl78694 w {36^6 cm [Donax gouldii SB " ""06 CA-Sbi-^694 " !37"""""" i36^cm jOstrea lurida ]BL£'" T' 67.9 CA-SDI-6694 137 {30-40 cm iLinidentifiabie 18.8 CA-Sbi-8"6"94" 38 iO-i6cm {Aj-gopecten "IBLE ]""'"138^2 CA-SDI-e694 38"' iO-IOcm {Astraea undosa IRSOC 1 1 CA-SDI-e694 36 p-IOcm jCeritfiidea jBLE 'i "OS CA-SDI-8694 SS i6-i6 cm Chione "piili'"""" ! 707.9 CA-SDI-8694 '38 16-10 cm Chiton TRSO'C 1 OS CA-SDI-8e94 38 10-10 cm Crepidula RSOC i 04 CA-SDI-8e94 38 p;^0 cm Donax gouldii SB 46 CA-SDI-8694 38 iO-l6icm Ostrea lurida BLE i 66.7 CA-SbT-6694"" ' 38 |0-10cm Polinices BLE 12.3 CA-SDI-ee94 "38" p-IOcm Pseudochama exogyra IRSOC i 47 CA-SDI-8694 38 jO-IOcm Tivela stulturom ISB i 2.7 CA-SDI-e694 38 10-10 cm Unidentifiable 1 27.6 CA-SDI-8694 38 h 0-20 cm /Argopecten •BLE i 159.5 CA-SDI-8694 38 f_. h 0-20 cm Cerithidea BLE i OS CA-"s"bi-86"94 " |38 R 0-20 cm Chione BLE 1085.1 CA-SDi-8694 iss h 0-20 cm Chiton RSOC OS CA-SDI-8694 38 h 0-20 cm Donax gouldii SB 3.4 CA-SDi-8694 138 h 0-20 cm Modiolus BLE 09 CA-SDI-8e94 38 h 0-20 cm Mytilus RSOC 1 05 CA-SDI-8694 38 h 0-20 cm Ostrea lurida BLE 122.5 CA-SDI-8694 38 110-20 cm Tivela stulturom SB f""""" '2.8 CA-SDI-8694 38 hO20cm Unidentifiable 44.6 CA-SDI-8694 38 {20-30 cm Argopecten {BLE 477.9 CA-SDI-6e94 38'" i20-30 cm Astraea undosa RSOC i 02 CA-SDi-8694 ^ 38 J20-30 cm Chione BLE 107O5 CA-SDI-8694 38 {20-30 cm Chiton ^"sbc 05 CA-SDI-8694 38 {20-30 cm Crepidula RSOC 1.2 CA-SDI^69"4 38 {20-30 cm Donax gouldii SB GA-SDi-8694 38 20-30 cm Mytilus RSOC 1 CA-SDI-8694 38 {20-30 cm Ostrea lurida BLE 88.1 CA-SDI-8694 ^ 38 20-30 cm Polinices BLE 40 CA-SDi^694 38 120-30 cm Pseudochama exogyra RSOC 6.7 CA-SDI-8694 38 {20-30 cm Unidentifiable 17.9 CA-SDI-8e94 ^ 39 |0-10cm Argopecten BLE s 101.3 CA-SDI-8e94 i 39 10-10 cm Cerithidea BLE 1 06 CA-SDI-8e94 39 j6-l6cm Chione BLE 1 589 CA-SDI-8694 39 i0-10cm ^ Donax gouldii SB i 12 CA-SDi^694 7 39 16-10 cm Ostrea lurida ^ BLE i 54.9 CA-Sbl-^694 39 !0-10cm rivela stulturom ^ 3B i 109 CA-SDI-8694 : 39 JO-IOcm 1 Jnidentifiable j 20.4 CA-SDI-8694 {39 jl6-26cm"" \rgopecten {BLE " 198.1 Page 13 CA-SDI-e694 Shell 5/31/2005 Accessibn Unit Level Spiecies Habitat Weight CA-SDI-8694 CA.sbi-8694 CA-SDI-8694 (3A-S"bl^694 CA-SDI-8694 CA-SDI-S694 CA-Sbl-e6'94 139 P 1S9 {39 I39" {39 '139" h 0-20 cm 10-20 cm Jl6-26cm jl 0-20 cm ji0-20jcm jT6-26cm ii 6-20 cm CA-SDI-ee94 139 CA-SDI-8694 CA-SDI-8694 39 39 CA-SDI-ee94 CA-SDI-8694 CA-SDI-8694 CA-SDI-8694 CA-Sbl^"94" CA-SDI-S694 CA-SDI-6694 CA-SDI-6694 J10-20cm J1O2(0'cm 116^0 can Astraea undosa jChione Chiton {Crepidula jponax gouldii iMytilus jOstrea lurida jTageius jTivela stulturom iRSOC ""jBilE""'"""' {RSOCj {SB j "IRSOC "BLE""" 1.3 967i2 06 6.6 39 39j 39 J20^cmj |20-30 cm 39 "39 20-30 cm 39 20-30 cm 20-30 cm 39 20-30 cm 39 20-30 cm Unidentifiable Argopecten IBLE "iSB IBLE Astraea undosa^ {RSOC IChione ' Donax gouldii SB IModioius iVIytilus BLE iOstrea lurida IRSOC IBLE "" Unidentifiable 5.8 "2.2 15219 " 13 'jj62 68. 606. 06 1195.9 09 49 OS 90.5 20 CA-SDI-8e94 {4 10-10 cm Argopecten iBLE 1 .9 CA-SDI-8694 'I4 iO-IOcm Astraea undosa jRSOC i 3.5 CA-SDI-8694 K 10-l6cm Chione {BLE i 179.9 CA-SDI-8694 i4 10-10 cm -} _ Polinic^es IBLE j 6.5 CA-SDI-8694 iO-IOcm 4 . Unidentifiable i • • j 83.9 CA-SDI-S694 14 h 0-20 cm Argopecten BLE i 37.1 CA-SDi-8694 i4 .! . „„. ,™ h 0-20 cm Astraea undosa RSOC i 05 CA-"SDI^94 14 10-20 cm Chione 'BLE i 183 CA-SDI-8694 |4 10-20 cm Mytilus RSOC I 3.9 CA-SDI-8694 4 10-20 cm Ostrea lurida BLE { 06 CA-Sbi^694 4 10-20 cm Polinic^es BLE 3.4 CA-SDI-8694 4 hO-20 cm JUnidentifiable 36 CA-SDI-8694 4 20-30 cm Argopecten BLE 1 1247 CA-SDI-8694 4 20-30 cm Chione BLE i 411.3 CA-SDI-8694 4 20-30 cm Ostrea lurida BLE i 12.1 CA-SDI-8694 4 20-30 cm Serpulorbis squamiger iRSOC i a7 CA-SDI-8694 4 20-30 cm Tagelus BLE """"""'1.2 CA-SDI-8694 4 20-30 cm Tivela stulturom SB T"" "" - de CA-SDI-8694 4 20-30 cm Unidentifiable 1552 CA-SDI-6694 4 30-40 cm iArgopecten BLE i 86.6 CA-SDI-8694 4 30-40 cm 1 Astraea undosa RSOC { OS CA-SDI-8694 4 30-40 cm Chione j BLE i 189.6 CA-SDI-8694 4 30-40 cm Olivella Biplicata jS{B ! 02 CA-SDI-6694 4 30-40 cm Ostrea lurida iBLE 25.5 CA-SDI-8694 4 30-40 cm Tagelus "jBLE i 05 CA-SDI-8694 4 "^ 30-40 cm iUnidentifiable i 18.6 CA-SDI-8694 40 |0-10 cm Argopecten BLE 185.8 CA-SDI-8694 40 10-10 cm jAstraea undosa 1 RSOC i 04 Page 14 CA-SDi-Se94 Shell 5/31/2005 Accession Unit Level Species Habitat Weight CA-SDI-8694 140 {0-10 cm iChione IBLE 971 CA-SDI-8694 146"""" JO-idcm jChiiton RSOC jjjjj'jl1.9 CA-Sbl-8694 ~ 146" {6-16 cm jCrepidula IRSOC "'2.6 CA-SDI-8694 40" |6-l6cm ponax gouldii "{SB 5.7 CA-"sbr-8694" j46 {6-16 cm {Mytilus jRSOC 1.4 CA-SDI-8694 'So"" j6-l6cm [Ostrea lurida BLE 117 CA-SDI-8694 140'" 16-16 cm iPolinices BLE 1 CA-SDI-8694 40 p-IOcm {Pseudochama exogyra RSOC"j 202 CA-SDi-8694" " 40 p-iocm Unidentifiable """ """"j 85.3 CA-^sbi-8e94" 40" "" 116-20 cm Argopecten BLE' ! 195.9 CA-SDI-8694 40 110-20 cm Astraea undosa RSOC" i ' "' " 1.2 CA-SDI-8694 40 10-20 cm Cerithidea BLE 12 CA-SDI-8694 40 10-20 cm Chione BLE ] 1462 CA-SDi-8694 40 {10-20 cm Chiton RSOC t 1.2 CA-SDi-8694 ]40 il 0-20 cm jCrepidula RSOC i 01 CA-SDi-8694 40 110-20 cm jDonax gouldii ISB 6.2 CA-SDI-8694 40 10-20 cm jOstrea lurida BLE i 235.6 CA-SDi-8694 •46 10-20 cm {Unidentifiable 73.4 CA-SDi-8694 40 {36-46 cm jArgopecten iBLE i 228.7 CA-SDi-8e94 40 "' i30-40 cm J , Astraea undosa 'RSOC I 2.1 CA-SDI-8694 40 ISO-40 cm Chione BLE I 979.4 CA-SDI-8694 'm Bo-40 cm Chiton FISOC 1 17 CA-SDI-8694 40 !30-40cm Donax gouldii SB i 47 CA-SDI-8694 140 f,J .,., . iSO-40 cm Mytilus RSOC " '02 CA-SDI-8e94 40 '30-40 cm Ostrea lurida BLE i 103.7 CA-SDI-8694 40 30-40 cm Polinices BLE 1 13."3 CA-SDI-8e94 40 30-40 cm Serpulorbis squamiger [RSOC 5 CA-SDI-8694 40 |30-40cm Unidentifiable 43.5 CA-SDI-8694 4i i6-l6cm Argopecten BLE 812 CA-SDI-8694 41 0-10 cm Astraea undosa RSOC i 14 CA-SDI-8694 41 0-10 cm Cerithidea BLE I 06 CA-SDI-8694 41 ^ 0-10 cm Chione BLE " T 546.6 CA-SDI-8e94 ^ 41 0-10 cm Chiton RSOC j 04 CA-SDI-8694 41 0-10 cm Donax gouldii SB 1 3.1 CA-SDI-8e94 41 0-10 cm Ostrea lurida BLE J 53.6 CA-SDI-8e94 41 0-10 cm Polinices j BLE i 7.4 CA-SDi-8e94 41 0-10 cm Tivela stulturom SB ! 2.4 CA-SDI-8694 |41 0-10 cm Unidentifiable i 26.1 CA-SDi-8694 41 10-20 cm u Argopecten jBLE 1 59.2 CA-SDI-8694 41 10-20 cm lAstraea undosa |RSOC 1 04 CA-SDI-8e94 41 10-20 cm i Cerithidea jBLE 06 CA-SDI-8e94 41 10-20 cm iChione "1 BLE 702.4 CA-SDi-8694 -41 10-20 cm Chiton iRSOC 1.5 CA-"sbi-8694 41 10-20 cm {Crepidula "1 RSOC 02 CA-SDI-8694 41 10-20 cm jDonax gouldii 1 5B i 3.3 CA-Sbi^694 ' 41 {10-20 cm IHaliotus |RS0C {" 3.3 Page 15 CA-SDI-6694 Shell 5/31/2005 Accession Unit Level Species Habitat Weight CA-SDI-8694 42 hO-20 cm iPolinices {BLE 3.4 CA-SDI-8694 "i42 ji6-26cm iUnidentifiable l'j"l"'"isi CA-Sbl^694 " '42""'" ^0-30 cm iArgopecten BLE T 104^4 CA-Sbl^694 "42'"""' 126-36 cm" jAstraea undosa jRSOC I""""26^ CA-SDI-6694 142"""'"' {20-30 cm iChione BLE 402.8 CA-SDI-8694 {42 {20-36 cm jbonax gouldii "[SB j 1-8 CA-SDI-8694 |42 126^36 cm {Mytiius RSOC "" 1 04 CA-Sbl-8'694" " 42""'"" J26^36cm" IOstrea iurida {BLE 1 13.4 CA-Sbl-8694 (42 126-36 cm {Polinices j{BL{E^jjll7" "i"i.4 CA-SDI-8e94 142 120-30 cm {Unidentifiable { 28.3 CA-SDI-8694 (42 30-40 cm {Argopecten TBLE 299.1 CA-SDI-8694 142 30-40 cm {Chione BLE i 435.5 CA-SDi-8694 {42 30-40 cm IDonax gouldii jSB 2.8 CA-SDi-8694 42 1—, .— 30-40 cm jMytilus iRSOC 2.4 CA-SDi-8694 142 {30-40 cm jOstrea lurida jBLE 1 16.9 CA-SDi-8694 42 iSO^ cm IUnidentifiable { j 19.9 CA-SDI-8694 43 jO-IOcm Argopecten 'BLE'""""'""" 1 66.6 CA-SDI-6694 143 10-10 cm Balanus {RSOC r 2.2 CA-SDi-8694 143 !0-10cm IChione BLE 440.2 CA-SDI-8694 143 P-10 cm {Chiton IRSOC j OS CA-SDi-S694 43 p-10 cm ponax gouldii jSB i 2.6 CA-SDI-8e94 43 0-10 cm {Lottia gigantea Risbc" i 14 C.A-SDI-8694 43 0-10 c-m iOlivella Biplicata SB no CA-SDI-8694 43 0-10 cm Ostrea lurida BLE i 31.1 CA-SDi-8694 43 i , ,_ 0-10 cm Serpulorbis squamiger RSOC i > 2 CA-SDI-8694 43 O-16 cm Unidentifiable I 46.4 CA-SDi-8694 ico 10-20 cm iArgopecten BLE 133.2 CA-SDI-S694 43 16-20 cm Astraea undosa RSOC i 1.5 CA-SDI-6694 43 10-20 cm Cerithidea BLE 04 CA-SDi-8e94 43 10-20 cm Chione BLE 670.4 CA-SDI-8694 43 10-20 cm Crepidula RSOC 2.4 CA-SDI-8694 43 10-20 cm Donax gouldii SB 3.2 CA-Sbl-8694 43 10-20 cm Mytilus RSOC 0.4 CA-SDI-e694 43 ^ 10-20 cm Ostrea lurida BLE i 55.3 CA-SDi-6694 43 {10-20 cm Polinices BLE 24.8 CA-SDi-8694 43 il 0-20 cm Tagelus BLE 2.1 CA-SDI-8694 43 h 0-20 cm Unidentifiable 1 36.3 CA-SDI-8694 43 20-30 cm Argopecten BLE 299.5 CA-SDI-8694 43 20-30 cm Chione BLE 460.4 CA-SDI-8694 43 20-30 cm Chiton RSOC 1.3 CA-SDI-8e94 ( 43 20-30 cm iDonax gouldii SB 2.5 CA-SDI-8e94 — , .. ... 1 43 20-30 cm Mytilus RSOC ! 2.3 CA-SDI-8694 i —,—_ , j 43 20-30 cm Ostrea lurida BLE i 46.4 CA-SDI-8694 j. 43 20-30 cm Polinices IBLE 1.6 CA-SDI-8e94 1 43 120-30 cm Unidentifiable i "lefi CA-SDI-8694 |44 p-10 cm Argopecten IBLE f 56.9 Page 17 CA-SDI-8694 Shell 5/31/2005 Accession Unit LeVeil Species Habitat Weijjht CA-SDI-e694 CA-Sbl-8694 CA-!S"bl-8694 CA-Sbl-8694 CA-Spi-86^^^ CA-Spi^694 CA-SDi-8694 CA-SDI-8694 CA-Spi-8694 CA-Sbi^6"94 44 |44i'" j44" {{44 2i4 44 44 CA-SDI-8694 CA-Spi-8694 C'A-"SDI^694 CA-SDI-8694 {0-10 cm 0-10 cm iO-iOcm ioi6cm ]6-i6cm jO-i6^cm jiO20 cm 10-20 cm 10-20 cm 44 CA-SDI-8e94 44 44 Pi4 10-20 cm {Chione jChiton ponax gouldii {Ostrea lurida {Polinices ilJnidenjtifiabie jArgopecten jAstraea undosa jciiione iChiton {BLE jpsbc SB BLE JBLE "iBll"l pRSOC BLE RSOC 529.2 ""'d"4 ' '43 'l78h" " "'s.'e J2.5 14379 1 0 8 870.9 1 10-20 cm 10-20 cm 10-20 cm Ostrea lurida CA-SDI-8694 CA-SDI-8694 {44 "44 10-20 cm 20-30 cm CA-SDI-8694 i44 CA-SDI-8694 CA-SDI-8694 CA-Spi-8694^ CA-Sbi-8694 ^4 144 44" {^ 10-20 cm Donax gouldii Olivella Biplicata Polinices SB 3.9 SB BLE 06 160.7 BLE 19 Unidentifiable Argopecten 20-30 cm IChione 44.2 BLE 145.7 BLE 20-30 cm IChiton 20-30 cm 20-30 cm jCrepidula IRSOC "iRsbc" CA-SDi-e694 CA-SDI-8e94 CA-SDi-8694 20-30 cm 44 44 ponax gouldii iMalatoma iSB 793.9 111 OJI """"5.5 iRSOC 20-30 cm IOstrea lurida BLE 20-30 cm jPseudochama exogyra jRSOC 20-30 cm CA-SDI-8694 44 44 {30-40 cm {Unidentifiable 0^6 '79.6 7.1 "213 CA-Spi-6694 CA-"S"D|-869"4" CA-S'DI^6"94 44 CA-SDI-8694 i44 {Argopecten i30-40 cm (30-40 cm 30-40 crn 30^6 cm" CA-SDI-8694 CA-Spi-8694 CA-SDI-8~694" |44 CA-SDI-8694 44 CA-SDI-8694 44 CA-SDI-8694 CA-SDi-8694 44 U4 Cerithidea Chione Donaxgoujdii IOstrea lurida |BLE {BLE "jBLE iSB 144.1 OS 736.4 BLE 2^4 93.3 30-40 cm 30-40 cm iPc)linices^ Unidentifiabie iBLE 1.5 40-50 cm 37.1 Argopecten jBLE 259.6 40-50 cm 40-50 cm 40-50 cm '40-50 cm {40-50 cm CA-SDI-8694 CA-SDi-8694 44 44" CA-SDI-8694 CA-SDI-8694 CA-SDI-S694 140-50 cm {40-50 cm 44 45" 140-50 cm IO-IOcm 46 10-10 cm C/^-SDI-8694 !46 10-10 cm Chione Chiton Crepidula Donax gouldii Mytilus Ostrea lurida Polinices BLE RSOC 729.6 oe' RSOC 1.8 SB RSOC BILE BLE" Unidentifiable Haliotus Argopecten CA-SDI-8694 46 CA-SDi-6694 CA-SbT-8694 {46 jO-IOcm i6-io cm iO-IOcm Cerithidea Chione Ostrea lurida Ostrea lurida j.e 24 405 i"o'2 16 RSOC BLE BLE BLE BLE BLE 67.2 "oi 0.4 02 04 02 Page 16 I GA-SDI-8e94 Shell 5/31/2005 Accession Unit Level Species Habitat Weight CA-SDI-S694 is p-10 cm {Argopecten iBLE 1.5 CA-SDI-8694 {5""""" 0-10 cm jChione "IBI^E"' CA-SDI-8694 B""""" j6-l6cm {Ostrea iurida iBLEl..ll^ 07 CA-SDI-8694 w•"" j6-l6cm {Unidentifiable '"i'7jl CA-SDI-8694 " i5 '"""""'" jio^dcmj 1" iArgopecten IBLE """ 6.1 CA-SDI-8694 |5 ji6-26cm iChione {BLE "212 CA-Sbi-8694 16-26 cm pnidentifiable 15."i CA-SDI-Se94 15 20-36 cm Argopecten iChione BLE 09 CA-SDI-e694 15 20-30 cm 26i^36"cm Argopecten iChione iBLE '""'2'3'.'5 CA-SDI-S694 is"" 20-30 cm 26i^36"cm iUnidentifiable J 2.5 CA-SDI-8694 |6 0-10 cm iArgopecten ¥L'E 1.'4 CA-SDI-66"94" fe 0-10 cm jChione BLE 16.7 CA-SDI-e694 € 0-10 cm IOstrea lurida BLE 06 CA-SDI-S694 6 0-10 cm {Unidentifiable 7.7 CA-SDi-6694 6 10-20 cm jArgopecten BLE 1.6 CA-SDI-6694 6 10-20 cm Chione BLE 25.7 CA-SDI-8694 6 10-20 cm Ostrea lurida BLE 19 CA-SDi-8694 6 10-20 cm Unidentifiable 15.1 CA-SDI-8694 7 iO-IOcm Argopecten BLE 18 CA-"sbi-8694 7 10-10 cm Astraea undosa RSOC 3.2 CA-SDI-8694 7 jO-IOcm Chione BLE 219 CA-SDI-8694 i7 0-10 cm Unidentifiable . .. . .^ ^ CA-SDI-8694 7 10-20 cm Argopecten BLE " 0.61 CA-SDI-8694 7 10-20 cm Chione BLE 23.8 CA-SDI-8e94 7 10-20 cm Unidentifiable i 105 CA-SDi-e694 7 20-30 cm Argopecten BLE 19 CA-SDI-e694 7 20-30 cm Polinices BLE 7.4 CA-SDi-8694 7 20-30 cm Unidentifiable 2.2 CA-SDi-8694 8 0-10 cm Argopecten {BLE [ 0.5' CA-SDI-6694 ' 8 0-10 cm Chione jBLE 20.4 CA-SDI-8694 J8 0-10 cm Unidentifiable "" "S.4 CA-SDi-8694 jS 10-20 cm {Argopecten IBLE 1 01 CA-SDl'-8694 {8 16-26 cm Astraea undosa iRSOC 2.2 CA-SDI-8694 iS 10-20 cm Astraea undosa IRSOC 05 CA-SDi-8694 i's * 10-20 cm jChione {BLE | 5.7 CA-SDi-8694 js 10-20 cm lUnidentifiabie , i 3.2 CA-SDi-8694 {S 10-20 cm {Unidentifiable f j 2.5 CA-SDI-8694 18 i 20-30 cm Chione {BLE ! 8.4 CA-SDI-8694 |8 30-40 cm Unidentifiable • " T 2.07 CA-SDI-8694 |8 ^ ^ 40-50 cm Unidentifiable 0.08 CA-SDi-e694 i9 «—, .—^.„„„—, . ^ O-IO cm Argopecten 1 BLE i 0.05 CA-SDI-8694 \9 3-10 cm Chione 1 BLE 5.1 CA-SDi-8694 19 1 ,~. , 1 0-10 cm Unidentifiable I 1.9 CA-SDI-8694 {9 [0-20 cm {Unidentifiable f 19 CA-SDi-8694 i< 26^0 cm iUnidentifiable ' '" T T """173 Page 19 CA-SDI-6797 Shell 5/31/2005 Accession Unit Level Species Habitat Weight CA-SDI-8797 CA-SDI-8797 h "h P-10 cm 0-16 cm Argopecten iChione BLE "{BLE" j_ _ 1.2 22!ii4 CA-"sbi-8797 "ii"" iO-IOcm ponax gouldii ]SBjllljlj 01 CA-SDi-S797 "ji""""""" i6-l6cm {Unidentifiable i _j"lj"'209 CA-SDI-6797 "'|"i" il0-20 cm jArgopecten BLE -1111" 1"' '2-8 CA-SDI-8797 ]i'~"" 110-20 cm {Chione jjlBLE" !"""'"i9.2 CA-SDI-8797 ii i10-20 cm JLInidentifiable 6.3 CA-SDi-8797 CA-SDi"-8797 (1 ]{"""" 20-30 cm 20-30 cm Argopecten iUnidentifiable ""BLE""" i 03 i 2 CA-Sbi-8797 li"" iSO^O cm j/Vrgopecten iBLE i OS CA-SDI-8797 il 30-40 cm iChione •BLE i OS CA-SDI-8797 il 30-40 cm iUnidentifiable j 1 02 CA-SDI-8797 l2 0-10 cm Argopecten BLE 8.6 CA-SDI-8797 |2 ' 0-10 cm Chione JBLE 1 39.8 CA-SDI-8797 ]2 0-10 cm Donax gouldii ISB i 0.4 CA-SDI-8797" 12 p-IOcm Mytilus iRSOC i 0.2 CA-SDI-8797 |2 ip-10cm Ostrea luridea iBljE "" "" i 3.8 CA-SDI-8797 12 10-10 cm Unidentifiable -J _ i 215 CA-SDI-8797 i2 hO-20 cm Argopecten BLE 1 29.5 CA-SDI-8797 I2 h 020 cm Chione BLE i 63.4 CA-SDI-8797 i2 110-26 cm Crepidula iRSOC 02 CA-SDI-8797 2 10-20 cm Donax gouldii jSB I 01 CA-SDI-e797 2 h 0-20 cm Mytilus jRSOC j _ 0.6 CA-SDi-e797 2 10-20 cm Ostrea luridea IBLE f"0.7 CA-SDI-8797 2 10-20 cm Unidentifiable 1 i 39.9 CA-SDI-8797 2 20-30 cm Argopecten BLI" { 34.6 CA-SDI-8797 2 '20-30 cm {26-36 cm Chione SLE 60.3 CA-SDI-8797 2 """ '20-30 cm {26-36 cm Donax gouldii iSB 1 07 CA-Sbl-8797" 2 20-30 cm Ostrea iuridea IBLE { 0.4 CA-SDI-8797 2 20-30 cm Unidentifiable 54.8 CA-SDI-e797 2 j30-40cm Argopecten BLE i 2.3 C"A-Sbi'-87'97 ^ 2 30^0 cm Chione BLE ! 11 CA-SDI-8797 2 30-40 cm IVIytilus RSOC i Ol CA-SDI-8797 J2 ^ 30-40 cm Ostrea luridea BLE 1 OS CA-SDI-8797 {2 30-40 cm Unidentifiable '7""" h7.3 CA-SDi-e797 I 2 40-50 cm Argopecten BLE T" '""" " 1 CA-SDi-6797 i2 40-50 cm iChione BLE 8.8 CA-SDI-e797 { 2 40-50 cm jOstrea luridea ' BLE i 01 CA-SDI-e797 i2 , 40-50 cm I Unidentifiable i 5 GA-SDI-87"97 T2 50-60 cm iArgopecten BLE j 0.2 CA'-SDI-8797 |2 " 50-60 cm Chione BLE i 3.7 CA-Sbi-8797 12 1 , , 1 , L 50-60 cm Jnidentifiable i 2.9 CA-SDI-8797 i: ? 160-70 cm J Argopecten BLE "'! 62 CA-SDI-8797 I ? feo"-"70 cm 1 Jnidentifiable i 2.4 CArSbi-8797 i: ? }70-80 cm 1 Jnidentifiable i 01 CA-SDI-S797 f""" |0-10cm Argopecten " "7BLE 109 Page 1 CA-SDI-8797 Shell 5/31/2005 Accession Unit Level Spedies Habitat Weight C/\-SDI-8797 S3 {0-10 cm iChione jBLE 34.1 CA-SDi-8797 is"""" {6-16 cm {Ostrea luridea jjBLE""""^ ""is CA-SbT-8797 "is" {6-16 cm iUnidentifiable 13.2 CA-SDi-8797 "js""" ji6-26 cm Argopecten jBLE i 14-8 CA-SDI-8797 'is'""""" ii6-26cm Astrea undosa (RSOC J l j jj -- -Q J CA-Sbi-8797 iS""""""""" h 6-26 cm Chione "IBLE"'""' 1 " j""""37; 1 CA-Sbi-8797 Is;"" 116-26 cm (Mytiius IRSOC [ 0.1 CA-SDI-8797 'js"'"" 10-20 cm {Ostrea luridea |BLE "["""""" ' 2.T CA-SDI-8797 js"""""" 16-26 cm " lUnidentifiabie ]"""" 1 "" 26.2 CA-SDI-8797 "is {20-30 cm Argopecten jBLE 216 CA-SDI-8797 3 .20-30 cm Chione iBLE { 207 CA-SDI-8797 3 20-30 cm Mytilus IRSOC i 02 CA-SDI-8797 3 20-30 cm Ostrea luridea iBLE 2.4 CA-SDI-8797 3 120-30 cm Polinices IBLE 04 CA-SDi-8797 3 20-30 cm Unidentifiable i 32.1 CA-SDI-8797 is i „- iSO-40 cm Argopecten [BLE 07 CA-SDI-8797 Is 130-40 cm Chione IBLE 1.6 CA-SDI-8797 is js i30-40 cm Unidentifiable i 3.3 CA-SDI-8797 is js 40-50 cm Argopecten iBLE i 04 CA-SDI-8797 '3 46-56 cm Chione BLE 1.1 CA-SDI-8797 ^"3 40-50 cm Donax gouldii {SB ( 02 CA-SDI-8797 3 46-56 cm Unidentifiable i i oe CA-SDI-8797 3 50-60 cm Argopecten IBLE i 02 CA-SDI-8797 3 50-60 cm Chione iBLE i 2.7 CA-SDI-8797 3 50-60 cm Ostrea luridea IBLE i OS CA-SDI-8797 3"'"""" 150-60 cm Unidentifiable i j """"' '"'" '3.5 CA-SDi-8797 3 160-70 cm Argopecten jBLE 01 CA-SDI-8797 3 |60-70 cm iUnidentifiable { 04 CA^SDI^'797 ' 3"""" 70-80 cm {Argopecten BLE "" 0.1' CA-SDI-8797 3 70-80 cm Unidentifiable OS CA-SDI-8797 4 0-10 cm Argopecten 'BLE 5.3 CA-SDI-8797 4'"" 6-16 cm Chione BLE 6.6 CA-SDI-8797 4 {0-10 cm Ostrea luridea §LE 01 CA-SDI-e797 4 |0-10cm Unidentifiable 5.6 CA-SDI-8797 4 h 6-26" cm Argopecten BLE ' 07 CA-SDi-8797 4 10-20 cm {Chione BLE 1.1 CA-SDI-8797 1 4 110-20 cm iDonax gouldii SB 01 CA-SDI-8797 4 {{10-20 cm JOstrea luridea BLE 02 CA-SDI-8797 4 {{10-20 cm iUnidentifiable i 2.8 CA-SDI-8797 4 i20-S0cm 1/ \rgopecten BLE 1.9 CA-Sbl-8797 4 {26-30 cm j Zh\one jBLE 1 5.3 CA-SDI-8797 4 fe6-36 cm j Jnidentifiable 1 2.1 CA-SDI-8797 4 136-40 cm j/ \rgopecten iBLE 103 CA-SDI-8797 -4 130-40 cm jChione jBLE i 6.6 CA-SDi-8797 i-4 {30-40 cm {Ostrea luridea {BLE 04 CA-SDI-8797 V 4 130^ cm iPolinices IBLE i 27.4 Page 2 CA-SDI-8797 Shell 5/31/2005 Accessibn Unit Level Species Habitat weight CA-SDI-8797 {4 i30-40cm iUnidentifiable 10-8 CA-SDI-8797 "4""" 40-50 cm iArgopecten IBIIE"'"""' I 'j j""'"8^4 C"A-Sbi^"797 {4"" 4O50 cm phione 'IBLE """""' I'"""""'02 CA-SDi-8797 "54 46-56 cm jOstrea luridea jp-i"""'" j _ 0.4 CA-SDI-8797 j4"" 40-50 cm {Unidentifiable 11"" 6.6 CA-SDi^797 'u"" {50-60 cm {Argopecten 2BLE i """'l'7 CA-SDI-S797 E^i'i: 14 156^6 cm iChione jBLE 3.9 CA-SDI-8797 E^i'i: 14 [56^6 cm iUnidentifiable i "jj"' "2j6 CA-SDI-8797 14""' 160-70 cm Argopec^ten BLE 7o.i' CA-S'bi-8797'" 14""" 60-70 cm jChione BLE "7"" "" 15 CA-SDI-8797 i4 60-70 cm lUnidentifiabie i 1 2.7 CA-^SDI-8797 ' |4 70-80 cm Unidentifiable i 3.9 CA-SDI-8797 15 0-10 cm Argopecten iBLE 47.6 CA-SDI-8797 {5 """• 0-10 cm Chione !B"irE i 85.4 CA-SDI-8797 |5 p-IOcm Crepidula iRSOC i 01 CA-SDI-S797 15 p-IOcm Mytilus jRSOC i 04 CA-SDI-S797 15 p-IOcm Ostrea luridea iBLE { 43.4 CA-SDI-8797 15 iO-IOcm Unidentifiable 1 59.6 CA-SDI-8797 i5 h 0-20 cm Argopecten iBLE i 65.9 CA-SDI-8797 Is'""'" h 0-20 cm Chione iBLE i 88.7 CA-SDr-^797 ' i5 10-20 cm Donax gouldii {SB OS CA-"sbr-8797"" j5 16-26 cm Ostrea luridea iBLE 2.9 CA-SDI-8797 5 10-20 cm Polinices IBLE i 1.3 CA-SDI-8797 5 10-20 cm Unidentifiable 49.3 CA-SDI-8797 5 20-30 cm Argopecten BLE i 54.8 CA-SDI-8797 i5 20-30 cm Astrea undosa RSOC 61.3 CA-SDI-8797 5 20-30 cm . Chione 'BLE { 108 CA-SDI-8797 5 {20-30 cm Donax gouldii iSB 02 CA-;Sbl^'797" 5""'"""" {26-36 cm Mytilus RSOC 1 2.4 CA-SDi-S797 5" 20-30 cm Ostrea luridea [BLE i 3.6 CA-SDI-8797 5"" 20-30 cm Polinices B'LE 41 jl CA-SDi-8797 5 20-30 cm Serpuloboris RSOC ! 02 CA-Sbr-8797" 5" 20-30 cm Unidentifiable 92.1 CA-SDI-8797 5 30-40 cm Argopecten BLE 49.2 CA-SDI-8'7'97 "* 5 30-40 cm Astrea undosa RSOC 5.1 CA-SDI-S797 5 30-40 cm Chione BLE 96.7 CA-SDi-8797 , 5" 30-40 cm \/lytilus RSOC 12 CA-SDI-S797 i5 30-40 cm Ostrea luridea BLE 43 CA-SDI-8797 i5 30-40 cm Polinices BLE 2.4 CA-SDI-8797 i 5 30-40 cm Unidentifiable 47.6 CA-SDi-8797 j 5 {40-50 cm Argopecten BLE 701 CA^DI-8797 1 5 [46-50 cm J Astrea undosa RSOC 02 CA-SDI-8797 {5 140-56 cm Chione { BLE i 1313 CA-Sbi-8797 15" KO-50 cm ' Donax gouldii [ SB i 04 CA-SDI-e797 ! 5 140-50 cm Dstrea luridea |BLE i 3.2 CA-SDI-8797 j 5 {40-50 cm [Polinices {BLE 1.1 Page 3 CA-SDI-S797 Shell 5/31/2005 Accession Unit Level Specieis Habitat Weight CA-SDI-8797 js 40-50 cm {Pseudomelatoma peni iRSOC 01 CA-Sbl^797 '\5"" 40-50 cm iUnidentifiable j77.i4 CA"-"sbi'-8"797 l5"""" {50-60 cm iArgopecten "iBljE 29.5 CA-:Sbl-e797' "js"'"" |i56^6cm {Cerithidea californica iBLE i6^3 CA-SDI-S797 "p""" 150-60 cm iChione iBLE i 42 CA-SDi^797 '{5 {50-60 cm ponax gouldii !sB"""' 1 ""'"6j2 CA-SDI-8797 is" {156^6 cm jOstrea iuridea IBLE""""" ! 3.3 CA-SDI-8797 15 50-60 cm jPoiinices jBLE { 1.2 CA-SDI-8797 "s""""""""" 50-60 cm Unidentifiable 1 i" "52.8 CA-SDI-8797 "5""'"""" 60-70 cm Argopecten IBLE i 17 CA-SDI-8797 5 60-70 cm Chione iBLE i 3.5 CA-SDI-8797 5 60-70 cm Unidentifiable < . ( _—_ 1 2.1 CA-SDI-8797 5 70-80 cm iUnidentifiable i OS CA-SDI-S797 15 80-90 cm Argopec^ten BLE i OS bA-SD\-8797 ~ 15 80-90 cm Chione BLE 1'"" 02 CA-SDI-8797 jS 60-90 cm Ostrea luridea BLE i 02 CA-SDI-8797 {5 60-90 cm Unidentifiable OS CA-SDI-S797 ie 0-10 cm Aj-gopecten BLE i 09 CA-SDI-8797 6 0-10 cm Chione iBLE i 7.9 CA-SDI-8797 'e""""" 0-10 cm Donax gouldii SB i 04 CA-SDI-S797 je 0-10 cm Mytilus RSOC j 1.4 CA-SDI-S797 6 0-10 cm Ostrea luridea BLE i • 11 CA-SDI-8797 6 P-10 cm Unidentifiable ! "e:4 CA-SDi-8797 6 h 0-20 cm Argopecten BLE ; 4.3 CA-SDI-S797 6 10-20 cm Chione BLE 8.2 CA-SDI-8797 6 h 0-20 cm Mytilus RSOC 2.1 CA-SDi-S797 6 ji 6-26 cm "^ Unidentifiable 6.6 CA-SDI-8797 6 20-30 cm Argopecten BLE oe CA-SDI-8797 6 {20-30 cm Chione {BLE 2 CA-SDI-8797 6 20-30 cm Unidentifiable 1.1 CA-SDI-8797 |6 — 30-40 cm /Argopecten B'LE" 01 CA-SDI-S797 |6 30-40 cm Unidentifiable 05 CA-SDI-8797 6 40-50 cm Argopecten BLE 08 CA-SDI-8797 6 40-50 cm ^ Mytilus RSOC i 01 CA-Sbl-87"97 ^ 6 4OS0 cm Unidentifiable 09 CA-SDI-8797 ^ 6 50-60 cm Chione BLE 1 1.7 CA-SDI-8797 ^ S 50-60 cm Unidentifiable i 01 I Page 4 APPENDIX D FIELD FORMS (ON FILE AT GALLEGOS & ASSOCIATES) APPENDIX E RADIOCARBON DATING RESULTS BETA ANALYTIC INC. DR. MA. TAMERS and MR. D.G. HOOD UNIVERSITY BRANCH 4985 S.W. 74 COURT MIAMI, FLORIDA, USA 33155 PH: 305/667-5167 FAX: 305/663-0964 E-MAIL: beta@radiocarbon.com REPORT OF RADIOCARBON DATING ANALYSES Mr. Dennis R. Gallegos Report Date: 11/23/2004 Gallegos and Associates iMaterial Received: 10/28/2004 Sample Data Measiired Raciiocarbon Age 13C/12C Ratio Conventional RadicKarbon Age(*) Beta - 197206 1140 -f/- 40 BP SAMPLE: 8303-66A ANALYSIS : AMS-Standard delivery MATERLVL/PRETREATMENT: (shell): acid etch 2 SIGMA CALIBRATION : Cal AD 980 to 1170 (Cal BP 980 to 780) +I.O0/00 1570+/-40 BP 300 +/- 40 BP +1.0 0/00 730 +/- 40 BP Beta- 197207 SAMPLE: 8303-66B ANALYSIS : AMS-Standard delivery MATERL\L/PRETREATMENT : (shell): acid etch 2 SIGMA CALIBRATION : Cal AD 1690 to 1910 (Cal BP 260 to 40) AND Cal AD 1910 to beyond 1950 (Cal BP 40 to 0) Beta - 197208 5980 +/- 40 BP SAMPLE: 8303-256A ANALYSIS: AMS-Standard delivery MATERL\L/PRETREATMENT : (shell): acid etch 2 SIGMA CALIBRATION : Cal BC 4780 to 4550 (Cal BP 6730 to 6500) +1.1 0/00 6410+/-40 BP Beta - 197209 710 +/- 40 BP SAMPLE: 8303-256B ANALYSIS: AMS-Standard delivery MATEIUAL/PRETREATMENT : (shell): acid etch 2 SIGMA CALIBRATION : Cal AD 1340 to 1490 (Cal BP 610 to 460) Beta - 197210 370 +/- 40 BP SAMPLE: 8797-86 ANALYSIS: AMS-Standard delivery MATERIAL/PRETREATMENT: (sheU): acid etch 2 SIGMA CALIBRATION : Cal AD 1650 to 1870 (Cal BP 300 to 80) +1.4 0/00 1140+/-40 BP +1.0 0/00 800 +/- 40 BP Dates are reported as RCYBP (radiocarbon years before present, "present" = 1950A.D.). By International convention, the modern reference standard was 95% of the C14 content of the National Bureau of Standards' Oxalic Acid & calculated using the LIbby C14 half life (5568 years). Quoted errors represent 1 standard deviation statistics (68% probability) & are based on combined measurements of the sample, background, and modern reference standards. Measured C13/C12 ratios were calculated relative to the PDB-1 intemational standard and the RCYBP ages were nomialized to -25 per mil. If the ratio and age are accompanied by an (*), then the C13/C12 value was estimated, based on values typical of the material type. The quoted results are NOT calibrated to calendar years. Calibration to calendar years should be calculated using the Conventional C14 age. BETH BETA ANALYTIC INC. DR. M.A. TAMERS and MR. D.G. HOOD UNIVERSITY BRANCH 4985 S.W. 74 COURT MIAMI, FLORIDA, USA 33155 PH: 305/667-5167 FAX: 305/663-0964 E-MAIL: beta@radiocarbon.com I REPORT OF RADIOCARBON DATING ANALYSES I Mr. Dennis R. Gallegos Report Date: 11/23/2004 I I Sample Data Measured Radiocarbon Age 13C/12C Ratio Conventional Raciiocarbon Age(*) Beta -197211 SAMPLE: 8797-99 4610+/-50 BP -0.7 o/oo 5010+/-50 BP m ANALYSIS : AMS-Standard delivery I MATERL\L/PRETREATMENT : (shell): acid etch 2 SIGMA CALIBRATION : Cal BC 3320 to 2910 (Cal BP 5270 to 4860) Beta- 197212 SAMPLE: 8797-110 3080+/-40 BP -0.5 o/oo 3480 +/- 40 BP MATEIUAL/PRETREATMENT : (shell): acid etch 2 SIGMA CALIBRATION : Cal BC 1270 to 990 (Cal BP 3220 to 2940) m ANALYSIS : AMS-Standard delivery I I I I I I I I- I I Dates are reported as RCYBP (radiocarbon years before present, 'present" = 1950A.D.). By International convention, the modern reference standard was 95% of the C14 content of the National Bureau of Standards' Oxalic Acid & calculated using the Libby C14 half life (5568 years). Quoted errors represent 1 standard deviation statistics (68% probability) & are based on combined measurements of the sample, background, and modern reference standards. Measured C13/C12 ratios were calculated relative to the PDB-1 intemational standard and the RCYBP ages were normalized to -25 per mil. If the ratio and age are accompanied by an (*), then the C13/C12 value was estimated, based on values typical of the material type. The quoted results are NOT calibrated to calendar years. Calibration to calendar years should be calculated using the Conventional C14 age. I I I I I I I I I I I I I I I I I I I CALIBRATION OF RADIOCARBON AGE TO CALENDAR YEARS o •e ra o o 1550 1500 1450 (Variables: C13/C12=l:Delta-R=225±35:Glob res=-200 to 500:lab. mult=l) Laboratory number: Beta-197206 Conventional radiocarbon age: 1570±40 BP (1350±50 adjusted for local reservoir correction) 2 Sigma calibrated result: Cal AD 980 to 1170 (Cal BP 980 to 780) (95% probability) Intercept data Intercept of radiocarbon age with calibration curve: Cal AD 1040 (Cal BP 910) 1 Sigma calibrated result: Cal AD 1020 to 1080 (Cal BP 940 to 870) (68% probability) 1570+40 BP (1350+50 adjusted) Shell fr- 1400 1350- 1300 1250 1200 1150 940 1020 1040 r 1080 1060 CalAD References: Database used Marme98 Calibration Database Editorial Comment Sluiver, M., van der Plicht, H., 1998, Radiocarbon 40(3), pxii-xiii INTCAL98 Radiocarbon Age Calibration Stuiver, M., et al., 1998, Radiocarbon 40(3), pl 041-1083 Mathematics A Simplified Approach to Calibrating Cl 4 Dates Talma, A. S., Vogel, J. C, 1993, Radiocarbon 35(2), p317-322 1100 I I 1120 1140 -r 1160 1180 Beta Analytic Radiocarbon Dating Laboratory 4985 S.W. 74th Court, Miami. Florida 33155 • Tel: (305)667-5167 • Fea: (305)663-0964 • E-Mail: beta@radiocarbon.com I I I I I I I I I I I I I I I I I I I CALIBRATION OF RADIOCARBON AGE TO CALENDAR YEARS (Variables: C13/C12-l:Delta-R=225±35:Glob res=-200 to 500:lab. mult=l) Laboratory number: Beta-197207 Conventional radiocarbon age: 730±40 BP (500±50 adjusted for local reservoir correction) 2 Sigma calibrated results^: Cal AD 1690 to 1910 (Cal BP 260 to 40) and (95% probability) Cal AD 1910 to beyond 1950 (Cal BP 40 to 0) ' 2 Sigma range being quoted is the max imum antquity based on the minus 2 Sigma range Intercept data Intercept of radiocarbon age with calibration curve: Cal AD 1830 (Cal BP 120) 1 Sigma calibrated results: Cal AD 1720 to 1910 (Cal BP 240 to 40) and (68% probability) Cal AD 1910 to 1950 (Cal BP 40 to 0) fir s. <D 8" c o € o •o (0 a. 730+40 BP (500 ±50adjusted) 700 -I 1 r 650 - Shel 600 550 500- 450 400- 350 300 1600 1650 1750 1800 CalAD 1850 1900 1950 2000 References: Database used MARINE98 Calibration Database Editorial Comm ent Stuiver, M., van der Plicht, //, 1998, Radiocarbon 40(3), pxii-xiii INTCAL98 Radiocarbon Age Calibration Stuiver. M., et. at., 1998, Radiocarbon 40(3), pl041-1083 Mathematics A Simplified Approach to Calibrating C14Dates Talma, A. S., Vogel, J. C, 1993, Radiocarbon 35(2), p317-322 Beta Analytic Radiocarbon Dating Laboratory 4985 S.W. 74th Court, Miami, Florida 33155 • Tel: (305)667-5167 ' Fax: (3 05)663-0964 • E-Mail: bela@radiocarbon.com I I I I I I I I I I I I I I I I I I CALIBRATION OF RADIOCARBON AGE TO CALENDAR YEARS (Variables: C13/C12= 1.1 :Delta-R=225±35:Glob res=-200 to 500:lab. mult=l) Laboratory number: Beta-197208 Conventional radiocarbon age: 6410±40 BP (6190±50 adjusted for local reservoir correction) 2 Sigma calibrated result: Cal BC 4780 to 4550 (Cal BP 6730 to 6500) (95% probability) Intercept data Intercept of radiocarbon age with calibration curve: Cal BC 4680 (Cal BP 6630) 1 Sigma calibrated result: Cal BC 4720 to 4620 (Cal BP 6670 to 6570) (68% probability) 6350 6410±40 BP (6190±50 adjusted) Shell 4800 4780 4720 4640 4680 4660 CalBC References: Database used Marine98 Calibration Database Editorial Comment Stuiver, M., van der Plicht, H., 1998, Radiocarbon 40(3), pxii-xiii INTCAL98 Radiocarbon Age Calibration Stuiver, M., et al., 1998, Radiocarbon 40(3), pl 041-1083 Mathematics A Simplified Approach to Calibrating Cl 4 Dates Talma, A. S., Vogel, J. C, 1993, Radiocarbon 35(2), p317-322 4620 nr 4600 T r 4580 4560 4540 Beta Analytic Radiocarbon Dating Laboratory 4985 S.W. 74th Court, Miami, Florida 33155 • Tel: (305)667-5167 ' Fax: (305)663-0964 • E-Mail: beta@radiocarbon.com i I I I I I i I I 1 E I I I I I I I I CALIBRATION OF RADIOCARBON AGE TO CALENDAR YEARS o •e TO 8 1100 (Variables: C13/C12=1.4:Delta-R=225±35:Glob res=-200 to 500:lab. mult=l) Laboratory number: Beta-197209 Conventional radiocarbon age: 1140±40 BP (920±50 adjusted for local reservoir correction) 2 Sigma calibrated result: Cal AD 1340 to 1490 (Cal BP 610 to 460) (95% probability) Intercept data Intercept of radiocarbon age with calibration curve: CalAD 1430 (Cal BP 520) 1 Sigma calibrated result: Cal AD 1400 to 1450 (Cal BP 540 to 500) (68% probability) 1140±40 BP (920±50 adjusted) 1050 - 1000 - 950 -< 900 ^ ^ 850 - 800 - 750 - 700 1300 1360 "T 1380 1420 1400 CalAD References: Database used Marine98 Calibration Database Editorial Comment Stuiver, M., van der Plicht, H., 1998, Radiocarbon 40(3), pxii-xiii INTCAL98 Radiocarbon Age Calibration Stuiver, M., eL al., 1998, Radiocarbon 40(3), pl 041-1083 Mathematics A Simplifled Approach to Calibrating C14 Dates Talma, A. S.. Vogel, J. C. 1993, Radiocarbon 35(2), p317-322 1440 1460 T 1480 Shell 1500 Beta Analytic Radiocarbon Dating Laboratory 4985 S.W. 74th Court, Miami, Florida 33155 • Tel: (305)667-5167 • Fax: (305)663-0964 • E-Mail: beta@radiocarbon.com 1 I I i I I I I CALIBRATION OF RADIOCARBON AGE TO CALENDAR YEARS (Variables: C13/C12=l:Delta-R=225±35:Glob res--200 to 500:lab. mult=l) Laboratory number: Beta-197210 Conventional radiocarbon age: 800±40 BP (580±50 adjusted for local reservoir correction) 2 Sigma calibrated result: Cal AD 1650 to 1870 (Cal BP 300 to 80) (95% probability) Intercept data Intercept of radiocarbon age with calibration curve: Cal AD 1700 (Cal BP 250) 1 Sigma calibrated result: Cal AD 1670 to 1810 (Cal BP 280 to 140) (68% probability) 800±40 BP (580±50 adjusted) Shell 1620 1640 1660 1680 1700 f 1740 1760 Cal AD 1780 1800 T" 1820 1840 1860 1880 References: Database used Marine98 Calibration Database Editorial Comment Stuiver, M., van der Plicht, M., 1998, Radiocarbon 40(3), pxii-xiii INTCAL98 Radiocarbon Age Calibration Stuiver, M.. et al., 1998, Radiocarbon 40(3), pl 041-1083 Mathematics A Simplified Approach to Calibrating C14 Dates Talma, A. S., Vogel. J. C, 1993, Radiocarbon 35(2), p317-322 Beta Analytic Radiocarbon Dating Laboratory 4 9 85 S.W. 74th Court, Miami, Florida 33155 • Tel: (305)667-5167 • Fax: (3 05)663-0964 • E-Mail: beta@radiocarbon.com CALIBRATION OF RADIOCARBON AGE TO CALENDAR YEARS (Variables: C13/C12=-0.7:Delta-R=225±35:Glob res=-200 to 500:lab. mult=l) Laboratory number: Beta-197211 Conventional radiocarbon age: 5010±50 BP (4790±60 adjusted for local reservoir correction) 2 Sigma calibrated result: Cal BC 3320 to 2910 (Cal BP 5270 to 4860) (95% probability) Intercept data Intercept of radiocarbon age with calibration curve: Cal BC 3090 (Cal BP 5040) 1 Sigma calibrated result: Cal BC 3250 to 3010 (Cal BP 5200 to 4960) (68% probability) 5000 5010±50 BP (4790±60 adjusted) Shell 4550 3350 3300 3250 3200 3150 3100 CalBC References: Database used Ma rin e98 Calibration Database Editorial Comment Stuiver, M., van der Plicht, H., 1998, Radiocarbon 40(3), pxii-xiii INTCAL98 Radiocarbon Age Calibration Stuiver, M., et al, 1998. Radiocarbon 40(3), pl 041-1083 Mathematics A Simplified Approach to Calibrating CI4 Dates Talma, A. S., Voget J. C, 1993, Radiocarbon 35(2), p317-322 3050 3000 r 2950 2900 Beta Analytic Radiocarbon Dating Laboratory 4985 S.W. 74th Court, Miami, Florida 33155 • Tel: (305)667-5167 ' Fax: (305)663-0964 ' E-MaU: beta@ radiocarbon com CALIBRATION OF RADIOCARBON AGE TO CALENDAR YEARS 3450 (Variables: C13/C12=-0.5:Delta-R-225±35:Glob res=-200 to 500:lab. mult=l) Laboratory number: Beta-197212 Conventional radiocarbon age: 3480±40 BP (3260±50 adjusted for local reservoir correction) 2 Sigma calibrated result: Cal BC 1270 to 990 (Cal BP 3220 to 2940) (95% probability) Intercept data Intercept of radiocarbon age with calibration curve: Cal BC 1120 (Cal BP 3080) 1 Sigma calibrated result: CalBC 1210 to 1050 (Cal BP 3160 to 3000) (68% probability) 3480±40 BP (3260±50 adjusted) Shell 3050 -t 1 I I 1300 1250 1200 1150 1100 1050 CalBC References: Database used Marine98 Calibration Database Editorial Comment Stuiver, M., van der Plicht, H., 1998, Radiocarbon 40(3), pxii-xiii INTCAL98 Radiocarbon Age Calibration Stuiver, M., et at., 1998, Radiocarbon 40(3), pl 041-1083 Mathematics A Simplified Approach to Calibrating Cl 4 Dates Talma, A. S., Vogel, J. C, 1993, Radiocarbon 3 5(2). p317-322 1000 950 Beta Analytic Radiocarbon Dating Laboratory 4985 S.W. 74th Court, Miami, Florida 33155 • Tel: (305)667-5167 • Fax: (305)663-0964 • E-Mail: beta@radiocarbon.com 1 BETH Consistent Accuracy Delivered On Time. Beta Analytic Inc. MR. DARDEN HOOD 4985 SW 74 Court Director Miami, Florida 33155 USA Fax: 305 663 0964 Deputy Directors beta@radiocarbon.com www.radiocarbon.com December 6, 2004 Mr. Dennis R, Gallegos Gallegos and Associates 5671 Palmer Way, Suite A Carlsbad, CA 92008 USA RE: Radiocarbon Dating Results For Samples 8694-76, 8694-305, 8694-606A, 8694-606B Dear Dennis: Enclosed are the radiocarbon dating results for four samples recently sent to us. They each provided plenty of carbon for accurate measurements and all the analyses went normally. As usual, the method of analysis is listed on the report with the results and calibration data is provided where applicable. As always, no students or intern researchers who would necessarily be distracted with other obligations and priorities were used in the analyses. We analyzed them with the combined attention of our entire professional staff. If you have specific questions about the analyses, please contact us. We are always available to answer your questions. Our invoice is enclosed. Please, forward it to the appropriate officer or send VISA charge authorization. Thank you. As always, if you have any questions or would like to discuss the results, don't hesitate to contact me. Sincerely, BETA ANALYTIC INC. DR. M.A. TAMERS and MR. D.G. HOOD UNIVERSITY BRANCH 4985 S.W. 74 COURT MIAMI, FLORIDA, USA 33155 PH: 305/667-5167 FAX: 305/663-0964 E-MAIL: beta@radiocarbon.com I REPORT OF RADIOCARBON DATING ANALYSES Mr. Dennis R. Gallegos Report Date: 12/6/2004 ] Gallegos and Associates Material Received: 11/4/2004 I I Sample Data Measured Radiocarbon Age 13C/12C Ratio Conventional Radiocarbon Age(*) n I 0 i- n i Beta - 197593 SAMPLE: 8694-76 6630 +/- 60 BP +1.3 o/oo 7070 +/- 70 BP MATERIAL/PRETREATMENT : (shell): acid etch 2 SIGMA CALIBRATION : Cal BC 5550 to 5280 (Cal BP 7500 to 7230) 5900+/-40 BP m ANALYSIS : RadiometrioStandard delivery ^ Beta- 197594 SAMPLE: 8694-305 flj ANALYSIS : AMS-Standard delivery W MATERIAL/PRETREATMENT: (shell): acid etch 2 SIGMA CALIBRATION : Cal BC 4690 to 4450 (Cal BP 6640 to 6400) ff +0.8 o/oo 6320 +/- 40 BP Beta- 197595 SAMPLE: 8694-606A 1050+/-60 BP +1.0 o/oo 1480+/-70 BP U ANALYSIS : Radiometrio-Standard delivery (with extended coimting) MATERIAL/PRETREATMENT: (shell): acid etch 2 SIGMA CALIBRATION : Cal AD 1000 to 1300 (Cal BP 950 to 650) Beta- 197596 SAMPLE: 8694-606B 270 +/- 40 BP +2.0 o/oo 710+/-40 BP U ANALYSIS : AMS-Standard delivery I MATERIAL/PRETREATMENT: (sheU): acid etch 2 SIGMA CALIBRATION : Cal AD 1690 to 1910 (Cal BP 260 to 40) AND Cal AD 1910 to beyond 1950 (Cal BP 40 to 0) Dates are reported as RCYBP (radiocarbon years before present, "present" = 1950A.D.). By International convention, the modern reference standard was 95% of the C14 content of the Nalional Bureau of Standards' Oxalic Acid & calculated using the Libby C14 half life (5568 years). Quoted errors represent 1 standard deviation statistics (68% probability) & are based oh combined measurements of the sample, background, and modern reference standards. Measured C13/C12 ratios were calculated relafive to the PDB-1 international standard and the RCYBP ages were normalized to -25 per mil. If the ratio and age are accompanied by an (*), then the C13/C12 value was estimated, based on values typical of the material type. The quoted results are NOT calibrated to calendar years. Calibration to calendar years should be calculated using the Conventional C14 age. CALIBRATION OF RADIOCARBON AGE TO CALENDAR YEARS (Variables: C1 3/C12= 1.3 :Delta-R=225±35:Glob res=-200 to 500 :lab. mult= 1) Laboratory number: Beta-197593 Conventional radiocarbon age: 7070±70 BP (6850±80 adjusted for local reservoir correction) 2 Sigma calibrated result: CalBC 5550 to 5280 (Cal BP 7500 to 7230) (95% probability) Intercept data Intercept of radiocarbon age with calibration curve: Cal BC 5420 (Cal BP 7370) 1 Sigma calibrated result: CalBC 5480 to 5340 (CalBP 7420 to7290) (68% probability) 7070±70 BP (6850±80adjusted) Shell 5600 5550 5500 5450 5400 Cal BC 5350 5300 5250 5200 References: Database used MARINE98 Calibration Database Editorial Comment Stuiver, M., van der Plicht, H., 1998, Radiocarbon 40(3), pxii-xiii INTCAL98 Radiocarbon Age Calibration Stuiver. M.. et. al., 1998, Radiocarbon 40(3), pl041 -1083 Math em atics A Simplified App roach to Calibrating C14 Dates Talma, A. S.. Vogel, J. C, 1993, Radiocarbon 35(2), p317-322 Beta Analytic Radiocarbon Dating Laboratory 4985 S. W. 74th Court, Miami, Florida 33155 • Tel: (305)667-5167 • Fax: (305)663-09 6 4 • E-Mail: beta@radiocarbon.com CALIBRATION OF RADIOCARBON AGE TO CALENDAR YEARS (Variables: Cl 3/C12=0.8 :Delta-R=225±35:Glob res=-200 to 500:lab. mult=l) Laboratory number: Beta-197594 Conventional radiocarbon age: 6320±40 BP (6100±50 adjusted for local reservoir correction) 2 Sigma calibrated result: CalBC 4690 to 4450 (Cal BP 6640 to 6400) (95% probability) Intercept data Intercept of radiocarbon age with calibration curve: CalBC 45 70 (Cal BP 6520) 1 Sigma calibrated result: CalBC 4640 to 4510 (Cal BP 6590 to6460) (68% probability) 6320+40 BP (6100+50adjusted) Shell 6300-1 1 r I I I I I I I I 4700 4680 4660 4640 4620 4600 4580 4560 Cal BC 4540 4520 4500 4480 4460 4440 References: Database used MA RINE 98 Calibration Database Editorial Comment Stuiver, M., van der Plicht, H., 1998, Radiocarbon 40(3), pxii-xiii INTCAL98 Radiocarbon Age Calibration Stuiver. M.. et. al, 1998. Radiocarbon 40(3), pl041 -1083 Math em atics A S impl ifl ed App roach to Calibrating C14 Dates Talma, A. S., Vogel J. C, 1993, Radiocarbon 35(2), p317-322 Beta Analytic Radiocarbon Dating Laboratory 4985S.W. 74th Court, Miami, Florida 33155 • Tel: (305)667-5167 ' Fax: (305)663-0964 • E-Mail: beta@radiocarbon.com I 1 I t I t I I i t I I I I I I 1 1 I CALIBRATION OF RADIOCARBON AGE TO CALENDAR YEARS (Variables: C13/C12=l :Delta-R=225±35:Glob res=-200 to 500:lab. mult=l) Laboratory number: Beta-197595 Conventional radiocarbon age: 1480±70 BP (1260±80 adjusted for local reservoir correction) 2 Sigma calibrated result: Cal AD 1000 to 1300 (Cal BP 950 to 650) (95% probability) Intercept data Intercept of radiocarbon age with calibration curve: Cal AD 1160 (Cal BP 790) 1 Sigma calibrated result: CalAD 1050 to 1240 (Cal BP 900 to 710) (68% probability) OL CO c o •G 8 o 1550 1480±70 BP (1260±80adjusted) T T 1100 Cal AD 1150 1200 1250 References: Database used MA RINE98 Calibration Database Editorial Comment Stuiver, M., van der Plicht, H., 1998, Radiocarbon 40(3), pxii-xiii JNTCAL98 Radiocarbon Age Calibration Stuiver, M.. et. al, 1998, Radiocarbon 40(3), pI041 -1083 Math em atics A Simplifled App roach to Calibrating Cl 4 Dates Talma. A. S., Vogel J. C. 1993, Radiocarbon 35(2), p317-322 Shell 1300 Beta Analytic Radiocarbon Dating Laboratory 4985 S. W. 74th Court, Miami, Florida33155 • Tel: (3 05)667-5167 • Fax: (305)663-09 64 • E-Mail: beta@radiocarbon.com I I I I I t 1 t I I I I I I 1 I I I I CALIBRATION OF RADIOCARBON AGE TO CALENDAR YEARS (Variables: Cl 3/C 12=2:Delta-R=225±35:Glob res=-200 to 500:lab. mult=l ) Laboratory number: Beta-197596 Conventional radiocarbon age: 710±40 BP (490±50 adjusted for local reservoir correction) 2 Sigma calibrated results^: CalAD 1690 to 1910 (CalBP 260 to 40) and (95% probability) CalAD 1910 to beyond 1950 (Cal BP 40 to 0) ' 2 Sigma range being quoted is the maximum antiquity based on the minus 2 Sigma range Intercept data Intercept of radiocarbon age with calibration curve: CalAD 1840 (Cal BP 110) 1 Sigma calibrated results^ CalAD 1730 to 1730 (Cal BP 220to220)and (68% probability) CalAD 1760 to 1780 (Cal BP 190 to 1 70) and CalAD 1800 to 1910 (Cal BP 150 to 40) and CalAD 1910 to beyond 1950 (Cal BP 40 toO) ' 1 Sigma range being quoted is the maxim um antiquity based on the m inus 1 Sigma range 710±40 BP (490+50 adjusted) Shell 650 600 550 Q. CO O TO a. 500 450 ^ 400- 350- 300- 250 1600 1800 Cal AD 1900 1950 References: Database used MARINE98 Calibration Database Editorial Comment Stuiver, M., van der Plicht, H., 1998, Radiocarbon 40(3), pxii-xiii INTCAL98 Radiocarbon Age Calibration Stuiver. M.. et. al. 1998. Radiocarbon 40(3), pl041-1083 Math em atics A Simplified Approach to Calibrating C14 Dates Talma, A. S., Vogel J. C, 1993, Radiocarbon 35(2), p317-322 2000 Beta Analytic Radiocarbon Dating Laboratory 4985 S.W. 74th Court, Miami, Florida 33 1 55 • Tel: (305)667-5167 'Fax: (305)663-0964 ' E-Mail: beta@radiocarbon.com BETA ANALYTIC INC. DR. M.A. TAMERS and MR. D.G. HOOD UNIVERSITY BRANCH 4985 S.W. 74 COURT MIAMI, FLORIDA, USA 33155 PH: 305/667-5167 FAX: 305/663-0964 E-MAIL: beta@radiocarbon.com I W Mr. Dennis R. Gallegos H Gallegos and Associates I Sample Data 1 REPORT OF RADIOCARBON DATING ANALYSES Report Date: 1/26/2005 Measured Radiocarbon Age ,Beta- 199586 SAMPLE: 8797-106 3170+/-40 BP ANALYSIS: AMS-Standard delivery MATERIAL/PRETREATMENT: (sheH): acid etch 2 SIGMA CALIBRATION : Cal BC 1400 to 1160 (Cal BP 3360 to 3110) 13C/12C Ratio .5 o/oo Material Received: 12/20/2004 Conventional Radiocarbon Age(*) 3600 +/- 40 BP I I 1 I I « I I t r I I Dates are reported as RCYBP (radiocarbon years before present, •present" = 1950A.D.). By Intemational convention, the modem reference standard was 95% of the C14 content of the Nalional Bureau of Standards' Oxalic Acid & calculated using the Libby C14 half life (5568 years). Quoted errors represent 1 standard deviation statistics (68% probability) & are based on combined measurements of the sample, background, and modem reference standards. Measured C13/C12 ratios were calculated relative to the PDB-1 international standard and the RCYBP ages were normalized to -25 per mil. If th 3 ratio and age are accompanied by an (*). then the C13/C12 valu&was estimated, based on values typical of the material type, the quoted results are NOT calibrated to calendar years. Calibrat^n to calendar years should be calculated using the Convenfionfeil C14 age. I I I I I 1 I I I 1 I I I 1 I I I I I CALIBRATION OF RADIOCARBON AGE TO CALENDAR YEARS (Variables: Cl 3/C 12=1.5 :Delta-R=225±3 5 :Glob res=-200 to 500:lab. mult=l) Laboratory number: Beta-199586 Conventional radiocarbon age: 3600±40 BP (3380±50 adjusted for local reservoir correction) 2 Sigma calibrated result: Cal BC 1400 to 1160 (Cal BP 3360 to 3110) (95% probability) Intercept data Intercept of radiocarbon age with calibration curve: Cal BC 1300 (Cal BP 325 0) 1 Sigma calibrated result: Cal BC 1370 to 1 250 (Cal BP 3320 to 3200) (68% probability) 3600±40 BP (3380+50 adjusted) 3550 -I 1 1 1 Shell 3500 - 3200 - 3150 1420 1400 1360 1300 1280 Cal BC —1 1 1220 1200 1180 1160 References: Database used MARINE 98 Calibration Database Editorial Comm ent Stuiver, M., van der Plicht, H., 1998, Radiocarbon 40(3), pxii-xiii INTCAL98 Radiocarbon Age Calibration Stuiver, M., et. al, 1998, Radiocarbon 40(3), pl041-1083 Mathematics A Simplified Approach to Calibrating C14Dates Talma, A. S., Vogel J. C.,.1993, Radiocarbon 35(2), pi/7-522 Beta Analytic Radiocarbon Dating Laboratory 4985 S.W. 74th Court, Miami, Florida 33155 • Tel: (305)667-5167 • Fax: (3 05)663-0964 • E-Mail: bela@radio carbon 5671 Palmer Way, Suite A Carlsbad, Califomia 92008 (760) 929-0055 G A LL EG OS & Associates 04-300-118 October 26, 2004 Beta Analytic, Inc. University Branch 4985 S.W. 74 Court Miami, Florida 33155 Re: Shell samples from CA-SDI-8303 San Diego, Califomia Dear Beta: Please fmd enclosed four samples of marine shell from CA-SDI-8303 (specimens 8303- 66A, 8303-66B, 8303-256A and 8303-256B) for AMS analysis. The sites age is uncertain but likely less than 1000 years. Please notify our office by fax (760-929-0056) or Email (Gallegos@aoI.com)-as soon as results are known. Thank you. Tracy A. Stropes Lab Director BETA ANALYTIC INC. DR. M.A. TAMERS and MR. D.G. HOOD 4985 S.W. 74th COURT MIAMI. FLORIDA .U.S.A. 33155 TELE: (01) 305.667-5167 FAX: (01) 305-663-096 E-MAIL: beta@radiocarbon.com WEB SITE: http://www.radiocarbon.com. RADIOCARBON SAMPLE DATA SHEET Please contact us at any time for advice, assistance or discussion of results. SUBMITTER NAME: Q^C»X \^M^->^ C-C^^^ ADDRESS: 6 ^ \ ..p^ 1 »»AJLir- I i3 O^Cj ^ i?fcy . /\ DATE: TELEPHONE: ( ^feO) ^ - Qp^^oT E-MAIL: ^ ^ U-f ij^ Q OcO'L.g^Wl FAX: rOfeO^ H^^ ' t>0 ^ 4P PUSJCHASE ORDER #: • CREDIT CARD #: (PLEASE PROVIDE BILUNG ADDRESS ON BACK) EXP DATE: MM /m YOURSAiVIPLE CODE NUMBER: ^IQI ?i—16|6i.Ai I I I PLEASE CHOOSE <- 12 INITIAL CHARACTERS TO APPEAR ON THE DATE REPORT SHEET INSTRUCTIONS TO LABORATORY TECHNIQUE: •RADIOMETRIC S<^CCELERATOR MASS SPECTROMETRY (AMS) DELIVERY (^^TANDARD SERVICE: (RAOioMErolt 30 BUSINESS DAYS) (AMS 30 BUSINESS DAYS) • ADVANCE (RADIOMETRIC 14 BUSINESS DAYS) (AMS 14 BUSINESS DAYS) • PRIORITY y\22} TIME GUIDE (6 BUSINESS DAYS) RADIOMETRIC ONLY \2-3 BUSINESS DAYS) RADIOMETRIC ONLY STABLE ISOTOPE RATIOS: • 013/12 (OPTIONAL FOR RADIOMETRIC/INCLUDED WR-HAMS) • 018/16 (CARBONATES (REQUIRED FOR GROUNDWATER) ONLY) COMPLEX / NON-STANDARD SERVICES: ADDITIONAL FEES APPLY • SEM (SCANNING ELECTRON MICROSCOPY) SPECIAL REQUESTS: (ADDmONAL SPACE ON REVERSE) • EXTENDED COUNTING (OPTIMAL OR ENHANCED PRECISION) • WOOD CELLULOSE (EXTRACTION) • BULK/LOW CARBON MATERIALS (SEDIMENTS AND BULK CARBONATES) • BONE COLLAGEN EXTRACTION (COLLAGEN FRACTION) SAMPLE MATERIAL WEIGHT: _ ESTIMATED AGE:. IF CARBONATE: GENERAL GEOGRAPHIC LOCATION:. JVIARINE .FRESHWATER (FOR CALIBRATION PURPOSES) EVIDENCE OF CONTAMINATION:. (ROOT PENETRATION, LEACHING. HUMIC ACIDS. ETC.) COLLECTION.TREATMENT AND STORAGE PROCEDURES: ^ncJOLh vjqL^MliU ) BETA ANALYTIC INC. DR. M.A. TAMERS and MR. D.G. HOOD 4985 S.W. 74th COURT MIAMI. FLORIDA U.S.A. 33155 TELE: (01) 305-667-5167 FAX: (01) 305-663-0 E-MAIL: beta@radiocarbon.com WEB SITE: http://www.radiocarbon.com. SUBMITTER NAME: RADIOCARBON SAMPLE DATA SHEET Please contact us at any time for advice, assistance or discussion of results. ME: QzdU^I^ ^^^Cih^e.^ DATF:: JtiQ -Qb^C ADDRESS: \ .P/t 1 MAJg.lT- I k) 6^L^ -^YiJ^^ f ' • • ^ . TELEPHONE: ('^hO) E-MAII : ^ ^ ^ ^ ^ < ^£MrL_ FAX: (2tba) fi2L ^r 'C>0^ (=> PURCHASE ORDER #: • .. - CREDIT CARD #: (PLEASE PROVIDE BILUNQ ADDRESS ON BACK) EXP DATE: __MM_I\R_ YOUR .SAMPLE CODE NUMBER: ^ 1^ lO i3 (- 6i I I I I PLEASE CHOOSE <- 12 INITIAL CHARACTBRS TO APPEAR ON THE DATE REPORT SHEET INSTRUCTIONS TO LABORATORY ADDITIONAL LABELING IF NEEDED TECHNIQUE: •RADIOMETRIC I3<<XCCELERAT0R MASS SPECTROMETRY (AMS) DELIVERY (^^TANDARD SERVICE: (RADIOMETRIC 30 BUSINESS DAYS) (AMS 30 BUSINESS DAYS) • ADVANCE (RADIOMETRIC 14 BUSINESS DAYS) (AMS 14 BUSINESS DAYS) • PRIORITY (6 BUSINESS DAYS) RADIOMETRIC ONLY ^•TIME GUIDE (P-3 BUSINESS DAYS) RADIOMETRIC ONLY STABLE ISOTOPE RATIOS: • 013/12 (OPTIONALFOR RADIOMETRIC/INCLUDED WTTHAMS) •0I8/I6 (CARBONATES (REQUIRED FOR GROUNDWATER) ONLY) I COMPLEX / NON-STANDARD SERVICES: AODmoNAL FEES APPLY • SEM (SCANNING ELECTRON MICROSCOPY) SPECIAL REQUESTS: (ADOmONAL SPACE ON REVERSE) • EXTENDED COUNTING (OPTIMAL OR ENHANCED PRECISION) • WOOD CELLULOSE (EXTRACTION) • BULK/LOW CARBON MATERIALS (SEDIMENTS AND BULK CARBONATES) • BONE COLLAGEN EXTRACTION (COLLAGEN FRACTION) SAMPLE MATERIAI: SKkoi)!} Xt^ri&.JC ^ WEIGHT:. ESTIMATED AGE: GENERAL GEOGRAPHIC LOCATION: OA> AS> b(0^ Cj\ (FOR CALIBRATION PURPOSES) IF CARBONATE: -MARINE .FRESH WATER EVIDENCE OF CONTAMINATION:. (ROOT PENETRATION, LEACHING. HUMIC ACIDS. ETC.) COLLECTION,TREATMENT AND STORAGE PRQCFDURFS: F^^jZA cA[iUJ:cA • S]~C(l±Jl\ \ Tn BETA ANALYTIC INC. DR. M.A. TAMERS and MR. D.G. HOOD 4985 S.W. 74th COURT MIAMI, FLORIDA U.S.A. 33155 TELE: (01) 305-667-5167 FAX: (01) 305-663-0964 E-MAIL: betaSradiocarbon.com WEB SITE: http://www.radiocarbon.com. RADIOCARBON SAMPLE DATA SHEET Please contact us at any time for advitx, assistance or discussion of results. SUBMITTER NAME: :^A <L.C DATE: ADDRESS: & ^ ^ I -PA I ij/ULiT- I i) 10 ,-0.6 ^OU TELEPHONE: ('^Mi'^) ^ - OQ^>y E-MA.IL FAX: i'^^^ ) ^ ^ ^ ^ PIS?CHASE ORDER #: CREDIT CARD #: (PLEASE PROVIDE BILUNG ADDRESS ON BACK) EXP DATE: MM / YR YOUR .SAMPLE CODE NUMBER: l^lOl^|-i:2-|^4lAl I PLEASE CHOOSE <- 12 INITIAL CHARACTERS TO APPEAR ON THE DATE REPORT SHEET ADDmONAL LABELING IF NEEDED INSTRUCTIONS TO LABORATORY TECHNIQUE: •RADIOMETRIC ig<W;CELERATOR MASS SPECTROMETRY (AMS) DELIVERY (^JSTANDARD SERVICE: (RAOi^Erafc 30 BUSINESS DAYS) (AMS 30 BUSINESS DAYS) • ADVANCE (RADIOMETRIC 14 BUSINESS DAYS) (AMS 14 BUSINESS DAYS) • PRIORITY ^.Q TIME GUIDE (6 BUSINESS DAYS) RADIOMETRIC ONLY "(2-3 BUSINESS DAYS) RADIOMETRIC ONLY STABLE ISOTOPE RATIOS: • Cl 3/12 (OPTIONAL FOR RADIOMETRIC / INCLUDED WfTH AMS) • 018/16 (CARBONATES ONLY) (REQUIRED FOR GROUNDWATER) COMPLEX / NON-STANDARD SERVICES: AODmoNAL FEES APPLY • SEM (SCANNING ELECTRON MICROSCOPY) • EXTENDED COUNTING (OPTIMAL OR ENHANCED PRECISION) • WOOD CELLULOSE (EXTRACTION) • BULK/LOW CARBON MATERIALS (SEDIMENTS ANO BULK CARBONATES) • BONE COLLAGEN EXTRACTION (COLLAGEN FRACTION) SPECIAL REQUESTS: _ (ADDmONAL SPACE ON REVERSE) SAMPLE MATERIAL: _ WEIGHT: _ 5- ESTIMATED AGE GENERAL GEOGRAPHIC LOCATION: (FOR CALIBRATION PURPOSES) IF CARBONATE: MARINE FRESH WATER EVIDENCE OF CONTAMINATION:. (ROOT PENETRATION, LEACHING, HUMIC ACIDS. ETC.) ^ f) /\ I \ COLLECTION.TREATMENT AND ^STORAGE PROCEDURES: t ^ \ CJ^xi}J2,•^Jt-^ t-SfOAJL-A N rv id BETA ANALYTIC INC. DR. M.A. TAMERS and MR. D.G. HOOD 4985 S.W. 74th COURT MIAMI. FLORIDA U.S.A. 33155 TELE: (01) 305-667-5167 FAX: (01) 305-663-0964 E-MAIL: betaaYadiocarbon.com WEB SITE: http://www.radiocarbon.com RADIOCARBON SAMPLE DATA SHEET Please contact us at any time for advice, assistance or discussion of results. JBMITTER MAMF- (^^^gJt A^^^ cii ADDRESS: _ DATE: ^TELEPHONE: (^ \ - 00^^^ P-MAII ^ ^ ^ .P ^ <^0'L.gir%vi^ FAX: ("^tfeO ) ^ r>0^ 4> ptSiCHASE ORDER # CREDIT CARD #: (PLEASE PROVIDE BILUNG ADDRESS ON BACK) EXP DATE: MM / YB YOUR SAMPLE CODE NUMBER: PLEASE CHOOSE <- 12 INITIAL CHARACTERS TO APPEAR ON THE DATE REPORT SHEET ADDITIONAL LABELING IF NEEDED INSTRUCTIONS TO tABORATORV TECHNIQUE: •RADIOMETRIC ig<i^CELERATOR MASS SPECTROMETRY (AMS) DELIVERY (^^^TANDARD SERVICE: (RAoiS^ErSlt 30 BUSINESS DAYS) (ms 30 BUSINESS DAYS) • ADVANCE (RADIOMETRIC 14 BUSINESS DAYS) (AMS 14 BUSINESS DAYS) • PRIORITY /• TIME GUIDE (6 BUSINESS DAYS) RADIOMETRIC ONLY •(2-3 BUSINESS DAYS) RADIOMETRIC ONLY STABLE ISOTOPE RATIOS: I IC13/12 (OPTIONAL FOR RADIOMETRIC / INCLUDED WH AMS) •dl8/16 (CARBONATES ONLY) (REQUIRED FOR GROUNDWATER) COMPLEX / NON-STANDARD SERVICES: APDmoNAL FEES APPLY • SEM (SCANNING ELECTRON MICROSCOPY) • EXTENDED COUNTING (OPTIMAL OR ENHANCED PRECISION) • WOOD CELLULOSE (EXTRACTION) • BULK/LOW CARBON MATERIALS (SEDIMENTS AND BULK CARBONATES) • BONE COLLAGEN EXTRACTION (COLLAGEN FRACTION) SPECIAL REQUESTS: _ (ADOmONAL SPACE ON REVERSE) SAMPLE MATERIAL WEIGHT: Q. ESTIMATED AGE IF CARBONATE: GENERAL GEOGRAPHIC LOCATION (FOR CALIBRATION PURPOSES) e>4 .MARINE .FRESH WATER EVIDENCE OF CONTAMINATION: (ROOT PENETRATION. LEACHING. HUMIC ACIDS. ETC.) COLLECTION,TREATMENT AND STORAGE PROCEDURES ^ cAi (UJ2^ j^llAJzJ (V \^(\rx . (p/tLAcc_ v^^^ \)<bj 9.h-^(\^ 5671 Palmer Way, Suite A Carlsbad, Califomia 92008 (760) 929-0055 G A L L E G O S & Associates 04-300-117 October 26, 2004 Beta Analytic, Inc. University Branch 4985 S.W. 74 Court Miami, Florida 33155 Re: Shell samples from CA-SDI-8797 San Diego, Califomia Dear Beta: Please find enclosed three samples of marine shell from CA-SDI-8797 (specimens 8797- 110, 8797-99, and 8797-86) for AMS analysis. The site is believed to be greater than 1000 years old. Please notify our office by fax (760-929-0056) or Email (Gallegos(gaol.com) as soon as results are known. Thank you. Tracy A. Sfropes Lab Director BETA ANALYTIC INC. DR. M.A. TAMERS and MR. D.G. HOOD 4985 S.W. 74th COURT MIAMI, FLORIDA U.S.A. 33155 TELE: (01) 305-667-5167 FAX: (01) 305-663-0964 E-MAIL: beta^radiocarbon.eom WEB SITE: http://www.radiocarbon.com. RADIOCARBON SAMPLE DATA SHEET Please contact us at any time for advice, assistance or discussion of results. SUBMITTER NAME: f^lUj^-^y ^fi^^ CxM^^ DATE: Jt lO ^ S^ ^ .r-Q ADDRESS: B A^l PA^V- I jd O^i^ ^i^/' ; TELEPHONE: ( H> ^ ^'^>^ E-MAJL:. ^ A-ll-e^ O^ FAX: i^^^) ^0^ (=> PURCHASE ORDER*: - CREDIT CARD #: EXP DATE: MM / YR (PLEASE PROVIDE BILUNG ADDRESS ON BACK) YOUR SAMPLE CODE NUMBER: % 1?-!^ iT-l-l-^l^l lllll PLEASE CHOOSE <- 12 INITIAL CHARACTERS TO APPEAR ON THE DATE REPORT SHEET ADDmONAL LABELING IF NEEDED INSTRUCTIONS TO LABORATORY TECHNIQUE: •RADIOMETRIC S^CELERATOR MASS SPECTROMETRY (AMS) DELIVERY (^^TANDARD SERVICE: (RADIOMETSR; 30 BUSINESS DAYS) (AMS 30 BUSINESS DAYS) • ADVANCE (RADIOMETRIC 14 BUSifNESS DAYS) (AMS 14 BUSINESS DAYS) • PRIORITY ^.Q TIME GUIDE (6 BUSINESS DAYS) RADIOMETRIC ONLY T2-3 BUSINESS DAYS) RADIOMETRIC ONLY STABLE ISOTOPE RATIOS: • 013/12 (OPTIONAL FOR RADIOMETRIC / INCLUDED WITH AMS) • 018/16 (CARBONATES ONLY) (REQUIRED FOR GROUNDWATER) COMPLEX / NON-STANDARD SERVICES: APPrrioNAL FEES APPLY • SEM (SCANNING ELECTRON MICROSCOPY) • EXTENDED COUNTING (OPTIMAL OR ENH/^NCED PRECISION) • WOOD CELLULOSE (EXTRACTION) • BULK/LOW CARBON MATERIALS ("SEDIMENTS AND BULK CARBONATES) • BONE COLLAGEN EXTRACTION (COLLAGEN FRACTION) SPECIAL REQUESTS: _ (ADOmONAL SPACE ON REVERSE) SAMPLE MATERIAL WEIGHT: 3L1 ESTIMATED AGE: IF CARBONATE: JVIARINE GENERAL GEOGRAPHIC LOCATION: (FOR CALIBRATION PURPOSES) (^^•t^iUJ^L-/_il, CJI\ .FRESH WATER EVIDENCE OF CONTAMINATION: (ROOT PENETRATION. LEACHING. HUMIC ACIDS. ETC.) COLLECTIQN.TREATMENT AND STORAGE PROCEDURES .^'pj^A^ CAIOJAAji^rcKjJ\ I u BETA ANALYTIC INC. DR. M.A. TAMERS and MR. D.G. HOOD 4985 S.W. 74th COURT MIAMI. FLORIDA U.S.A. 33155 TELE: (01) 305-667-5167 FAX: (01) 305-663-0964 E-MAIL: beta@radiocarbon.com WEB SITE: http://vmw.radiocarbon.com. RADIOCARBON SAMPLE DATA SHEET Please contact us at any time for advice, assistance or discussion of results. SUBMITTER NAME: (^gd Uy^ ^^Pfe^^ C-M^ S> DATE: S.i O "^'^ <^ ^ ADDRESS: A \ PA \ I jQ A ' ^^A.JL,SA^ /^2^0^ TELEPHONE: (^Av^^ ^ ^, - Q0\^ E-MAJL:. ^ d 11:^.^ fV^.^ ^^^O'L^^l^^^ . FAX: ('^.•^) ^ ^ ^ PUERCHASE ORDER #: , ' .. ^ .. CREDIT CARD #: EXP DATE: MM / YR (PLEASE PROVIDE BILLING ADDRESS ON BACK) YOUR SAMPLE CODE NUMBER: ^i^iq i-^i-A 1^ PLEASE CHOOlSE <- 12 INmAL CHARACI CTERS TO APPEAR ON THE DATE REPORT SHEET ADDITIONAL LABELING IF NEEDED INSTRUCTIONS TO LABORATORY TECHNIQUE: •RADIOMETRIC S^CELERATOR MASS SPECTROMETRY (AMS) DELIVERY (^^^TANDARD SERVICE: (RADi^^Erot 30 BUSINESS DAYS) (AMS 30 BUSINESS DAYS) • ADVANCE (RADIOMETRIC 14 BUSINESS DAYS) (AMS 14 BUSINESS DAYS) • PRIORITY ^.Q TIME GUIDE (6 BUSINESS DAYS) RADIOMETRIC ONLY •(2-3 BUSINESS DAYS) RADIOMETRIC ONLY STABLE ISOTOPE RATIOS: I IC13/12 (OPTIONAL FOR RADIOMETRIC / INCLUDED wrrn AMS) •0I8/I6 (CARBONATES ONLY) (REQUIRED FOR GROUNDWATER) COMPLEX / NON-STANDARD SERVICES: APpmoNAL FEES APPLY • SEM (SCANNING ELECTRON MICROSCOPY) Q EXTENDED COUNTING (OPTIMAL OR ENHANCeO PRECISION) O WOOD CELLULOSE (EXTRACTION) • BULK/LOW CARBON MATERIALS (SEDIMENTS AND BULK CARBONATES) • BONE COLLAGEN EXTRACTION (COLLAGEN FRACTION) SPECIAL REQUESTS: _ (ADDmONAL SPACE ON REVERSE) SAMPLE MATERIAL WEIGHT: _ ESTIMATED AGE > ( ooO IF CARBONATE: GENERAL GEOGRAPHIC LOCATION (FOR CALIBRATION PURPOSES) .MARINE .FRESH WATER EVIDENCE OF CONTAMINATION: (ROOT PENETRATION, LEACHING. HUMIC ACIDS, ETC.) COLLECTIQN.TREATMENT AND STORAGE PROCEDURES :OLLECT|.ON,TREATMENT AND STORAGE PROCEDURES: \ -V<_^^ U^CA-^'^-^^'^.J^-^^ j ^^-^^ P^./^ vj>(^Kyt-.V ,0^ di2^- ^'CDQ^ BETA ANALYTIC INC, DR. M.A. TAMERS and MR. D.G. HOOD 4985 S.W. 74th COURT MIAMI. FLORIDA U.S.A. 33155 TELE: (01) 305-667-5167 FAX: (01) 305-653-0964 E-MAIL: betaSradiocarbon.com WEB SITE: http://www.radiocarbon.com. RADIOCARBON SAMPLE DATA SHEET Please contact us at any time for advice, assistance or discussion of results. SUBMITTER NAME: ^ik^->> \^&C.ii^^^ DATE: ^^.f D - O U| ADDRESS: _5 ^ ^ pnl^V^ \ L> C^i-^ A • TELEPHONE: (:^__a^La^rO^S£- E-MAIL:: ^ ^ 1 If n\ ^CX^oL^X^ FAX: {^\hO} ^1.^ " PQ^^ PtlKCHASE ORDER #: CREDIT CARD #: EXP DATE: MM/YR (PLEASE PROVIDE BILUNG ADDRESS ON BACK) YOUU SAMPLE CODE NUMBER: PLEASE CHOOSE <- 12 INITIAL CHARACTERS TO APPEAR ON THE DATE REPOR^I^T INSTRUCTIONS TO LABORATORY HHH ADDmONAL LABELING IF NEEDED TECHNIQUE: • RADIOMETRIC S^CELERATOR MASS SPECTROMETRY (AMS) DELIVERY (^^TANDARD SERVICE: (RADI^IET^ 30 BUSINESS DAYS) (AMS 30 BUSINESS DAYS) • ADVANCE (RADIOMETRIC 14 BUSINESS DAYS) (AMS 14 BUSINESS DAYS) • PRIORITY TIME GUIDE (6 BUSINESS DAYS) RADIOMETRIC ONLY •{2-3 BUSINESS DAYS) RADIOMETRIC ONLY <5TARI F ISOTOPE RATIOS- ^013/12 (OPTIONAL FOR RADIOMETRIC/INCLUDED WITH AMS) •dl8/16 (CARBONATES ONLY) OlrtDUt i^viwri- . - (REQUIRED FOR GROUNDWATER) COMPLEX / NON-STANDARD SERVICES: APPmoNAL FEES APPLY • SEM (SCANNING ELECTRON MICROSCOPY) SPECIAL REQUESTS: (/UDDmON/U. SPACE ON REVERSE) • EXTENDED COUNTING (OPTIMAL OR ENHANCED PRECISION) • WOOD CELLULOSE (EXTRACTION) • BULK/LOW CARBON MATERIALS (SEDIMENTS AND BULK CARBONATES) • BONE COLLAGEN EXTRACTION (COLLAGEN FRACTION) SAMPLE MATERIAL: ^V^Li^^ WEIGHT: _ ESTIMATED AGE: GENERAL GEOGRAPHIC LOCATION: (FOR CALIBRATION PURPOSES) JLU . IF CARBONATE: MARINE .FRESH WATER EVIDENCE OF CONTAMINATION:. (ROOT PENETRATION. LEACHING. HUMIC ACIDS.' ETC.) COLLECTION,TREATMENT AND STORAGE PROCEDURES: I I I I I I I I I I I I I I I I I 5671 Palmer Way, Suite A Carlsbad, Califomia 92008 (760) 929-0055 email: gallegos@aol.com I A L L E G O S & Associates 04-300-125 November 2, 2004 Beta Analytic, Inc. University Branch 4985 S.W. 74 Court Miami, Florida 33155 Re: Shell samples from CA-SDI-8694 San Diego, California Dear Beta: Please find enclosed four samples of marine shell from CA-SDI-8694 (specimens 8694- 76, 8694-305, 8694-606A and 8694-606B) for AMS analysis. The sites age is believed to be between 500 and 3,000 years old. Please notify our office by fax (760-929-0056) or Email (Gallegos(§aol.com) as soon as results are known. Thank you. Tracy A. Sfropes Lab Director BETA ANALYTIC INC. DR. M.A. TAMERS and MR. D.G. HOOD 4985 S.W. 74th COURT MIAMI. FLORIDA USA 33155 TELE: (01) 305-667-5167 FAX: (01) 305-653-0964 E-MAIL: beta@radiocarbon.com WEB SITE: http://wvvw.radiocarbon.com RADIOCARBON SAMPLE DATA SHEET Please contact us at any time for advice, assistance or discussion of results. iuBMITTER NAME: Q'^l-^^-^^^^ \ AS3^0>VR^ DATE: | / - - ^ 4- •iDDRESS: _ \lJtLM S>u,^_iA 1^ n f> |ELEPH0NE:(7^ ^ Z'={~c^^FAX:{yo) E-MAIL: qyi 1 Ig^t^^^^CILLCJJ^-^ METHOD OF fAYMENT: PURCHASE ORDER I I / CREDIT CARD THER (SPECIFY) REDIT CARD #: LEASE PROVIDE CREDIT CARD BILLING ADDRESS ON BACK) _/ CHECK _ PURCHASE ORDER #_ / BANK-WIRE TRANSFER EXP. DATE MM / YR •YOUR SAMPLE CODE NUMBER: I I I PLEASE CHOOSE £ 12 INITIAL CHARACTERS TO APPEAR ON THE DATA REPORT SHEET ADOmONAL LABEUNG IF NEEDED r TECHNIQUE: •••• INSTRUCTIONS TO LABORATORY • RADIOMETRIC 9\CCELERAT0R MASS SPECTROMETRY (AMS) ELIVERY SERVICE: I a^NDARD (RADIOMETRIC/AMS) (20-30 BUSINESS DAYS) • ADVANCE (RADIOMETRIC 10-14 BUSINESS DAYS) (AMS 6-14 BUSINESS DAYS) • PRIORITY (RADIOMETRIC ONLY) (6 BUSINESS DAYS) • TIME GUIDE (RADIOMETRIC ONLY) (2-3 BUSINESS DAYS) STABLE ISOTOPE |ATI0S • Ct 3/12 (OPTIONAL SERVICE FOR RADIOMETRIC SAMPLES / INCLUDED WITH AMS SAMPLES / REQUIRED FOR GROUND WATER) • N15/14 • 018/16 (BONE AND ORGANIC MATERIALS) (CARBONATE MATERIALS ONLY) MPLEX / NON-STANDARD • EXTENDED COUNTING • MICRO-SAMPLE AMS COUNTING RVICES: APOmONAL FEES APPLY (RADIOMETRIC - ENHANCED / OPTIMAL PRECISION) (AMS - MINIMUM OF 100300 MICROGRAMS RNAL CARBON) [• BULK / LOW CARBON MATERIALS • BONE DATING • CELLULOSE / SOLVENT EXTRACTIONS kDIOMETRIC - BULK SEDIMENTS / CARBONATES > 200 GMS) (COLUGEN EXTRACTION) (UNCHARRED WOOD AND TEXTILES) I • SEM (SCANNING ELECTRON MICROSCOPY) • SPECIAL REQUESTS (ADDmONAL SPACE ON REVERSE) MPLE MATERIAL TYPE: SAMPLE WEIGHT: Zk-j^ ^TIMATED AGE: 0^ k^^X^fetuiftgo * NERAL GEOGRAPHIC LOCATION: S^c}<U^-> 0\- aUIRED FOR CALIBRATION OF CARBONATE SAMPLES - NoiJ REQUIRED 5- XARBONATE SAMPLES: MARINE / FRESH WATER (•FOR CARBONATE SAMPLES INDICATE IF MARINE OR FRESH WATER) Oil \Q-ZO< FOR CALIBRATION OF ORGANIC SAMPLES) (OVER) BETR BETA ANALYTIC INC. DR. M.A. TAMERS and MR. D.G. HOOD 4985 S.W. 74th COURT MIAMI. FLORIDA USA 33155 TELE: (01) 305-667-5167 FAX: (01) 305-653-0964 E-MAIL: beta©radiocarbon.com WEB SITE: http://www.radiocarbon.com 1 RADIOCARBON SAMPLE DATA SHEET Please contact us at any time for advice, assistance or discussion of results. luBMITTER NAME: (^M|-L,(-CC^-^S ^ As360)Vr^ DATE: |(- - O 4- •VDDRESS: _ 1 jd.ju SUL^ y\ |-FIFPHnNE;(?fed ^ ? ^ ~QOS:^FAX:('to) 2.^ ~OQ.^4> E-MAIL: Cj^l i Ic/L ^.S./g A ^ ( METHOD OF AYMENT: PURCHASE ORDER t / CREDIT CARD / CHECK. / BANK - WIRE TRANSFER THER (SPECIFY) CREDIT CARD #: 'LEASE PROVIDE CREDIT CARD BILLING ADDRESS ON BACK) PURCHASE ORDER #_ EXP. DATE MM / YR - YOUR SAMPLE •CODE NUMBER: 1_L PLEASE CHOOSE £ 12 INRIAL CHARACTERS TO APPEAR ON THE DATA REPORT SHEET ADDITIONAL LABEUNG IF NEEDED r TECHNIQUE: i^mmm INSTRUCTIONS TO LABORATORY • RADIOMETRIC a^CCELERATOR MASS SPECTROMETRY (AMS) IELIVERY SERVICE: I i Q^NDARD (RADIOMETRIC/AMS) (20-30 BUSINESS DAYS) • ADVANCE (RADIOMETRIC 10-14 BUSINESS DAYS) (AMS 6-14 BUSINESS DAYS) • PRIORITY (RADIOMETRIC ONLY) (6 BUSINESS DAYS) • TIME GUIDE (RADIOMETRIC ONLY) (2-3 BUSINESS DAYS) TABLE OTOPE ATIOS • C13/12 (OPTIONAL SERVICE FOR RADIOMETRIC SAMPLES / INCLUDED WrPH AMS SAMPLES / REQUIRED FOR GROUND WATER) • N15/14 • 018/16 (BONE AND ORGANIC MATERIALS) (CARBONATE MATERIALS ONLY) IOMPLEX/ NON-STANDARD E RVICES: ADPmoNAL FEES APPLY • EXTENDED COUNTING • MICRO-SAMPLE AMS COUNTING (RADIOMETRIC - ENHANCED / OPTIMAL PRECISION) (AMS - MINIMUM OF 100-300 MICROGRAMS FINAL CARBON) I Q BULK / LOW CARBON MATERIALS ^DIOMETRIC - BULK SEDIMENTS / CARBONATES > 200 GMS) • SEM ([SCANNING ELECTRON MICROSCOPY) • BONE DATING (COLLAGEN EXTRACTION) • SPECIAL REQUESTS • CELLULOSE / SOLVENT EXTRACTIONS (UNCHARRED WOOD AND TEXTILES) (ADDITIONAL SPACE ON REVERSE) I •AMPLE MATERIAL TYPE: SAMPLE WEIGHT: ^-?^ 'CARBONATE SAMPLES: MARINE ^ / FRESH WATER. (*FOR CARBONATE SAMPLES INDICATE IF MARINE OR FRESH WATER) ^TIMATED AGE: k4arLB£Qi;;f^ t-NFRAI GEOGRAPHIC LOCATION: ^ 0 ^ O ^Q-S'Qc^ QUIRED FOR CALIBRATION OF CARBONATE SAMPLES - NOT REQUIRE JIRED FOR\CALIBRATION OF ORGANIC SAMPLES) (OVER) BETA ANALYTIC INC. DR. M.A. TAMERS and MR. D.G. HOOD 4985 S.W. 74th COURT MIAMI, FLORIDA USA 33155 TELE: (01) 305-657-5167 FAX: (01) 305-653-0964 E-MAIL: beta@radiocarbon.com WEB SITE: http://www.radiocarbon.com ! I RADIOCARBON SAIMPLE DATA SHEET Please contact us at any time for advice, assistance or discussion of results. UBMITTER NAME: J^^^l (^^-^.SO'^ \ A^360>Vr^ DATE:j(- ^-O ^ \k}tLjU SL/L<^ (A DDRESS: [FiFP"nMF-(?fed H 7 ^~Qc>s:S:FAX:(^)'i'2-^^Q^'^ E-MAIL: cj^i 1^:S.(g L rj^^ METHOD OF AYMENT: PURCHASE ORDER I I / CREDIT CARD / CHECK-/ BANK • WIRE TRANSFER THER (SPECIFY) REDIT CARD #: LEASE PROVIDE CREDIT CARD BILLING ADDRESS ON BACK) PURCHASE ORDER #_ EXR DATE MM / YR I YOUR SAMPLE CODE NUMBER: TECHNIQUE: 1 PLEASE CHOOSE i 12 INmAL CHARACTERS TO APPEAR ON THE OATA REPORT SHEET ADDITIONAL LABEUNG IF NEEDED INSTRUCTIONS TO LABORATORY ••••••••••Hi • RADIOMETRIC a^CCELERATOR MASS SPECTROMETRY (AMS) IELIVERY STANDARD" SERVICE: (RADIOMETRIC/AMS) (20-30 BUSINESS DAYS) i • ADVANCE (RADIOMETRIC 10-14 BUSINESS DAYS) (AMS 6-14 BUSINESS DAYS) • PRIORITY (RADIOMETRIC ONLY) (6 BUSINESS DAYS) • TIME GUIDE (RADIOMETRIC ONLY) (2-3 BUSINESS DAYS) STABLE (JOTOPE ATIOS • Cl 3/12 (OPTIONAL SERVICE FOR RADIOMETRIC SAMPLES / INCLUDED WITH AMS SAMPLES / REQUIRED FOR GROUND WATER) • N15/14 • 018/16 (BONE AND ORGANIC MATERIALS) (CARBONATE MATERIALS ONLY) IOMPLEX / NON-STANDARD • EXTENDED COUNTING • MICRO-SAMPLE AMS COUNTING E RVICES: APOmONAL FEES APPLY (RADIOMETRIC - ENHANCED / OPTIMAL PRECISION) . (AMS - MINIMUM OF 100-300 MICROGRAMS FINAL CARBON) Q BULK / LOW CARBON MATERIALS • BONE DATING • CELLULOSE / SOLVENT EXTRACTIONS DIOMETRIC - BULK SEDIMENTS / CARBONATES > 200 GMS) (COLLAGEN EXTRACTION) (UNCHARRED WOOD AND TEXTILES) |AI I • SEM (SCANNING ELECTRON MICROSCOPY) • SPECIAL REQUESTS (ADDITIONAL SPACE ON REVERSE) >AMPLE MATERIAL TYPE: feTIMATED AGE: 0(\ l^to^^-^KQii^fT&o SAMPLE WEIGHT: 'CARBONATE SAMPLES: MARINE ^ / FRESH WATER (•FOR CARBONATE SAMPLES INDICATE IF MARINE OR FRESH WATER) I ENERAL GEOGRAPHIC LOCATION dIjIRED F^R (REQUIRED FOR CALIBRATION OF CARBONATE SAMPLES - NOT REi CALIBRATION OF ORGANIC SAWPLES) (OVER) BETR BETA ANALYTIC INC. DR. M.A. TAMERS and MR. D.G. HOOD 4985 S.W. 74th COURT MIAMI. FLORIDA USA 33155 TELE: (01) 305-667-5167 FAX: (01) 305-663-0964 E-MAIL: beta@radiocarbon.com WEB SITE: http://wvvw.radiocarbon.com RADIOCARBON SAIVIPLE DATA SHEET Please contact us at any time for advice, assistance or discussion of results. lUBMUTER NAME: i-'-^?-^^ ^ f\s^aOl)\T'S^ DATE: K' - Q ^ \lJtLM Su.^„lA n n^DDRESS: npiFPHnNF-(?^d ^ 7 ^-02.s:^FAX:(^)'r2-<^~ot5Sr^ E-MAIL: afil.t l^df ).S.(g AJ^LLC^A^ METHOD OF r'^AYMENT: PURCHASE ORDER / CREDIT CARD %THER (SPECIFY) nREDITCARD#:_ _/ CHECK _ PURCHASE ORDER #_ / BANK-WIRE TRANSFER EXP. DATE MM / YR KEASE PROVIDE CREDIT CARD BILLING ADDRESS ON BACK) YOUR SAMPLE CODE NUMBER: PLEASE CHOOSE S12INTTIAL CHARACTERS TO APPEAR ON THE DATA REPORT SHEET ADOmONAL LABEUNG IF NEEDED INSTRUCTIONS TO LABORATORY • RADIOMETRIC 9^CCELERAT0R MASS SPECTROMETRY (AMS) n IELIVERY SERVICE: P. Q^NDARD (RADIOMETRIC/AMS) (20-30 BUSINESS DAYS) • ADVANCE (RADIOMETRIC 10-14 BUSINESS DAYS) (AMS 6-14 BUSINESS DAYS) • PRIORITY (RADIOMETRIC ONLY) (6 BUSINESS DAYS) • TIME GUIDE (RADIOMETRIC ONLY) (2-3 BUSINESS DAYS) STABLE I'SOTOPE yATIOS • Cl 3/12 (OPTIONAL SERVICE FOR RADIOMETRIC SAMPLES / INCLUDED WITH AMS SAMPLES / REQUIRED FOR GROUND WATER) • N15/14 • 018/16 (BONE AND ORGANIC MATERIALS) (CARBONATE MATERIALS ONLY) POMPLEX/NON-STANDARD • EXTENDED COUNTING • MICRO-SAMPLE AMS COUNTING RVICES: ADDITIONAL FEES APPLY (RADIOMETRIC - ENHANCED / OPTIMAL PRECISION) (AMS - MINIMUM OF 100-300 MICROGRAMS FINAL CARBON) Q BULK / LOW CARBON MATERIALS • BONE DATING • CELLULOSE / SOLVENT EXTRACTIONS • .DIOMETRIC - BULK SEDIMENTS / CARBONATES > 200 GMS) • SEM (SCANNING ELECTRON MICROSCOPY) n I (COLLAGEN EXTRACTION) • SPECIAL REQUESTS: (ADDITIONAL SPACE ON REVERSE) (UNCHARRED WOOD AND TEXTILES) i_ 1 PAMPLE MATERIAL TYPE: <22^M CDiVKiy^l) ^TIMATED AGE: OrJ^J^^M^I^ (^ =NERAL GEOGRAPHIC LOCATION: SAMPLE WEIGHT: (REQUIRED FOR CALIBRATION OF CARBONATE SAMPLES - NOT REQUIRED •CARBONATE SAMPLES: MARINE ^ / FRESH WATER. (•FOR CARBONATE SAMPLES INDICATE IF MARINE OR FRESH WATER) IRED FOR CALIBRAP<ON OF ORGANIC SAMPLES) ~ (OVE (OVER) I I 5671 Palmer Way, Suite A Carlsbad, California 92008 (760) 929-0055 emajl gallegos@aol com G A L L E G O S & Associates 04-300-144 December 14, 2004 Beta Analytic, lnc University Branch 4985 S W 74 Court Miami, Flonda 33155 Re AMS sample from CA-SDI-8797 San Diego, California Dear Beta Please find enclosed one AMS sample from CA-SDI-8797 (specimen 8797-106) for analysis- The site is believed to be at least 1500 years old. Please notify our office by fax (760-929-0056) or Email (Gallegos(gaol com) as soon as results are known ank you. Tracy A. Sfropes Lab Director BETA ANALYTIC INC. DR, M.A. TAMERS and MR. D.G. HOOD 49S5 S.W. 74th COURT MIAMI. FLORIDA U.S.A. 33155 TELE: (01) 305-667-5167 FAX: (01) 305-663-0954 E-MAIL: betaSradiocarbon.com WEB SITE: http://www.radiocarbon.com. RADIOCARBON SAMPLt DATA SHEET Please contact IK at anv tinM> fnr -^rtirir.^ .^^....-...r—J i--^ - SUBMITTER NAME: Please contact us at any time for advice, assistant or discussion of results. ADDRESS; 5'^ ^ } TELEPHONE: 0^6^) ~ 00^^X2 E-MAIL: 1 ( <; P /X ^( r FAX: (^jbQ ^^^-OO^SJX PURCHASE ORDER #:1 CREDIT CARD #: V()l;R.SAMI>I,r ({)l)KMiMBI-R: (PLEASE PROVIDE BILUNG ADDRESS ON BACK) EXP DATE: ___MM / YR TECHNIQUE: • RADIOMETRIC CELERATO^ MASS SPECTROMETRY (AMS) DEUVERY ^pfis3ANDARD SERVICE: (RADIOMETRIC 30 BUSINESS DAYS) (AMS 90 BUSINESS DAYS) • ADVANCE (RADIOMETRIC 14 BUSINESS DMSi (AMS 14 BUSINESS OATS) • PRIORITY • TIME GUIDE (6 BUSINESS DAYS) RADJOMETRIC ONLY (2-3 BUSINESS DAYS) RADIOMETRIC ONLY STABLE ISOTOPE RATIOS: •C13/12 (OPTKJNALFORRADK^METRK^/I^XUDEDWITHAMS) •0I8/I6 (CARBONATES (REQUIRED FOR GROUNDfWATER) (^«BONATES ONLY) COMPLEX / NON-STANDARD SERVICES: APPmONAL FEES APPLY • SEM (SCANNING ELECTRON MICROSCOPY) SPECIAL REQUESTS: (ADDITiONAL SPACE ON REVSRSE) • EXTENDED COUNTING (OPTIMAL OR ENHANCED PRECISION) • WOOD CELLULOSE (EXTRACTION) • BULK/LOW CARBON MATERIALS (SEDIMENTS AND BULK CARBONATES) • BONE COLLAGEN EXTRACTION (COLLAGEN FRACTION) SAMPLE MATERIAL: WEIGHT: _ 0X1 ESTIMATED AGE: \ )t\ VT-IA^^LM^ IF CARBONATE GaUERAL GEOGRAPHIC LOCATION: 5>AMJ Q S^^-^I (FOR CALIBRATION PURPOSES) EVIDENCE OF CONTAMINATION: _ MARINE FRESH WATER (ROOT PENETRATION. LEACHING, HUMIC ACIDS. ETC.) COLLECTION, TREATMENT AND STORAGE PROCEDURES: APPENDIX F OBSIDIAN SOURCE ANALYSIS 5671 Palmer Way, Suite A Carisbad, California 92008 (760) 929-0055 email: gallegos@aol.com A L L E G O S & Associates 04-300-126 Novembers, 2004 Richard Hughes, Ph. D. Geochemical Research Laboratory 20 Portola Green Circle Portola Valley, CA 94028-7833 Dear Richard, Enclosed are 5 obsidian samples (List to follow) recovered from excavations of our Carlsbad Golf Course Project located in Carlsbad, Califomia. Please provide xrf analysis for the enclosed specimens. The subsurface deposits are believed to be late (<1000 years). The Gallegos & Associates project number is 4-04. Please note this on your invoice. Thank you for your help and contact me if there are any problems or questions. Sample #'s 8303-26 8303-40 (May be too small for analysis, is so feel free to skip.) 8303-104 8303-127 8303-231 Mr. Triacy Sfropes Lab Director Geochemical Research Laboratory Letter Report 2004-91 November 11, 2004 Mr. Tracy Stropes Gallegos & Associates 5671 Palmer Way, Suite A Carlsbad, CA 92008 Dear Tracy: This letter contains tables presenting energy dispersive x-ray fluorescence (edxrf) data derived from the analysis of five obsidian artifacts from archaeological site CA-SDi-8303 in Carlsbad, Califomia. Table 1 provides quantitative edxrf data on four obsidian artifacts, while Table 2 presents semi-quantitative data generated for an additional obsidian flake that was too small (i.e < 9-10 mm diameter) and/or too thin (i.e. < ca. 1.5 mm thick) for generating reliable quantitative data by xrf. This research was Conducted pursuant to your letter request of November 3, 2004. Analyses of obsidian are performed at my laboratory on a QuanX-EC^M (Thermo Electron Scientific Instruments Corporation) edxrf spectrometer equipped with a silver (Ag) x-ray tube a 50 kV x-ray generator, digital pulse processor with automated energy calibration, and a Peltier cooled solid state detector with 145 eV resolution (FWHM) at 5.9 keV. The x-ray tube was operated at differing voltage and current settings to optimize excitation of the elements selected for analysis. In this case analyses were conducted for the elements mbidium (Rb Ka), strontium (Sr Ka), yttrium (Y Ka), zirconium (Zr Ka), niobium (Nb Ka), and barium (Ba Ka). Iron vs. manganese (Fe Ka/Mn Ka) ratios also were computed. Each subroutine was mn at up to 100 deadtime-corrected seconds, with tube current scaled to the physical size of each specimen Otherwise, artifact-to-source (geochemical type) attribution procedures, element-specific measurement resolution specifications, and literature references applicable to these samples follow those I reported for obsidian CA-SDi-5325 (Hughes 2001). Table 1 Quantitative EDXRF Data for Obsidian Artifacts from CA-SDi-8303 Trace Element Concentrations Ratio • Obsidian Source Number Zn Sb Sr Y & Nb Ii Mn Fe^OjT Fe/Mn 26 nm nm 141 ±4 36 ±3 122 ±3 341 ±4 28 ±3 nm nm nm nm nm 104 nm nm 129 ±4 33 ±3 117 ±3 328 +4 28 ±3 nm nm nm nm nm 127 nm nm 131 ±4 29 ±3 116 ±3 319 ±4 29 ±3 nm nm nm nm nm 231 nm nm 149 ±4 33 ±3 124 ±3 341 ±4 30 ±3 nm nm nm nm nm Obsidian Butte, CA Obsidian Butte, CA Obsidian Butte, CA Obsidian Butte, GA Values in parts per million (ppm) except total iron [in weight %] and Fe/Mn intensity ratios; ± = expression of x-ray counting uncertainty and regression fitting error at 120 seconds livetime. nm= not measured. I Quantitative edxrf data (in Table 1) indicate that all four specimens were made from Obsidian Butte (Imperial County, Califomia) volcanic glass. As you know, I usually report trace element measurements in quantitative units (i.e. ppm)-and make artifact-to-source attributions on the basis of correspondences in diagnostic trace element concentration values. However, one ofthe specimens you sent (no. 40) was too small and thin to generate x-ray counting statistics adequate for proper conversion from background-corrected intensities to quantitative concentration estimates (i.e., ppm). I analyzed this sample semi- quantitatively to generate intensity (peak count) data for the elements Rb, Sr, and Zr then converted these counts to percentages to facilitate presentation on a temary diagram'. The counting data and derived ratios appear in Table 2, and the values are plotted on the accompanying temary diagram. The dashed lines on this diagram (adapted from Jackson 1974: Fig. 15) represent the range in composition variation for several parent obsidian source types that have been identified in archaeological sites along the Califomia coast south of San Francisco. Source assignments were made by comparing the plots for artifacts against the parameters of known source types Based on these Rb/Sr/Zr and Fe/Mn ratio comparisons, flake no. 40 from SDi-8303 falls within the range for Coso Volcanic Field obsidians. As you know, however, semi-quantitative data are not adequate to distinguish among chemical varieties of Coso obsidian, as can be done quantitatively Table 2 Semi-Quantitative Element Data for an Obsidian Flake from CA-SDi-8303 Element Intensities Intensity Ratios n , nu o ^ ^ Obsidian Soufce Rb Sr Zr J, Rb.Sr.Zr Rb% Sr% Zi% Fe/Mn (Ciiemical Tvp.) 40 3758 129 2933 6820 .551 .019 .430 50 Coso Vol. Field Elemental intensities generated at 900 seconds livetime. I hope this information will help in your analysis and interpretation of these site materials Please contact me at my laboratory (phone: [650] 851-1410; e-mail: rehughes@silcon.com) if I can provide further assistance or information. Sincerely, Richard E. Hughes, Ph.D., RPA Director, Geochemical Research Laboratory REFERENCES Hughes, Richard E. 2001 X-ray Fluorescence Analysis of an Obsidian Projectile Point Fragment from CA-SDi-5325, Califomia Geochemical Research Laboratory Letter Report 2001-36 submitted to Tracy Stropes CJalleeos and Associates, April 28, 2001. 6 -JU * Jackson, Thomas L. 1974 The Economics of Obsidian in Central California Prehistory: Applications of X-ray Fluorescence Spectrography in Archaeology. M.A. thesis, Department of Anthropology, San Francisco State University. Geochemical Research Laboratory Letter Report 2004-91 Ml', h Dot Represents Plot for CA-SDi-8303 Artifact APPENDIX G RESIDUE ANALYSIS 5671 Palmer Way, Suite A Carlsbad, California 92008 (760) 929-0055 email: gallegos@aol.com G A L L E G O S & Associates 04-300-133 November 18, 2004 Robert M. Yohe II Laboratory of Archaeological Sciences Califomia State University, Bakersfield 9001 Stockdale Highway\ Bakersfield CA, 93311-1022 Dear Bob: Please provide an animal and plant protein residue test for all possible proteins on tiie enclosed bifaces (specimens 8694-189, and 8694-303) from our Caribad Golf Course Project, site CA-SDI-8694. Our fax and e-mail numbers are listed above as preliminary results would be greatiy appreciated. Please call me if tiiere are any questions. Thanks again, racy A. Stropes Lab Director Protein Residue Analysis of Projectile Points from Archaeological Sites CA-SDI-8303 and CA-SDI-8694 Carlsbad Golf Course Project, San Diego County, California Prepared for: Gallegos & Associates 5671 Palmer Way Suite A Carlsbad, CA 92008 By: Robert E. Parr, RPA Laboratory of Archaeological Sciences California State University 9001 Stockdale ffighway Bakersfield, CA 93311-1022 (LAS-48) December 2004 Introduction The use. of chemical and molecular biological techniques in the analysis of archaeological materials can provide significant new information for the interpretation of their past use. The identification of organic residues from lithic and ceramics artifacts, coprolites and soils have provided archaeologists with specific data regarding prehistoric exploitation of animals and plants. Although ancient protein residues may not be preserved in their original form, linear epitopes are generally conserved which can be identified by immunological methods (Abbas et al. 1994). Immunological methods have been used to identify plant and animal residues on flaked and groundstone lithic artifacts (Allen et al. 1995; Gerlach et al 1996; Henrikson et al, 1998; Hyland et al. 1990; Kooyman et al. 1992; Newman 1990, 1995; Petraglia et al. 1996; Shanks et al. 1999; Yohe et al. 1991) and in Chumash paint pigment (Scott et ai 1996). Plant remains on artifacts also been identified through chemical (opal phytoliths), and morphological (use-wear), studies (Hardy and Gamfi 1998; Jahren et ai, 1997, Sobolik 1996). Plant and animal residues on ceramic artifacts have been identified through the use of gas-liquid chromatography, high performance liquid chromatography and mass spectrometry (Bonfield and Heron 1995; Evershed et al. 1992; Evershed and Tuross, 1996; Heron et al. 1991, Patrick et al. 1985). Serological methods have been used to determine blood groups in skeletal and soft tissue remains (Heglar 1972; Lee et al. 1989) and in the detection of hemoglobin from 4500-year-old bones (Ascenzi et al. 1985). Human leukocyte antigen (HLA) and deoxyribonucleic acid (DNA) determinations made on human and animal skeletal and soft tissue remains have demonstrated genetic relationships and molecular evolutionary distances (Hanni et al. 1995; Hansen and Gurtler 1983; Lowenstein 1985, 1986; Paabo 1985, 1986, 1989; Paabo et al. 1989). Successful identification of residues on stone tools dated between 35-60,000 B.P. has been made by DNA analysis (Hardy et al., 1997, while residues on surgical implements from the American Civil War were recentiy identified by immunological and DNA analysis (Newman et al., 1998). A recent study demonstrated the viability of identifiable immunoglobulin G in 1.6 million-year-old fossil bones from Venta Micena, Spain, (Torres et ai, 2002). Horse exploitation was identified by immunological analysis of residues retained on Clovis points dated to ca. 11,200 B.P. (Kooyman et ai, 2001). The use of forensic techniques in the investigation of archaeological materials is appropriate as both disciplines deal with residues that have undergone changes, either deliberate or natural. Criminals habitually endeavor to remove bloodstains by such means as laundering, scmbbing with bleach, etc. yet; such degraded samples are still identified by immunological methods (Lee and De Forest 1976; Milgrom and Campbell 1970; Shinomiya et al. 1978, among others). Similarly it has been shown that immunological methods can be successfully applied to ancient human cremations (Cattaneo et ai, 1994). Forensic wildlife laboratories use immunological techniques in their investigation of hunting violations and illegal trade, often from contaminated evidence (Bartlett and Davidson 1992; Guglich et al. 1994; Mardini 1984; McClymont et al. 1982; among others). Immunological methods are also used to test the purity pf food products such as canned luncheon meat and sausage, products which have undergone considerable degradation (Ashoor et al. 1988; Berger et al. 1988; King 1984). Thus the age and degradation of protein does not preclude detection (Gaensslen 1983:225). Materials and Methods The method of analysis used in this study of archaeological residues is cross-over electrophoresis (CIEP). Prior to the introduction of DNA fingerprinting this test was used by forensic laboratories to identify trace residues from crime scenes. Minor adaptations to the original method were made following procedures used by the Royal Canadian Mounted Police Serology Laboratory, Ottawa (1983) and the Centre of Forensic Sciences (Toronto). The solution used to remove possible residues is 5% ammonium hydroxide which is the most effective extractant for old and denatured bloodstains without interfering with subsequent testing (Dorrill and Whitehead 1979; Kind and Cleevely 1969). Artifacts are placed in shallow plastic dishes and 0.5 ml. of 5% ammonia solution applied directiy to each. Initial disaggregation is carried out by floating the dish and contents in an ultrasonic cleaning bath for five minutes. Extraction is continued by placing the dish and contents on a rotating mixer for thirty minutes. In the case of large, heavy milling tools, 1.0 ml. or more of the ammonium solution is applied directiy to a working surface, agitated with a sterile spatula and allowed to sit for 35 minutes. The resulting ammonia solutions are removed and placed in numbered, sterile, plastic vials and stored at -20°C prior to testing. A series of p^red wells is puiiched into an agarose gel. About 3 pl. of antisemm is placed into one well and the same amount of the sample extract is placed in the other. An electric current is then passed through the gel. The antiseram and unknown sample migrate through the gel and come into contact. If there is protein in the unknown which corresponds with the antiserum, an antigen-antibody reaction occurs and the protein precipitates out in a specific pattem. The precipitant is detected when the gel is pressed, dried and stained. Control positives are ran simultaneously with all the unknown samples. Sterile equipment and techniques are iise throughout the analysis. Eight flaked stone projectile points collected from prehistoric archaeological sites CA-SDI-8303 and CA-SDI-8694 in San Diego County, Califomia were submitted for immunological analysis by Gallegos & Associates of Carlsbad, CA. Residues were removed from the artifacts as discussed above. Testing of the samples was performed against the animal and plant antisera shown in Table 1. Animal antisera produced by Cappel Research and plant antisera produced at the University of Calgary provide family level identification only. The relationship of antisera to possible species identified is shown in Table 2. Immunological relationships do not necessarily bear any relationship to the Linnaean classification scheme; however, they usually do (Gaensslen 1983). Results Two positive reactions were registered (Table 3). Artifact #8303-82 from site CA-SDI-8303 reacted positively to guinea-pig antisemm. Artifact #8694-303 from site CA-SDI-8694 tested positive against deer antiseram. A positive reaction to guinea-pig antiseram indicates the presence of proteins from any species of squirrel, porcupine, or beaver. A positive to deer represents proteins from any species of deer or elk. The absence of identifiable proteins on the remaining artifacts may be due to poor preservation of protein, insufficient protein, or that they were not used on any of the organisms included in the available antisera. TABLE 1: ANTISERA USED IN ANALYSIS Antiserum Source Bear Cappel Research Cat tc Chicken (( Deer «c Dog (( Guinea-pig (C Rabbit t( Rat (C Sheep (< Agave University of Calgary Amaranth (( Asteraceae (t Cactus (C Capparidaceae C( Chenopodiaceae <c Cedar (C Pine C( Poaceae (( TABLE 2: POSSIBLE SPECIES IDENTIFIED Antiserum Possible Species Identified Bear black, grizzly Cat bobcat, mountain lion Chicken turkey, quail, grouse, & other gallinaceous fowl Deer deer, elk Dog coyote, wolf, dog Guinea-pig beaver, porcupine, squirrel Rabbit rabbit, hare Rat all rat & mouse species Sheep bighorn Agave agave, yucca Amaranth amaranth, pigweed, quelite Asteraceae rabbitbrash, sunflower, sagebrash, thistle, etc. Cactus all cacti Capparidaceae bladderpod, beeplant, stinkweed, etc. Chenopodiaceae pickleweed, saltbush, goosefoot, greasewood, etc. Cedar cedar, juniper Pine all pines Poaceae all grasses TABLE 3: RESULTS Site Sample No. Results CA-SDI-8303 8303-23 negative (( 8303-82 Guinea-pig (C 8303-147 negative £( 8303-162 negative <( 8303-188 negative (t 8303-198 negative CA-SDI-8694 8694-189 negative 8694-303 Deer REFERENCES CITED Abbas, A. K., D. H. Lichtman and J. S. Pober 1994 Cellular and Molecular Immunology. W.B. Saunders Co. Philadelphia, PA Allen, J., M.E. Newman, M. Riford and G. H. Archer 1995 Blood and Plant Residues on Hawaiian Stone Tools from Two Archaeological Sites In Upland Kane"one, Ko'ola Pogo District, O'ahu Island. Asian Perspectives 34(2):283-302. Ascenzi, A., M. Branori, G. Citro and R. Zito 1985 Immunological detection of hemoglobin in bones of ancient Roman times and of fron and Eneolithic Ages. Proceedings National Academy of Sciences USA 82:7170-7172. Ashoor, S. H., W.C. Monte and P.G. Stiles 1988 Liquid chromatographic identification of meats. 7. Assoc. Off. Anal. Chem. 71:397-403. Bartlett, S. E. and W. S. Davidson 1992 FINS (Forensically Informative Nucleotide Sequencing): A procedure for identifying the animal origin of biological specimens. Biotechniques 12:408-411. Berger, R. G., R. P. Mageau, B. Schwab and R.W. Johnson 1988 Detection of poultry and pork in cooked and canned meats by enzyme-linked immunoabsorbent assays. J. Assoc. Off. Anal. Chem 71:406-409. Bonfield, K. and C. Heron 1995 The identification of plant waxes in neolithic pottery: evidence for "invisible" foods. Paper presented at Archaeological Sciences 1995, University of Liverpool, U.K. Borja, C, M. Garcias-Pacheco, E. G. Olivares, G. Scheuenstuhl and J. M. Lowenstein 1997 Immunospecificity of Albumin Detected in 1.6 Million-Year-Old Fossils from Venta Micena in Orce, Granada, Spain. American Joumal of Physical Anthropology 103:433-441. Cattaneo, C, K. Gelsthorpe, P. Phillips and R. J. Cecal 1992 Reliable Identification of Human Albumin in Ancient Bone using ELIZA and Monoclonal Antibodies. American Joumal of Physical Anthropology 87:365- 372. Dorrill, M. and P.H. Whitehead 1979 The Species Identification of Very Old Human Bloodstains. Forensic Science International 13:111-116. Evershed, R. P., C. Heron, L. J. Goad 1992 The survival of food residues: new methods of analysis, interpretation and application. Proceedings ofthe British Academy 11 .X 87-208. Evershed, R. P. and N. Tuross 1996 Proteinaceous Material from Potsherds and Associated Soils. Joumal of Archaeological Science 23:429-436. Gaensslen, R.E. 1983 Sourcebook in Forensic Serology, Immunology, and Biochemistry. U.S. Department of Justice, Washington, D.C. Gerfach, S.C., M. Newman, E. J. Knell and E. S. Hall 1996 Blood Protein Residues on Lithic Artifacts from Two Archaeological Sites in the De Long Mountains, Northwestem Alaska. Arctic 49(1): 1-10. Guglich, E. A., P. J. Wilson and B. N. White 1993 Application of DNA Fingerprinting to enforcement of hunting regulations in Ontario. Joumal of Forensic Science 38:48-59. Hanni, C, A. Begue, V. Laudet, D. Stehelin, T. Brousseau and P. Amouyel 1995 Molecular Typing of Neolithic Human Bones. Joumal of Archaeological Science 22 (5):649-658. Hansen, H.E., and H. Gurtler 1983 HLA Types of Mummified Eskimo Bodies from the 15th Century. American Joumal of Physical Anthropology 61:447-452. Hardy, B.L., and T. Garafi 1998 Identification of Woodworking on Stone Tools through Residue and Use-Wear Analyses: Experimental Results. Joumal of Archaeological Science 25:177-184. Hardy. B.L., R.A. Raff and V. Raman 1997 Recovery of Mammalian DNA from Middle Paleolithic Stone Tools. Joumal of Archaeological Science 24:601-611. Heglar, R. 1972 Paleoserology Techniques Applied to Skeletal Identification. Joumal of Forensic Sciences 16:358-363. Henrikson, L.S., R. M. Yohe H, M.E. Newman and M. Drass 1998 Freshwater Crastaceans as an Aboriginal Food Resource in the Northem Great Basin. Joumal of Califomia and Great Basin Anthropology 20( 1): 72-87. Heron, C.L., R. P. Evershed, L. J. Goad and V. Denham 1991 New Approaches to the Analysis of Organic Residues from Archaeological Remains. In Archaeological Sciences 1989, edited by P. Budd, B. Chapman, R. Janaway and B. Ottaway, pp.332-339. Oxbow Monograph 9. Hyland, D. C, J. M. Tersak, J. M. Adovasio and M. L Siegel 1990 Identification Of the Species of Origin of Residual Blood on Lithic Material. American Antiquity 55, pp. 104-112. Jahren, A.H., N. Toth, K. Schick, J.D. Clark and R. G. Amundsen 1997 Determining Stone Tool Use: Chemical and Morphological Analyses of Residues on Experimentally Manufactured Stone Tools. Journal of Archaeological Science 24:245-250. Kind, S.S. and R. M. Cleevely 1969 The Use of Ammoniacal Bloodstain Extracts in ABO Groupings. Joumal of Forensic Sciences 15:131-134. King, N.L. 1984 Species Identification of Cooked Meats by Enzyme-Staining of Isoelectricfocusing Gels. Meaf Science 11:59-72. Kooyman, B., M.E. Newman and H. Ceri 1992 Verifying the Reliability of Blood Residue Analysis on Archaeological Tools. Journal of Archaeological Science 19 (3):265-269. Kooyman, Brian, Margaret E. Newman, Christine Cluney, Murray Lobb, Shayne Tolman, Paul McNeil and L. V. Hills 2001 Identification of Horse Exploitation by Clovis Hunters Based on Protein Analysis. American Antiquity 66(4):686-691. Lee, H.C. and P.R. DeForest 1976 A Precipitin-Inhibition Test on Denatured Bloodstains for the Determination of Human Origin. Joumal of Forensic Sciences 21:804-809. Lee. H.C, R.E. Gaensslen, H. W. Carver, E.M. Pagliaro and J. Carroll-Reho. 1989 ABH Typing in Bone Tissue. Joumal of Forensic Sciences 34(1):7-14. Lowenstein, J. M. 1985 Molecular Approaches to the Identification of Species. American Scientist 73:541-547. 1986 Evolutionary applications of radioimmunoassay. American Biotechnology Laboratory 4{6):l2-\5. 7 Mardini, A. 1984 Species Identification of Selected Mammals by Agarose Gel Electrophoresis. Wildlife Society Bulletin 12(3):249-251. McClymont, R.A., M. Fenton and J. R. Thompson 1982 Identification of Cervid Tissues and Hybridization by Seram Albumin. Joumal of Wildlife Management 46(2):540-544. Milgrom, F., and W. A. Campbell 1970 Identification of Species Origin of Tissues Found in a Sewer. Joumal of Forensic Sciences 15(1): 78-85. Newman, M.E. 1990 The Hidden Evidence From Hidden Cave, Nevada. Pd.D. dissertation on file. University of Toronto, Canada. 1995 Organic Residue Analysis of Lithic Artifacts from Le Trou Magrite. In Le Trou Magrite. Fouilles 1991-1992, edited by M. Otte and L.G. Straus. Liege, E.R.A.U.L. 69:189-194. Newman, M. E., G. Byme, H. Ceri and P. J. Bridge 1999 Immunological and DNA Analysis of Blood Residues from a Surgeon's Kit used in the American Civil War. Joumal of Archaeological Science 25:553-557. Paabo, S. 1985 Molecular cloning of Ancient Egyptian mummy DNA. Nature 314:644-645. 1986 Molecular Genetic Investigations of Ancient Human Remains. Cold Spring Harbor Symposia on Quantitative Biology, 11:441-446. 1989 Ancient DNA: Extraction, characterization, Molecular cloning, and enzymatic amplification. Proceedings National Academy of Science L/^A 86:1939-1943. Paabo, S., R. G. Higuchi and A.C. Wilson 1989 Ancient DNA and the Polymerase Chain Reaction. The Joumal of Biological Chemistry 264:269. Patrick, M., A. J. Koning and A.B. Smith 1985 Gas-liquid Chromatographic Analysis in Food Residues from Ceramics found in the Southwestem Cape. Archaeometry 21:231-236. Petraglia, M., D. Knepper, P. Glumac, M. Newman and C. Sussman 1996 Immunological and Micro wear Analysis of Chipped-stone Artifacts from Piedmont Contexts. American Antiquity 61(1): 127-135. Royal Canadian Mounted Police 1983 Methods Manual, Serology Section. Ottawa, Ontario. Scott, D. A., M. E. Newman, M. Schilling, M. Derrick and H.P. Khanjian. 1996 Blood as a binding medium in a Chumash Indian Pigment Cake. Archaeometry 38:103-112. Shanks, O.C, M. Komfeld and D.D. Hawk 1999 Protein Analysis of Bugas-Holding Tools: New Trends in Immunological Studies. Joumal of Archaeological Science 26:1183-1191. Shinomiya, T., M. Muller, P.H. Muller and R. Lesage 1978 Apport de I'immunoelectrophorese pour I'expertise des taches de sang en medicine legale. Forensic Science Intemational 12:151-163. Sobolik, K. D. 1996 Lithic Organic Residue Analysis: An Example from the Southwestem Archaic. Joumal of Field Archaeology 23:461-469. Tories, Jesus M., Concepcion Borja and Enrique G. Olivares 2002 Immunoglobulin G in 1.6 Million-year-old Fossil Bones from Venta Micena (GTamuda, Sp3^n). Joumal of Archaeological Science 20: 167-175. Yohe, R., M.E. Newman and J. S. Schneider 1991 Immunological Identification of Small-Mammal Proteins on Aboriginal Milling Equipment. American Antiquity 56(4): 659-666. APPENDIX H SITE RECORD FORMS AND UPDATES CA-SDI-8303 I I E I I I I I E I I I I I i I I 8 I State of Califomia - The Resources Agency DEPARTMENT OF PARKS AND RECREATION CONTINUATION SHEET Page 1 of 1 Primary # HRI #/Trinomial eA-SDI-8303 _Continuation X Update Propertv Name/Temporarv#: The Indexing and Preservation Study for CA-SDI-8303 included field excavation of six Ixl-m units, artifact cataloguing, data analysis, and special studies. The purpose of the Indexing and Preservation Study was to provide an index sample representing the deposit to be capped and preserved. In all, the Indexing and Preservation Study at CA-SDI-8303 produced 6 bifaces, 9 arrow points, 1 biface preform, 1 flake blank, 10 battered implements, 18 flakes from battered implements, 3 steep-edged unifacial tools (SEUTs), 2 rejuvenation flakes from SEUTs, 6 flake tools, 1 flake knife, 3 cores, 3,887 debitage, 1 nodule tool, 6 ground stone fragments, 19 manos/mano fragments, 5 metates/metate fragments, 1 polished stone fragment, 449 ceramic fragments, 12 Olivella sp. shell beads, 7 shell disc beads, 1 Cypraea spadicea Swainson (Chestnut Cowry) shell, 1 bone bead, 2 glass trade beads, 1 quartz crystal, 1 fragment of pitch, 2 otoliths, 2 bone tools, 465.4 g of bone, and 32,838.1 g of shell. Disturbance from agricultural activities, bioturbation, and geologic activities was noted in all units. It is probable that CA-SDI-8303 maintains good site integrity. The range of artifacts at CA-SDI-8303 primarily indicates a Late Period habitation/village site occupied at a minimum during the spring and summer seasons (based on availability of plants, animals, and otolith analysis). Flake production from local cobbles, suggests flake tool use. Most likely, these tools were manufactured and used at the site. Hunting activities may have occurred near this site as indicated by the recovery of nine projectile points. The presence of 30 ground stone tools, and 11 battered implements identifies preparation of plant foods through pounding and/or grinding. The presence of shellfish and fish remains, and small to large mammal bone demonstrates the wide range of foods collected, hunted, and processed. In addition, the diverse fish remains suggest a range of maritime activities performed by the inhabitants of CA-SDI-8303. Faunal analysis identified black-tailed jackrabbit, desert cottontail rabbit, brush rabbit, mule deer, Califomia quail, soupfin shark, white croaker, bat ray, Califomia halibut, shovelnose guitarfish, spotfm croaker. Pacific bonito, Pacific sardine, Califomia sheephead, and albacore. This collection suggests that a range of hunting and fishing activities occurred at the site. Analysis of the 33,220 g of shell identifies the majority of shellfish species as Donax gouldii (71.6%), Chione sp. (24.8%) and Argopecten sp. (2.7%). This collection indicates a primary exploitation focus on sandy beach habitats by the inhabitants of CA-SDI-8303, with minimal evidence of exploitation of bay/lagoon/estuary habitats. Prehistoric evidence of trade and travel was identified through the sourcing of obsidian to Obsidian Butte in the Imperial Valley, approxunately 100 miles east/northeast of CA-SDI-8303. An additional obsidian specimen provided trace element concentrations geochemically placing its volcanic glass origin to the Coso Volcanic Fields located in Kem County, Califomia. However, the majority of lithics used for tools were manufactured from local materials. Ceramic analysis identified the pottery samples as Tizon Brown Ware (mountain ware), and Lower Colorado Buff Ware (desert ware). The radiocarbon dating of four shell samples and the presence of glass trade beads place the occupation of site CA-SDI-8303 primarily diu-ing the Late Period from circa AD 980 to historic contact, with minor evidence of an earlier occupation circa 4,600 years ago. Report Reference: Stropes, Tracy A., Jeff Flenniken and Dennis Gallegos 2005 Carlsbad Municipal Golf Course Data Recovery Program for CA-SDI-8694, and Indexing and Preservation Study for CA-SDI-8303 and CA-SDI-8797 Locus C, City of Carlsbad, Califomia. DPR 523H-Test (12/93) • ...... TT: jr/;^ W-123 • • • - i LOCATION: In a deep canyon In the 3:?^-4-^13 il/V central north side of the -^.^ ^ , , ^ ^^.^ Hedionda Block. Elev. 75• pULTURES: Lit. I and Lit. II, NAME: Kelley Spring. Y-III. AREA: Originally spanned the canyon WATER CONDITIONS: At head of this and is cut In two by erosion, canyon in the south fork is a spring Discontinuous with the drain- which has been exposed in recent age. Originally 150» wide, times and appears to have been covered dviring the Littoral period. TYPE: Slough margin midden in a lateral canyon bottom rests ARCHITECTURE: Cobble hearths in the on adobe. Lit. II midden and the Y-III midden. BURIALS: None. Dewey Kelley found an ungathered cremation In the Y-III section. PETROS: None. INTRUSIVES: None. HISTORY: During Lit. I times discontinuous occupation ensued in the north fork bottom and to a point below the fork jtmctlon. Their midden structure is composed of 4' of intercaled midden bands of oysters and hard packed outwash sands with a medium shell and low charcoal content and no artifacts or cobble hearths. Above this occurs a 2' band of Lit. II midden in adobe with the usual bay species complex and heavy NCharcoal. Where it has not been exposed by recent erosionj it is covered With 6" to 12" of outwash. On the knoll between the forks is a Y-III midden capping an extension of the Lit. II midden. The Y-III midden runs 95% to donax. It produces sherds, arrowpoints, and one bow pipe with 3 loop handles. REMARJCS: The adobe midden is difficult to explain as it has the identical appearance of raised slough mud. During a wet period (Lit. II) it might have worked down from higher beds and become gradually incorporated with the Lit. II midden matter. However, this theory is not entirely satisfactory as living conditions would have been hardly possible. In a cut in the Y-III midden, Dewey Kelley found a cremation exposed. The aforementioned pipe and sherds were in it. Note: Survey has shown that W-123 is a large complex of shell and midden deposits, some of which have been separately recorded under different site numbers. As presently defined, the W-123 complex includes these site numbers: W-I892, W-2'f02, W-2'f03, W-2^0^, and W-2730. Of these sites, W-2730 as recorded by RECON is part of the larger site W-I892 as recorded by WESTEC. The present SDM site map is marked to show the maximum boundaries of W-123, incorporating all updates, with the separate loci recorded under other numbers delienated within the overall site boundary. Ken Hedges, Curator 16 November I98I DEl^^\f•1\^)T OF k-AH^s Arm ncC()EATitK.' ~X f. \ S/% X. - ) P.,.,o,:^:-»^^.::^ ..:»n unknown . 2. Tcrnporory ricUl No. CPOl6.5.ZM-X^CP0^ l U5GS0..d __Sm±LdS_Rey _7%'_X_^5— — t UTM CoordLnoUis . • — ~~ ' ' ' ..Txvp. 12 south Range 4 weSt : of _ V' Scc. _ . Northwest of W-601 - 65 mptpr^morthpast of W-123 at 60-70 metprs. r Location ——— : • ^ ~ On terrace that overlooks canyon containing W-123. I r ^ , 8 O'.v.oer & Address unknown . Contour 44^_^^0_^ «• ^ _ v r-u .. u-.r. HkJnrlc 10 Site Description WlflPiy-Prehistoric L. Exhnogroph.c HiMoric lu. r- ^ dispersed shell and lithic midden. • :——— Area 2L >^ ^ °' — . - Surrounding Vegetation _sarne_ . _ il3. Site Vc^iSation _5ag£-r sumac, etc-, , , Pond 100 meters to east. Location & Proximity of V.'ater 15. Site Soil compact loam with JlOdl^ . Surrounding Soil IG. .Previous Excavalion _unknOWn _ — 17. Si.e Disturbance _J^!r>Liittie _ same 18. D"trLi"Ti"n P'^^^-'^ii'ty . r"pg^'ri''~t-^:iJV-cdic^ 19. Features none 20. E^j.iots J19Jl^^.....' - ^ „ numerous flakes, '^fMnPfVKite and basalt toQl^Jj.t^Brs}.^-^^JxRmie3cA- pounder. , . ^ ' • - Species of rhinnp and pecten. SQni£_aiiPPflr-hiirnt 22. Fsunu'i Remains !-— • ~ This site is_S^w.ijdied-Jieti«^ejU.l-423-^4^ 23. Comm ents individual in i tsseim'ng_jjij:::e5ards^ ) . 25 Sketch r/K.|. W j.^ Acct-^'on r!o. . ,^ ,- , 1 • ^andy_X!iaJlkllJL 2G Do-.- H-.-cor.ior! —b=l>^Mi r,._„r,o PilmTvprlO T^-^cr.I^y_. :^3. I'lvoto noil r;o ^-^ . ' ^ \A/-2.130 »5 rvow p'=-«'" W Wn-^ • I I I I I I ARCHAEOLOGICAL SURVEY FIELD OBSERVATIONS SITE DATA RECQN Organization: Project: Signal/Palomar 333-acre Business Park Supervisor: Reorder: Site No. M. Jay Hatiey SDM-W-24n^ M. Jay Hatiey Jescribe Location: Ihe site is located Date: 12/20/7Q CXI a low, flat knoll that gradually slopes to the nort-.h. h Stream and a v^ll developed riparian habitat is located approximately 200 feet to t-he nort-h and aporoximatel V 300 feet southvrest. of the recent camp ground and pon3 complex, (lhe latter i Kelly gprings.) ' Elevation Contour: 75-100 feet above M-^r. Reference Bearings: A: Reference Coordinates: B: —— ^D: UTM coordinates 4724.51E 3665655N f7^nP in Site Dimensions and Description: lhe site is 50 meters x 60 meters with a large amount of •shell fish remains and flaked stone implements. Evidence of subsurface deposit: PptentiaUv has much depth I I I I Other site(s) in vicinityt-Jumerous shell processing sites to the east and-west. There are ^^'=^^ sites located on a ridue to the south. 2 Previous Excavation, Vandalism, or Disturbance; lhe site has been trampled by cattle and mdent have affected it. yny? Mj^t\ I - ^ A (Vx/ -/D, Surface Evidence: Indicate presence by "approximate" count Artifacts: 1 Hammerstone 1-2 Core (frag{s)) 5-10 Flake/Debitaqe v2 Scraper {^Blade Projectile Point Features: ^Roasting Pit/ Hearth Cache/Storage Rock Shelter I _Portable Metate (frag(s)) _Mano (frag(s)) _Pestle (frag(s)) _Thermal fractured rock _Undifferentiated Mound/Pit _Rock Art Burial Cultural Horizon: ^Historic X Late Prehistoric ^Early Milling ^Paleo-Indian Unknown _Non-diagnostic Photo Information: Film Type/ASA: Color prints I- 1+20 Potsherds * Undesignated Shell 2-3 Osteoloqical Remains fUUchCharcoal/Ash Traces 5-lORetouched Tools Others: * iidllions of shell including lone, Aequipecten and donax. stacked Rock: ^enclosure ^wall _alignment _circle cairn Bedrock Ground Stone: basin (round) _basin (oval) _mortar slick Possible Cultural Affiliation: Luiseno Indians site Type: Village X Camp ^Ceremonial _Milling Station _Black/White _Color Print (2) X _Color Slide None Photographer: Hatiey limited Lithic Workshop ^Quarry Others: Others: *Shellfish processing site. Deposition of film: RECaJ files List subjects of photo(s) on reverse: I i I :ationale for conclusions:A hypothsis presented by Hatiey (1979) indicating that Donax would be present on late sites. Ceramic occurrence supports this. " research Potential; Wide range of research interest, dietary requirements, population mpyements, ieasonality of area usage. Lata toward shellfish relative chronologies approach. !otes:Site location as shown oo. U.S.G.S. 7.5-Minute Series Tbpograg^ic Map, San Luis Rey Hiis site may be one loci of SDM-W-123 as recorded by M.J. Itogers. 'Jitional observations, measurements, drawings and comments on reverse: X Yes No I I I I I I I I I I Ceramic sherd at SDM-W-2403, loci of SDM-W-123 Profile Edge view of puntate Decoration at tip of rim San Diego Brown II, var "A' I n 0 n If 11 I I I ARCHAEOLOGICAL SURVEY FIELD OBSERVATIONS ENVIRONMENT Organization: RECO^ Project: Signal/Palomar 333-acre Business Park Ypervisor: M. Jay Hatiey •ecorder: M. Jay Hatiey Site No.; SDM-^'7-2403 Date: 12/20/79 Life Zone: (San Diego County) X Coastal Inland Valleys and Mesas ^Foothills (Western Slope) Mountains _Desert Foothills (Eastern Slope) Desert Plant Communities: (San Diego County) ^Coastal Strand Coastal Salt Marsh ^Freshwater Marsh X_Coastal Sage Scrut(recent bum) jChaparral _Valley Grassland _Southern Oak Woodland _Montane Coniferous Forest _Sagebrush Scrub _Pinon-juniper Woodland Creosote Brush Scrub ' Alkali Sink *Riparian habitat to the north Weather Observations; Warm and clear with a light breeze. Wirid from: West Animals Observed: Itone Dominate Plants Observed: Willows of the riparian habitat, etc. Specimens collected: Itone ocal Water Sources; 200 feet nortli at riparian zone. Soil Description/Composition: Sand/silt (expanding mud) fine grained sediments of.eocene age. Soil Color;Med brown off site, dark on site Munsell Color Code: Deposition: I Soil Samples Taken: Itone [Possible Environmental Factors Contributing to Site Presence: tfearness to tlie water. Ihis is . an ecotone situation. Bonding with Agua Hedionda Lagoon environment with sage scrub ecology tt east. I Additional Notes: lhe site is located on a +2% slope. t I I I 1 I I t I state of California - The Resources Agency Department of Parks and Recreation ARCHAEOLOGICAL SITE SURVEY RECORD Site No. SDM-W-2403 Previous Site Designation 2. Temporary Field No. SP-4 USGS Quad San Luis Rey 7.5' X 15' Year 1975 UTM Coordinates 472451E 3665655N (Zone 11) Uiquartered section Twp«_TllS Range R4W : ^qtr. of ^gtr. of Sec. I 6. Location; lhe site is located on a low, flat knoll that gradually slopes to the north. A stream and a well developed riparian habitat are located approximately 200 feet to the north and approximatley 300 feet southv^st of the recent camp ground and pond complex. (The latter is Kelly Springs.) 7. Contour 75-100'MSL 8. Owner & Address Late ~~~ 9. Prehistoric Ethnographic Historic 10. Site Description lhe site consists < a large amount of shellfish remains and flaked stone implements. 11. Area 50 x 60 meters; 3,000square meters 12. Depth of Midden Unknown I 13. Site Vegetation Willows of the riparian Surrounding Vegetation habitat. Location s Proximity of Water Ihere is a stream approximately 200 feet to the north. 15. Site Soil Sand/silt (expaning mud), fine Surrounding Soil ^ - grained sediments of the Eocene age. 16. Previous Excavation 17. Site Disturbance lhe site has been trampled by cattle and rodents have affected it. II' 18. Destruction Possibility ' 11 19. Features NOne 20. Burials Itone roted I I I I I I 21. Artifacts 1 hammerstone, 1-2 cores, 5-10 flake/debitage, 2 scrapers, +20 potsherds, 2-3 osteological remains, 5-10 retouched tools, an abundance of charcoal ard ash traces and shell. ~ '• 22. Faunal Remains None 23. Comments: ^4. Accession No. 25. Sketch Map None by where 26. Date Recorded 12/20/79 2 7. Recorded by M. Jay Hatiey 28. Photo Roll No. Frame No. Film Type(s) Taken By DPR 422 (Rev. 9/76) I I I i I 1 I I I t I I I I I I I I % Destroyed How Test Excavated %, if known Nafl Register Status: Listed Potential No DeterminationX Nominated Ineligble State Historical Landmark (No.) Point of Historical Interest SPECIAL ATTRIBUTES (Place an X in only those spaces vhich pertain to the site) Midden/Habitation Debris Lithic and/or Ceramic Scatter X BedrocJc Mortars/Milling Surfaces Petroglyphs/Pictographs Stone Features ^^^^^^^i Caches Hearths/Roasting Pits Housepits Structure Remains Underwater Open AlrX Rockshelter Cave_ Quarry _ Trails Remarks! SKETCH LOCATION MAP (Include permanent reference markers. North Arrow, and Scale) Attached SKETCH SITE MAP (Same criteria as above) See attached RECON site form I I I I I I I I I I I I I I I I I I I LEGEND 1. SDM -W -123^:?^'?^ . 7. 2. SDM -W -2730«?^'3£-8. 3. SDM -W -18 92^^?^^, 9. 4. SDM -W -2402^^''^" 10. 5. SDM--W -2401-^^^7 11. 6. SDM -W -2400 - f^^Sf 12. SDM-W-2403 'l \,.,pr SDM-W-2404^'^"' SDM-W-600 SDM-W-1894 ^V^y SDM-W-12 8 It'^f^ SDM-W-1893 y$y2) 13. SDM -W-•2407 - 14. SDM -W-•2406 15. SDM -W-•2405 -ii.9^ 16. SDM--w-2408 17. SDM--w-1895 I I I I I I I t I I I I i I I I I I I zoo AOO eOOM. '; Site locations as shown on U.S.G.S. 7.5-Minute Series Topographic Maps, San Luis Rey and Encinitas quadrangles. , RECON - ARCHAEOLOGICAL SITE DATA - SHORT FORM U.S.G.S. Quad San Luis Rey I Site No.: SDM- W-24Q4 SDI- Field No. SP-5 .'P^°3^<=t Signal /Palomar Recorded by M. Jav Hatlev Date 12-20-79 I lte Description ihe site consists of a medium amount of shellfish material with light amount c other culturally related material—has potential for subsurface aspect. Jjsite dimensions 40 meters x 15 meters Culture Pattern Unknown Artifacts Some flakes and ceramics vere found on the site. Ecofacts Shell, Chione, Argopecten Features None Mpisturbance Ihere is limited erosion I I I Soil type and color Expanding clay and mud Geology Expanding clay Elevation 75 to 100 feet MSL Local Water Sources +30 meters to the north is an intermittent drainage. Plants observed Riparian habitat to the north. Animals observed None ctoserved. Joe scribe location ihe site is located off a low bench to the east of SDM-W-2403 overlooking an unnamed valley that trails into Agua Hedionda Lagoon. t; TM Coordinates 472512E 3665662N (T/pne 11) IReference bearings/remarks This site is much more SParce than SDM-W-2403. It could be .j^sociated with a single person encampment (possibly an outcast). r awings/Photos Itone I I I Sketch map: Scale 1cm. = meters o ^^R--2. \ / •/•-..30 ?.70 :9o Symbols Used I80 I I I I I t I I 1 I I I I I state of California - The Resources Agency Department of Parks and Recreation ARCHAEOLOGICAL SITE SURVEY RECORD Site No.SDM-W-2404 sjL. Previous Site Designation 2. Temporary Field No. SP-5 3. USGS Quad San Luis Bay 7.5' X 15' Year 1975 4. UTM Coordinates 472512E 3665662N Unquartered section 5* Twp« TllS Range R4W : ^qtr. of ^qtr. of Sec. 6. Location; lhe site is located off a low bench to the east of SDM-V7-2403 overlooking an unnamed valley that trails into Agua Hedionda Lagoon. 7. Contour 75-100'MSL 8. Owner & Address ^ 2 Unknown 9. Prehistoric Ethnographic Historic 10. Site DescriptionThere is a liedium amount of shellfish material with a light amount of other culturally related material. Tn site has potential for subsurface aspect. ^ 11. Area 40 x 15 meters,-600 square meters 12. Depth of Midden Unknown 13. Site Vegetation Riparian habitat to north Surrounding Vegetation Riparian habitat 14. Location s Proximity of Water ^30 meters to the north is an intermittent drainage. ). Site Soil Expanding clay and mud Surrounding Soil Clay ar>3 mud _^ 16. Previous Excavation None 17. Site Disturbance There is limited erosion. 18. Destruction Possibility 19. Features None noted. 20. Burials None rx3ted. 21. Artifacts Some flakes and ceramics viere found on the site. I t I ,2 2. Faunal Remains None noted. 3. Comments: Accession No. 25. Sketch Map by where Date Recorded" 12/20/79 27. Recorded by M- J^Y ^^atley |i!8. Photo Roll No. Frame No. Film Type(s) Taken By DPR 422 (Rev. 9/76) I I % Destroyed How Test Excavated %, if known Nat'l Register Status: Listed Potential No Determination x Ncxninated Ineligble State Historical Landmark (No. ) Point of Historical Interest SPECIAL ATTRIBUTES (Place an X in only those spaces which pertain to the site) Midden/Habitation Debris Lithic and/or Ceramic Scatter CTHER: Shell Bedrock Mortars/Milling Surfaces Petroglyphs/Pictographs Stone Features Burials Caches Hearths/Roasting Pits Housepits Structure Remaiins Underwater Open Air Rockshelter Cave Quarry Trails Remarks: SKETCH LOCATION MAP (Include permanent reference markers. North Arrow, and Scale) Attached % SKETCH SITE MAP (Same criteria as above) See attached RECON site form K363 3 RECON - ARCHAEOLOGICAL SITE DATA - SHORT FORM Site No. : SDM- W-2402 SDI- U. S.G.S. Quad San Luis Rey Field No. SP-3 ect Signal/Pal c^Tiar Recorded by M. Jay Hatiey Date12-20-79 ite Description lhe site consists of an intensive deposit of shellfish remains with wide rang, of species represented. Site dimensions 20 meters x 30 meters Culture Pattern Unknown at this time Artifacts artifacts were cbserved at this site. Ecofacts Chione, Aquipecten, Donax, and Oyster Features None Disturbance Has been driven on, rodents have dug into it, and has limited earth moving activit- Soil type and color Brown mud and silt Geology Rolling mud hills, eocene in age Elevation 65 to 75" feet MSL Local Water Sources Ihere is an unnamed creek to the north (not flowing) and a pord to the eas Plants observed There has been a recent burn, but mustard is caning back. Animals observed Birds and deer tracks Describe location lhe site is located in the lowlands at the base of an expanding mud fomatio: This lowland area leads to Aqua Hedionda Lagoon. •UTM Coordinates 472390E 3665610N (Zone 11) eferenc ^razing .Reference bearings/remarks The area has had limited impacts from soil testing and cattle irazing. >7^ UJI ^ f/jj-l^h r awings/Photos Itone Sketch map: Scale 1cm.= 2 meters 330 . 300- :.60 90 2^ a. I20 Symbols Used 2IO mo state of California - The Resources Agency Department of Parks and Recreation ARCHAEOLOGICAL SITE SURVEY RECORD Site NcSDM-W-2402 .^1. Previous Site Designation 2. Temporary Field No. SP-3 3. USGS Quad San Luis Rey 7.5'X 15' Yearl975 4. UTM Coordinates 472390E 3665610N [ . Unquartered section ^' T^P-TUS Range R4W _: ^gtr. of ^qtr. of Sec. 6. Location: The site is located in the lowlands at the base of an expanding mud fonnation. Ihis lowland area leads to Aqua Hedionda Lagoon. 7. Contour65-75'MSL 8. Owner & Address Unknown ~ ' ' 9. Prehistoric Ethnographic Historic 10. Site Descriptioriihe site consists O an intensive deposit of shellfish remains with a wide range of species represented! 11. Area20 x30 meters; 600_sauare meters 12. Depth of Midden Unknown 13. Site Vegetation There has been a recent Surrounding Vegetation burn, but mustard is coming back. ~~ — 14. Location & Proximity of Waterlhere is an unnamed creed to the north (not flowing) and a pond to the east ~ '' ' : — J. Site Soil Brown mud and silt surrounding SoilBrown mud and silt 16. Previous Excavation None 17. Site Disturbance The site has been driven on, rodents have dug into it, and it has limited earth movesnent. —— . . __— 18. Destruction Possibility 19. Features None noted. 20. Burials None noted. 21. ArtifactsItone noted. 2 2. Faunal Remains None roted. 2 3. Comments: where Accession No. 25. Sketch Map by Date Recorded 12/20/79 27. Recorded by MTj^y Hatley" 8. Photo Roll No. Frame No. Film Type(s) Taken By DPR 422 (Rev. 9/76) % Destroyed How Test Excavated %, if known ) Nat'l Register Status: Listed Potential No Determination X Ncaninated Ineligble state Historical Landmark (No. ) Point of Historical Interest SPECIAL ATTRIBUTES (Place an X in only those spaces which pertain to the site) Midden/fiabitation Debris Lithic and/or Ceramic Scatter OTHER: Shell Bedrock Mortars/Milling Surfaces Petroglyphs/Pictographs Stone Features Burials Caches Hearths/Roasting Pits Housepits Structure Remains Underwater Open Air X Rockshelter Cave Quarry Trails Remarks: SKETCH LOCATION MAP (Include permanent reference markers. North Arrow, and Scale) Attached SKETCH SITE MAP (Same criteria as above) See attached RECON site form r 1. Stats of Califof"'* — The Resources Ags'ncy DEPARTMEfifT OF PARKS AND RECREATION ARCHEOLOGICAL SITE SURVEY RECORD , _ SITENo. S/^l -'^^-^ Previous Site Designation SDM-W-123 \Kipio^^2. Temporary Field No. Vblll. ,3. USGS Quad ^ San Luis Rev ^ TA' 7^. 15' Year 19.68 (Rev. 1975) 4. UTM Coordinates 11 /4723Q0E/3665680N-4726^nnF /366R7n0N-47?6O0F/3666400N Twp. ns. Range 4W ' , N/A y..of _M Sec N/A 5. 6.' Location Historic Kellv Spring. Middens and shell scatters at and : ^nrrn.indfnQ Kellv Soring. At head of canyon containing southern drainage to Aoua Hedionda. 2 km east of Aqua Hedionda. 70Q m north west of - Palomar Airport. 800 m south of Evans Point. ; _ —_ 7. Contour .-160-22Q.' 8. n^.r^.r^ c^drir^. The Koll Company 9. Prehistoric XX Ethnographic 1X_ Historic _XX_ 10. Site Description Ser^e5 _ of midden deposits and shell scatters at and surrounding spring at head of canyon. • ' , '• • 11. Area 300 x 170 meters. 51,000 square meters. 12. Depth of Midden 13. Site Vegetation landscape/oatS Surrounding Vegetation COastal chaparral <;nrinn nn site Aaua Hedionda 2 km. 14. Location & Proximity of Water spri ng on biLK. n^ua . _ 15. Site Soil sooty shell midden surrounding Soil day loam _^ 16. Previous Excavation None observed. 17. Site Disturbance Old trailer park, farming, rodent, Orv. 18. Destri^ctionPossibility Pr.oposed pipeline and road easement. 19. Features Hearths. - Cremation reported by Rogers. 20 Burials Ungathered cremation reported by Rogers. ; ^ 21. Artifacts Chert, rhyolite. and quartz flakes, cobble manos. milling stone frags., rhyolite and quartz cores and core tools, paddle-and-anvil brownware pottery sherds. Rogers reports pottery pipe and arrow points.. 22. Faur^i Remains SheH fish remains: Chione spp., Aequipecten sp., Donax sp., Ostrea sp., and Mytilus sp. , —. —- 23 Comments This is a large, multi-component habitation site related to Agua Hedionda. Site covers 20 + acres. —C^-JX- fo^^/^ . .. ^c- o,. u vp<; K.. RD ^h^r^ attached . 24. 26. 28. Accession No. - 25. Sketch Map ZeS_ by ^ where Date Recorded 9-8-80 27. Recorded By R. DOUglaS ^ Wgjl Photo Roll No. _L_ Frame No. 7-16 FilmType(s) P1"S-X jaken By ^- 0OU^^^S DPR 422 (Rev. 9/76) state of California - The Resources Agency Department of Parks and Recreation ARCHAEOLOGICAL SITE SURVEY RECORD 1. 3. 4. 5. 6. Site No. SDM-W-123 Previous Site Designation USGS Quad San Luis Rey UTM Coordinates 3665792N 472396E Twp.TIIS 2. Temporary Field No- 7.'5' X 15' Yoflr ' ^ ^^^^ 1975 Range R'^W Unquartered section gtr. of ^gtr. of Sec. Location: lhe site occupies the bottom and margins of a large, unnamed drainage to Agua Hedionda Lagoon, located about one mile to the northwest. Palomar Airport is about 610 meters (0.4 mile) southeast of Kelly Springs. ' ~~ ; 7. Contour ^°~1^0' MSL 3. Owner & Address . . ' La Jolla to Luiseno ~ 9. Prehistoric x Ethnographic x Historic 10. Site Description This is an update on the location and size of SDM-•W-123, which is a large complex of continuous shell and/o midden deposits. ; 11. Area366 x244 meters; Q^304square meters 12. Depth of Midden Unknown 13. Site Vegetation Plants include native coastal sage and riparian species, and exotic grasses, shrubs, and trees. "^4. Location s Proximity of Water^^Hy Springs is in the southeast portion of the site. 15. Site Soil Gray-brown to black sandy loam Surrounding Soil 16. Previous Excavation 17. Site Disturbance Cultivation, a road, an abandoned trailer park, drainage control and pot hunting are evident. ' ~~~~ ~—~ 18. Destruction Possibility 19. Features 20. Burials ^ cremation was taken from Y-III deposit by a local. 21. Artifacts Potsherds, milling stones, flaked stone tools, flakes and debitage. 22. Faunal Remains 23. Comments: ) ' /4. Accession No. 25. Sketch Map by where 26. Date Recorded ~~ JT. Recorded by David C. Hanna 28. Photo Roll No. Frame No. Film Type(s) Taken By DPR 422 (Rev. 9/76) ^Vi JON -.ARCHAEOLOGICAL SITE DATA - SHORT FORM ite No. SDM-W-123 SDI- U. S.G. S. ^ad San Luis Rey Field No. roject Signal Palomar, R-1166 Recorded by David C. Hanna Date 8/14/80 ]te Description This is an update on the location and size of SDM-W-123 which is a large complex of continuous shell and/or midden deposits. Site dimensions 366 meters x 244 meters Culture Pattern La Jolla to Luiseno Artifacts Potsherds, milling stones> flaked stone tools, flakes and debitage Ecofacts Dense shell; Chione, Argopecten, Donax, Ostrea, Saxidomus, Protothaca Disturbance Cultivatjon, a road, an abandoned trailor park, drainage control and pothuning are /evident Soil type and color Primarily gray-brown to black sandy loam Geology ch^^^^^^-^yy (mostly Holocene) alluvium and colluvium Elevation 60—190' MSL Local Water Sources Kellv Springs is in the southeast portion of the site. Plants observe d_ include native coastal sage and riparian species and exotic grasses, shrubs, a Animals observed ^^^^ /trees. Describe location Thp sitp ocrnnies the bottom and margins of a large, \mnamed drainage to Ac Hedionda T.^ignon. Inratprl ahnnt DTIP milp tn the southeast Palomar Airport is about 610 meters rO.4 miTp) tn thp nm-t-hwAgt . UTM Coordinates ?fifiS7q?N 47?-^q6K deference bearings/remarks sj^^^ ^rtA-Vl-7Aa7. ?4n^ ^nd 7404 ^rtii^lv part of SDM-W-123. ) ^ ^ t^^.ns A nf SDM-W-123 has hppn ent by two trailer tprraces and 2 stratigraphic profiles show —dppth nf fibnnt ^OrTn.—An prnc;-ina1 cut past-north e;^st of SDM-W-2404 shows .qhell depth of about 1 |Drawings/Photos_ SPP attanhpri m^p^ Sketch map: Scale 1cm. = ^ ^meters *in the southern part of SDM-W-123 o 3 JO :.60 '2u Symbols Used 2IO I 60 o 2h /^if^J y2r~^% . . "70 17'30 • • • . INrCHIOn—GEOt-OOICAL SURVEY. HESTON VIRCINIA— 107B '75 jCNClNITAS B Ml. <75000nl.£^ 117° 15 33"'C 1 MILE t TEET ROAD CUSSIFICATION Light-duty. IftR QUADRANGLE LOCATION Heavy-duty Medium-duty Unimproved dirt = = i Interstate Route ; ' State Route SAN LUIS REY, CALIF. NE/4 OCEANSIDE IS' QUADRANGLE N3307.5—Wn715/7.5 % Destroyed How Test Excavated %, if known ) Nafl Register Status: Listed Potential No Determination ^ Nominated Ineligble State Historical Landmark (No.) Point of Historical Interest SPECIAL ATTRIBUTES (Place an X in only those spaces which pertain to the site) Midden/Habitation Debris X Lithic and/or Ceramic Scatter Bedrock Mortars/Milling Surfaces Petroglyphs/Pictographs Stone Features BurialsJC— Caches Hearths/Roasting Pits Housepits Structure Remains Underwater Open Air X Rockshelter Cave Quarry Trails Remarks« M.J. Rogers reports a cremation was taken from Y-III deposit by a local. Midden exposures show depths ranging 50 cm to i meter. anell includes Chione &p., At.gop&cteA Sp. Donax sp. , Ostrea sp., Saxidomus sp., and Protothaca sp. Sites Sl3M-W-24U2/;j4UJ/ 2404 are— parts of SDM-W-123. ~ SKETCH LOCATION MAP (Include permanent reference markers. North Arrow, and Scale) Attached ^ SKETCH SITE MAP (Same criteria as above) See attached RECON site form II If ir II LEGEND Cultural Site t^^ Scattered Deposit ? Uncertain Extent of Deposits on Sewage Treatment Plant • • • Failsafe Outfall Sewer Line K22U, 'X \ ^ / /...- . I Approxlnat* boundary of /f / / continuous ahell and/or •ldd«n deposits y Scatter asBOolated with aaln alts deposito Area of uncertainty, "? alto Bay extend beyond ppod boundary A I e 0 REC0N .1'.' V'V O ZO 60 M. RECON - ARCHAEOLOGICAL SITE DATA - SHORT FORM Site No. SDM- W-2 730 SDI- U. S.G.S. Quad_ Field No. San Luis Rey roject Signal Palomar, R-1166 Recorded byDavid Hanna Date 8/14/80 xte Description This site is a very light shell scatter covering about 0.7 acre. Soil is thin, bedrock outcrops are present, and erosion is bad due to a recent fire. Site dimensions 85 meters x 46 meters Culture Pattern Nondiagnostic Artifacts One porphyritic basalt flake Ecofacts Chione, Argopecten, Donax Features Disturbance Postfire erosion and dirt roads have caused impacts. None noted Soil type and color Thin, tan, sandy material with areas of rock outcrop. Geology Metavolcanics and marine terrace deposits Elevation 166-180'"MSL Local Water Sources Kelly Springs is about 175 meters to the south-southwest. Plants observed Chaparral/coastal sage is recovering from fire. Animals observed None Describe location The site occupies a bench-like area above steep slopes falling westward towa SDM-W-123 and Kelly Springs. Site SDM-W-1892 lies about 60 meters to the south-southeast. UTM Coordinates 3665945N 472655E "Reference bearings/remarks It is not clear whether this is a badly eroded light, shallow midd ir simply a surface scatter. Dr awings/Photos Sketch map; None Scale 1cm.= See attached map _meters O .••GO 90 Symbols Used " -. 160 I state of California - The Resources Agency Department of Parks and Recreation ARCHAEOLOGICAL SITE SURVEY RECORD Site No. SDM-W-2 730 ) 1. Previous Site Designation 2. Temporary Field No. 3. USGS Quad San Luis Rey 7. 5'_X 15' Year 1975 4. UTM Coordinates 3665945N 472655E Unquartered section 5* Twp._T1jS Range R4W ; ^qtr. of ^gtr. of Sec. 6. Location; The site occupies a bench-like area above steep slopes falling westward toward SDM-W-123 and Kelly Springs. Site SDM-W-1892 lies about 60 meters to the south-southeast. 7. Contour 166-180' MSL8. Owner & Address Nondiagnostic 9. Prehistoric Ethnographic Historic 10. Site Description This site is a ver; light shell scatter covering about 0.7 acre. Soil is thin, bedrock outcrops are present, and erosion is bad due to a recent fire. 11. Area 85 x 46 meters,-3910 square meters 12. Depth of Midden Unknown 13. Site Vegetation Chaparral/coastal sage is Surrounding Vegetation recovering from ai fire " )4. Location & Proximity of Water Kelly Springs is about 175 meters to the south-southwest. 15. Site Soil Thin, tan, sandy material with Surrounding Soil areas of rock outcrop. 16. Previous Excavation 17. Site Disturbance Postfire erosion and dirt roads have caused impacts. 18. Destruction Possibility 19. Features None noted 20. Burials None noted 21. Artifacts One porphyritic basalt flake 22. Faunal Remains Chione, Argopecten, and Donax were found. 23. Comments: 24. Accession No. 25. Sketch Map by where 26. Date Recorded 8/14/80 2 7. Recorded by David Hanna 28. Photo Roll No. Frame No._^ Film Type(s) Taken By DPR 422 (Rev. 9/76) I % Destroyed How Test Excavated_ 1 I I I I I I I i I 1 ) I I %/ if known ) Nafl Register Status; Listed Potential_ No Determination_f_ Nominated Ineligble a State Historical Landmark (No.) Point of Historical Interest - SPECIAL ATTRIBOTES (Place an X in only those spaces which pertain to the site) Midden/Habitation Debris X Lithic and/or Ceramic Scatter I Bedrock Mortars/Milling Surfaces Petroglyphs/Pictographs Stone Features Burials Caches Hearths/Roasting Pits Housepits Structure Remains I Underwater Open Air X Rockshelter Cave Quarry •Erails Remarks: This is a portion of SDM-W-1892. Presence/absence of midden is unclear. SKETCH LOCATION MAP (Include permanent reference markers. North Arrow, and Scale) Attached SKETCH SITE MAP (Same criteria as above) See attached RECON site form 1 B. THE KELLY SPRINGS SITE COMPLEX (SDM-W-123) ^PdoTt Because the Kelly Springs site complex is composed of several elements which overlap, have been disturbed, and are spacially separated, the exact conformation is difficult to determine. Trench excavations at this site proceeded in two parts. The trencher excavated down the east- ern slope to the drainage bottom, where it was necessary to stop due to the wetness and instability of the soil. A backhoe excavated along the drainage bottom from the west, through the riparian area, and connected with the eastern portion. Due to the instability of the soil, the trench excavated with the backhoe was up to ten feet wide In some areas. The eastern part of the trench crossed the shell and midden deposit at an elevation approximately ten feet above the drainage bottom. At this point an abrupt change in the soil was observed. The light orange sandy clay changed to dark brown loam. Shell remains were ob- served sporadically in the sidewalls at the higher areas and became dense towards the center of the drainage. This area of the trench is shown in Photograph 2. The western part of the trench was excavated in the drainage bottom after descending from the high point at SDM-W-120. At a point approximately 150 meters west of the eastern trench crossing, shell was observed in the sidewalls. Many other stone artifacts, including flakes and tools, were observed on the surface. The cultural deposit was con- tinuous from this point to the creek crossing. Because this part of the trench was excavated with a backhoe, it was impossible to see an undis- turbed profile of the site in the trench. Impressions of the stratig- raphy seemed to confirm observations of earlier investigators that the cultural deposit is interspersed with alluvium and clay deposits. In an effort to clarify the actual extent of the site complex and to define the areas of disturbance, a brief survey of the surrounding area was conducted (Photograph 3). High areas to the northwest of the drainage were very visible due to ongoing plowing. The cultural deposit continued up this slope and consisted of dark soil, shell, flakes, and pottery. Heavy riparian and chaparral growth are still in existence on the south slopes. This made surface observations difficult, although shell was seen. To the northeast, the deposit continued up the drainage to the point where the adjacent slopes constrict the creek to a narrow draw. The area beyond this point was not investigated. An erosional cut at this constriction revealed a very dense shell deposit to a depth of at least a meter. Areas of disturbance are extensive on the site. Disturbance from prior use of the area as a trailer park is difficult to define as dense vegetation has regrown. Remnants of graded pads can be observed adjacent to the creek just north of the trench crossing. Several large terraces were excavated into the northeastern slopes and are visible from a distance. Remnants of the asphalt access road can be seen along the west and east edge of the creek. Recently, a 40-by-40-meter concrete slab has been installed as the base for a shooting range. This slab had obstructed the drainage for the creek, was washed out, and has been reconstructed (Burton, SDG&E, 5/22/86). Additional disturbance has 1 s p p p p p p State of California - The Resources Agency ECPARTMEKT OF PARKS AND RBPIEATION Primary # CONTINUATION SHEET HRI #/Trinomial CA-SDI-8303 Page 1 of 3 —— ^Continuation X Update Propertv Name/Temr>orarv#: CA-SDI-83(B was tested with the excavation of 51 shovel test pits and five 1x1 meter units. STP depths ranged from 30 to 100 cm, and the units were excavated to depths from 40 to 90 cm. A limited amount pf surface collection was also performed. Cultural materials recovered include: 2 bifaces, 1 core, 6 core/cobble tools, 9 utilized flake tools, 7 projectile points, 972 pieces of debitage, 3 mano fragments, 2 met^ fragments, 2 bowl fragments, 1 ochre stone, 6 pieces of unidentified ground stone, 86 pieces of Native Amaican ceramic, 1 imported stone, 13730.85 g of shell, including 7 Olivella sp. beads and one Haliotis sp. fish hook, and 122.75 g of bone. The lithic artifact assemblage from CA-SDI-8303 suggests that the habitation was long term, with multiple tasks taking place at the site. Imported lithic materials indicale trade networks extending as far east as the Salton Sea area, and to the north at least as far as Camp Pendleton and San Onofre. TTie occurance of Cottonwood Triangular points and ceramics places the major occupation of the site during the Late Prehistoric period and the composition of the lithic assemblage is indicative of an important, possibly long-term habitation site. The site has been identified as significant under CEQA. Report reference: Historical/Archaeological Survey and Test for tiie Carlsbad Municipal Golf Course, City of Carisbad, Califomia; Dennis Gallegos et al (1999) DPR 523H-Test (12/93) CA-SDI-8694 i I I State of Califomia - The Resources Agency DEPARTMENT OF PARKS AND RECREATION CONTINUATION SHEET Page 1 of 1 Primary # . HRI #/Trinomial CA-SDI-8694 Continuation X Update Propertv Name/Temporarv#: The purpose ofthe data recovery program for CA-SDI-8694 was to adequately address mitigation of impacts through the completion of the excavation of forty-four Ixl-m units, artifact cataloguing, data analysis, and special studies. The data recovery program for CA-SDI-8694 provided for a 2 to 5 percent phased excavation of the primary site area (3,000 sq. m). This program included excavation of 1x1-m sample units, block excavations, feature excavation, analysis of artifacts and ecofacts, and radiocarbon dating. The research orientation for this study focused on chronology, lithic technology, settlement and subsistence strategy, environmental setting, and trade and travel. In all, this work produced 4 bifaces, 5 cores, 1 piece of tested raw material, 8 nodule tools, 4 utihzed flake tools, 4 steep-edged imifacial tools (SEUTs or adzes), 10 flakes from SEUTs, 2,367 debitage, 1 hammerstone, 22 battered implements, 19 flakes from battered implements, 61 manos/mano fragments, 6 metates/metate fragments, 18 ground stone fragments, 1 shaped stone, 260 ceramic fragments, 1 Olivella sp. shell bead, 2 bone awls, 1 bone fishing toggle, 1 bone bead, and 1 possible otolith pendant. Faunal material recovered includes 76,492.08 g of shell, 4 otoliths, and 167.9 g of bone. Disturbance from construction, agricultural activities, and bioturbation was noted in all units. The range of artifacts at CA-SDI-8694 indicates a habitation/village site occupied at a minimum during the spring and summer seasons (based on otolith analysis). Flake production from local cobbles, suggests flake tool use. Most likely, these tools were manufactured and used at the site. Hunting activities may have occurred near this site as indicated by the recovery of two projectile points. The presence of 85 ground stone tools, and 21 battered implements represents preparation of plant foods through pounding and/or grinding. The presence of shellfish remains, and small to large mammal bone demonstrates the range of foods collected, hunted, and processed. In addition, the large number offish remains suggests a range of maritime activities performed by fhe inhabitants of CA-SDI-8694. Faunal analysis identified coyote, black-tailed jackrabbit, mule deer, Califomia ground squirrel, desert cottontail, brush rabbit, Botta's gopher, soupfin shark, white croaker, bat ray, Califomia halibut, shovelnose guitarfish, spotfm croaker. Pacific bonito, Califomia sheephead and albacore. This suggests that a range of hunting, fishing, and collecting activities occurred at the site. Analysis ofthe 76,492.08 g of shell identified the majority of shellfish species as Chione sp. (71.3%), Argopecten sp. (19.4%), Ostrea lurida (7.2%), and Polinices (0.9%). This collection indicates that the site's inhabitants likely exploited the nearest lagoon habitat (Agua Hedionda Lagoon), and occasionally visited other open coast shoreline areas. The presence of Obsidian Butte obsidian and various cherts suggests possible movement or contact with nearby desert locations, and contact with the inhabitants of the southem Orange County region. However, the majority of lithics used for tool manufacture was locally procured. Ceramic analysis identified the pottery samples as Tizon Brown Ware (mountain ware), Salton Brown Ware (desert ware), and Lower Colorado Buff Ware. Radiocarbon dating of four shell samples places site occupation primarily during the Early Period (Middle Holocene) circa 5,160 to 7,500 years ago. In addition. Late Period reoccupation is supported by two radiocarbon dates identifying occupation from AD 1000 to AD 1910. These dates are additionally supported by the presence of one Cottonwood Triangular arrow point and ceramics. As demonstrated by the dates recovered and the shell and artifact assemblage, CA-SDI-8694 is a multi-component site with both Early and Late Period occupations. Report Reference: Sti-opes, Tracy A., Jeff Flenniken and Dennis Gallegos 2005 Carlsbad Municipal Golf Course Data Recovery Program for CA-SDI-8694, and Indexing and Preservation Study for CA-SDI-8303 and CA-SDI-8797 Locus C, City of Carlsbad, Califomia. DPR 523H-Test (12/93) t I I I 1 I I I I W-128 TT: le/;^ ^ cL^\e ^7/ CULTURES: ""Lit. I and! II and trace of Y-III. WATER COHDITIONS: Kelley Spring 1/4 mile north and 850* below this hill. :5 V 2 ' ^ (^"li rOCATIOlT: Central nortli part of th^ Hedionda Block. "Etev. SAVE; None. AREA: 150« H. as S. x 60» E. je W. TYPE: Highland accretion midden. Rests on the red crag. occur in inedium mnnbBTs. BURIALS: Sone. PETROS: None. IHTRUSIVES: Hone. HISTORY: Occupation begins with a 10" Lit. I midden beginning on the red crag. Has a very high shell content and low charcoal. Is of the characteristic sandy nature, very Indurated with lime lenses running through it. Has a high percentage of iron concretions cemented in it. Over it lies a 16" Lit. II midden of only medium shell content with many small river cobbles in it. Constitute about of the bullc of the midden. In a sway in the center the donax is strong on the surface and .this part looks fresh enough to be of Y-III age. However, only 2 sherds j-ere found on it. Also an inland trail from the coast to the San MaT>cus region ran over the site. R^ARKS: Jo metate evidence found and only 2 manos found on the midden. AZ Its north end in an outcrop of the red crag are several bed rock metates. This is an unusual site &r a deep midden as this high but small hill is nothing but a residual block of the red crag which at this point is rull of river cobbles like pudding stone. The midden is perched on this outcrop which stands shear on the north and west sides. Lit. I level should be laid bare and excavated. Would be a difficult job however as it is too hard to pick without breakaige. I I Site AH-M-1 SDSC Archaeological Site Survey flecord \AJ - Map San Luis Rey County San Die;oErosion: little or none none Y. Elevation approx. 320' U.C. # —«fc ^. . r, . ^. unknown Previous Designation: Owner 5 address: unknown Attitude toward excavation: unknown Location: South of upper Agua Hedionda Lagoon Description of site: Area: 100 ft. by 50 ft. approx. Depth: 15 to 30 inches Soil: (both site § surrounding) Very dark brown - buff tan, abundant shell Water supply: "•^^^•^ygl^s ^ "laterial in^mldden Possibility of destruction: unknown Vegetation: chaparral,coastal Previous excavation: none Important features: none Burials: none Artifacts: (surface collection) yes no x Brief description: Hammerstone, scraper, maho frags Excavation potential: good Date: 8/13/7A Recorded by: J.R, Moriarty ;.... .v-.f^.. Location W^WW2Wm2^?- Sketch map a-Scale used b-Location of site marker c-Indicate magnetic or true north I Sec. ketch location of features important in relation to site. I From Archaeological Report on Palomar Business Park, ArchaeoloqicaljSites: SDM-W-1893, W-1894, W-1895, W-2405, W-2406, W-2407, W-2408 and W-128 by Scientific Resource Survesy, Inc., dated August 1982 ^(2>^^l ) probably through imitation. When mother went to pound acorns or gather abalone. certainly some of the time her actions wore being imitated by her children. Just as kids today help Dad rake with a miniature rake, Indian children children must have helped adults in their various activities with similar miniature tools. In Florence Shipek's book The Autobiography of Delfina Cuero, Delfina Cuero recalls that "my parents used to show me how to crack and grind mananita berries and make a drink" (page 31) and " The children helped their mothers, even with pounding abalone" (page 57). It seems unlikely that a child would be expected to use a normal size tool which would be awkward and cumbersome and make the task unpleasant, but that a smaller tool would be used to make the job easier and more enjoyable. While recycling probably accounts for the small scraper planes and hammerstones, recycling can not explain small hands tones. Certainly the idea of childrens' tools offers a reasonable explanation. ) SITE SIGNIFICANCE Seven of the eight sites investigated by SRS retain no cultural integrity and have no remaining value for interpreting prehistory. SDM-W-1895, 2405, 2406 and 1894 are no longer archaeological sites; SDM-W-2407 and 2408 are St>1-68S3 paleontological shell middens; and SDM-W-1893 is a highly disturbed remnant of a small shell midden. Although the remaining site, SDM-W-128 has also been badly disturbed by historic activities, the site has yielded some information which can be used for comparative purposes by future researchers. However, further excavations on this site would not yield substantially different information. — SDM-W-128 is divided horizontally into two separate loci. The eastern locus is the larger of the two and appears to have been preferred for tool manufacturing and tool use. Differential shell distribution indicates that within the western portion of the site (Locus 2) shell shucking was more heavily practiced in the earlier phases of the sites history; where as the ) eastern locus (1) indicates that the majority of the shell is in the middle and upper levels of the site. However, heavy agricultural disturbance on the eastern portion may have artificially skewed this data. 60 It is apparent at both loci, that the majority of the artifacts were recovered from the 0-20 em. level of the site. This fact, coupled with the relatively old C-14 dates, indicates that the site consists of a Late Prehistoric occupation in the 0-20 cm. level overlying approximately 30-40 em. of La Jollan occupation. Comparison of the artifacts to area collections also supports this hypothesis. The double-notched quartz projectile point, clay pipe fragment and pottery all indicate a Late Prehistoric occupation, probably San Luis Rey II (Warren: 1951,True: 1970 )• The cobble tool technology found in the lower levels and continuing throughout the deposit can be compared to collections gathered from Batiquitos Lagoon (Warren: 1968) from La Jollan occupations. The site appears to have originally been a multi-component site with at least elements of the La Jollan II and San Luis Rey II occupations. Perhaps the most interesting element of the assemblage was the size discrepancy noted in several tool types. The small size of scraper planes, handstones and hammerstones suggests three possibilities: 1) recycling of artifacts (although this is not the case with the handstones), 2) children's tools and 3) possibly specialized tools for delicate grinding and battering. The suggestion that these tools may have been manufactured and/or used by children is the most plausible. Although rarely mentioned by archaeologists, it is obvious that children existed at villages and^campsites. Since, ethnographically, the children accompanied their mothers and grandparents to grinding stations, the correlation between the small tools at W-128 and children is feasible. It is therefore hypothesized that children were active at W-128 along with their parents. The majority of the small tools were collected from the surface and recovered from the 0-20 cm. level. This data suggests that children were active participants in subsistence activities on W-128 during the Late Prehistoric Period of occupation. Sciektvpic Resource Sxif:yeys, Inc August 1982 61 state of Califomia - The Resources Agency CEPARTMENT OF PARKS AND RECREATION Primary # - CONTINUATION SHEET HRI #/Trinomial CA-SDI-8694 Page 1 of 3 ^Continuation X Update Pro[>ertv Name/Temporarv#: The remaining portion (not destroyed by College road construction) of site CA-SDI-8694 was tested in June of 1998 with the excavation of 18 shovel test pits and 2 1x1 meter units. In all, 584 artifacts, 3477 g of shell and 33.8 g of bone were recovered. Artifacts included 564 frieces of debitage, 3 flake tools, 2 core/cobble tools, 3 cores, 5 mano fragments, 6 undifferentiated ground stone fragments, and 1 ceramic fragment. STPs ranged in depthVrom 20 to 50 cm. Units land 2 were excavated tb depths of 50 and 60 an respectively. The amount of debitage recovered during testing suggests that tools were produced on site, possibly for a specific activity such as shellfish processing. The number and type of artifacts recovered, together with the diversity of faunal remains identified during analysis, identifies CA-SDI-8694 as a habitation site where a range of activities were coilducted. The site is identified as significant under CEQA guidelines. Report reference: Historical/Archaeological Survey and Test for the Carlsbad Municipal Golf Course, City of Carisbad, Califomia; Dennis Gallegos et al (1999) DPR S23H-Test (12/93) CA-SDI-8797 State of Califomia - The Resources Agency DEPARTMENT OF PARKS AND RECREATION CONTINUATION SHEET Page Lof 1 Primary # HRI #/Trinomial CA-SDI-8797 Locus C _Continuation X Update Propertv Name/Temporarv#: The Indexing and Preservation Study for CA-SDI-8797 Locus C included excavation of six 1x1-m units, artifact cataloguing, data analysis, and special studies. The purpose of the Indexing and Preservation Study was to provide an index sample representing the archaeological deposit to be capped and preserved. The fieldwork resulted in the collection of 337 debitage, 2 cores, 1 flake tool, 1 steep-edged unifacial tool (SEUT), 17 flakes from SEUTs, 2 battered implements, 4 manos, 1 ground stone fragment, and 1 polished stone. Faunal material recovered includes 8.4 g of bone and 2,353.4 g of shell. Disturbance from constmction, agricultural activities, and bioturbation was noted in all units. The range of artifacts at CA-SDI-8797 Locus C indicates a habitation site primarily occupied during the Early Period (Middle to Late Holocene). The primary flintknapping activity was nodule core reduction; and, the predominant aspect of nodule core reduction was the production of a few very late stage flake blanks, most likely for unmodified flake tools. The presence of five ground stone tools, and two battered implements implies preparation of plant foods through pounding and/or grinding. The presence of shellfish remains, and small to large mammal bone demonstrates the range of foods collected, hunted, and processed. Faunal analysis identified primarily Sylvilagus audubonii, and other small mammals. Analysis of the 2,353.4 g of shell recovered identifies the majority of shellfish species as Chione sp., Argopecten sp., Ostrea lurida, Polinices sp., and Astrea undosa, indicating that the inhabitants primarily exploited the nearest lagoon habitat (Agua Hedionda Lagoon), and occasionally visited the open coast shoreline area. Evidence for prehistoric trade and travel was identified through the analysis of the lithic materials. For the most part, tools were manufactured from local lithic materials, however, non-local lithic materials were minimally used. These materials include chert (traded from either the north or east), Monterey chert (traded from the north), and Piedra de Lumbre chert (traded from the Camp Pendleton area). The radiocarbon dating of four shell samples suggests that the site was occupied from the Middle to Late Holocene, with the primary site occupation occurring circa 5,000 years ago, and the most recent occupation occurring within the past 1,000 years. All artifacts collected as a result of this study will be curated at the San Diego Archaeological Center, or with the Luiseno Native Americans (i.e. San Luis Rey Band of Mission Indians). Report Reference: Stropes, Tracy A., Jeff Flenniken and Dennis Gallegos 2005 Carlsbad Municipal Golf Course Data Recovery Program for CA-SDI-8694, and Indexing and Preservation Study for CA-SDI-8303 and CA-SDI-8797 Locus C, City of Carlsbad, Califomia. DPR 523H-Test (12/93) StiU of Cjiifomia — Th. H.»ourcM Agency '~C7^/ ~7*-? "7 DEPARTMENT OF PARKS ArvlO RECREATION SITE Not^/~ Q ^ / / ARCHEOLOGICAL SITE SURVEY RECORD U'l „ . ^. None ~ T- I SA-5-81 1. Previous Site Designation 2. Temporary Field No. 3. USGS Quad San Luis Rey, Calif. TA' 7.5' 15' Year 1968(1975) 4. UTM Coordinates Midpoint : 11/471320E/3665600N 5. Twp. lis. Range 4W. # %of # 'AofSec. Unsectioned 6. Location On east side of 265' north-south trending knoll. Between knoll top and proposed extension of Calaveras Road. 50m. north of water tank. On property boundary. 7. Contour 265' . 3. Owner & Address Carl tas Corp. & A. Kelly (private) 9, Prehistoric # Ethnographic Historic 10. Site Oescription Light tO medium shell and artifact scatter. May be eastern most extension of larger shell midden which occupies blyff. Site may extend into agricultural fields to the west. 11. Area ^0 ^ 50 ^^^^^^ 2,500 square meters. 12. Depth of Midden Unknown 13. Site Vegetation Coastal Sage Scrub • surrounding vegetatiorr Agricultural fields 14. Location & Proximity of Water Agua Hedionda Lagoon approx. 1.5km to the northwest 15. Site Soil Sandy Loam • Surrounding Soil Same ' 16. Previous Excavation None observed 17. Site Disturbance Natural erosion, agricultural land use, disking 18. Destruction Possibility Unknown. A portion of the site may be in proposed regional park 19. Features None observed ; • ; " 20. Burials None observed 21. Artifacts (8) brown ware pottery sherds, (4) hammerstones, (3) cobble manos. flakes, millingstone fragments, and fire affected rock. 22. Faunal Remains Chi One sp., Aequipecten sp. 23. Comments Site is located on property boundary. Shell observed eroding down slope on the proposed regional park site of the property. Did not inspect Carltras property. ^M. Accession No. N/A 25. Sketch Map YeS E.G. ^^ere Attached 26. Oate Recorded 5/4/81 27. Recorded By Edward C. Gardner (LSA) 28. Photo Roll No. N/A Frame No. N/A Film Type (s) N/ATaken By N/A 000 AtO *D„., in,-7o> ^- - v.- ir.. STATUS 1 Destroyed N/A How N/A Test Excavated N/A National Register Status; Listed Potential tate Historical Landmark (No.) N/A No Determination ## Nominated N/A %. if known. Ineligible Point of Historical Interest KETCH LOCATION MAP (fridude pennanent reference markers. North Arrow, and Scale) KETCH SITE MAP (same criteria as above) Agricultural Fields 7 U - - u 'i ll J . 11 i\ i\ \\ I IQ ' 1 (I I ( < \ I I ( I V t 1 1/20/87 (lam) SITE RECORD 15 pitch wheel Disk: 1136 Site Rec "SDM-8797" 1 I 1 I f )te of California - The Resources Agency OEPARTMEMT OF PARKS ANO RECREATIOM ARCHAEOLOGICAL SITE RECORD age 1 of _5 . C0 u nty: San Diego Permanent Tr1no«1al: SDi-8797 Temporary Nunber: Supplenent (x) SDM-W-116 Agency Designation: USGS Quad: San Luis Rey (7.5') '68 UTH Coordinates: Zone 11 (15') Photorevised 1975 / 471270 Easting / 3665600 No r th i ng ( ) Township 12S Range 4W I t 8. I I 10. I I 1 . I I I I i I I I u ns ec 11 o ned _ 1/4 of 1/4 of 1/4 of Section Base(Mer.) SBM ( ) 5. Map Coord • ••Htes : 550 .5 mmS 260 mmE (from NW corner of map) 6. E 1 e v a t i o n : 2 40-2 65 f t . ( ) Locatio n: Ecke-Car 1 sbad Ranch/on ridgecrest southeast of Agua Hed1o nd a / north of Canyon de las Encinas/approximately 2.5 Km from coast Preh istoric Historic Protoh istoric Site Description: light density artifact sca11er , moderate density shell sca11er/ground stone, flaked stone tools, cores, flakes, she1V/probab 1 e subsurface cu1tura 1 deposits ( ) Area: 425 md.engthlx 90 . m (w jd th ) 3 004 0 m ^ Method of Determi nat io n seal ed topo ma] ( ) Depth:u nk now n cm Hethod of Determination: visual Inspection Features ( ) None observed ( ) Art 1 facts: manos; split cobble too1s-choppers , scrapers, scraper planes; core hammers; cores; f 1 a k e s / q u a r t z . fine-grained metavolcanic ( f el s i te)^ med i um-gra 1 ned metavolcanic ( ) No n-Art i f actua 1 Co ns 111 u t i e nt s : SheH/Chione, pecten. Astraea, Mytilus, 0 s t r ea ^ Po 1 i n i c e s, Bone \ • • ( ) Oate Updated: 1/16/87 16. Updated By:Gross/Robb1ns-Wade/Serr ( ) Affiliation and Address:RBR 4 Associates Inc. 233 A St., Ste. 804."San Diego, 92101 ( ) 1^ 1/20/87 (lam) SITE RECORD 15 pitch wheel Disk: 1136 Site Rec "SOH-8797 U )of California - The Resources Agency j ..EPARTMEMT OF PARKS AKD RECREATION Pemanent Trinonlal: SDf-8797 ARCHAEOLOGICAL SITE RECORD ' •° • y rrr Temporary Number: SDH-W-116 I • Page 2 of 5 . Agency Designation: ^Human Remains: None observed _( JSite Integrity: Poor. Site has been in agricultural use for many years. Water tank has I Id es troy ed part of site — ( [Nearest Water (type, distance and d 1 r e c 11 o n) :Car^y o n de las E nc 1 na s / s eas o na 1 / 9 15 m/south ^Largest Body of Water within 1 km (type, distance and direction): ( J|Vegetat1on Community (site vicinity): agricultural fields/ [Plant List ( )] (x Vegetation Community (on site): agricultural fields [Plant List ( )] ( | '"'\ferences for above: ( Soil: 1 oamy coarse sa nd 25. Surrounding Soil: same ( Geology: s ed 1 me nt a ry / v o 1 c a ni c 2 7. Land form: ridge ( yiope: 0-201 29. Exposure: open { LandownerCs) (and/or tenants) and Address: Paul Ecke Remarks: Recorded by Rogers i later by Gardner (1981).. Gardner noted ceramics, which t ere not observed during field check. Site boundaries are approximate- area was ( eferences: t I ( ames of Project: Carlsbad Ranch ype of Investigation: field check-recon na 1 s s a nc e ( lte Accession Number: N/A Curated At: H/A ( •^otos: No ne Taken By: N/A ( iJhoto Accession Number: N/A On File At: N/A ( ) t I I fx 1/20/87 (lam) SITE RECORD 15 pitch wheel Disk: 1136 Site Rec -SDM-8797- \e of California - The Resources Agency •OEPARTMEKT OF PARKS AKD RECREATIOK ARCHAEOLOGICAL SITE RECORD Permanent Tri nomial : SDi-8797 Continuation Sheet Temporary Number: SDM-W-116 • ' ^"^ age 3 of c; . Agency Designation: *em No. Continuation 2. Coastal Mixed Chaparral ^- "o*^ intensively surveyed. Site has been heavily disturbed, but may have, intact cultural deposits below plow zone. Suta of Califomia — Tlia Ra«ourc«« Agancy DEPARTMENT OF PARKS ANO RECREATION ARCHEOLOGICAL SITE MAP ParmanantTrinomial: .gn-i -a7Q7 Tamporarv Numbar: SDM-W-116 *««n«y Oaaiflnatlon: 0*»R422F (R«».«/8a) State of California - The Resources Agency UPDATE DEPARTMENT OF PARKS/VvJD RECREATION Permanent Trinomial: CA-SDI-8797. ARCHAEOLOGICAL SITE RECORD Temporary Number: Additional Designation: SDM-W-116. Page 1 of 3 Agency Designation:_ 1. Counly: San Diego. 2. USGS Quad: San Luis Rev (7.5') 1968 (15") Photorevised 1975. .3. UTM Coordinates: Zone 11 / 471270 Easting / 3665520 Northing ( ). 4. Township: 12S Range: 4W: In an unsectioned area. Base (Mer) SB. 5. Map Coordinates: 566 mm S, 262 mm E (from NW corner of map). 6. Elevation: 140 - 200 ft 7. Location: Site is located between 0.4 miles and 0.75 miles north of PalomarAirport Rd. at a point 0.75 miles northeast of the intersection of l-5/Palomar Airport Rd. 8. Prehistoric XX Historic Protohistoric 9. Site Description: CA-SDi-8797 is a shell and lithic scatter. The area has been disturbed bv agricultural practices. 10. Area: 183 m (N/S length) x 122 m (E/W width) 22.326 m^ . Method of Determination: Shovel test. 1 1. Depth: 80 cm . Method of Determination: Shovel test. 12. Features: None. 13. Artifacts: Debitage. flakes, core, core frag, mano frag, unidentifiable groundstone fragment, ceramic rim sherd, biface frag, shell bead, otolith, scraper, modified bone, recent historic. 14. Non-Artifactual Constituents: Shell and bone. 15. Date Updated: August 1992. 16. Updated By: Danielle Huey. Ed Baker. John Boughton. Doug Mcintosh, and Susan Winzler 17. Affiliation and Address: Gallegos and Associates. 2227 Faradav. Suite C. Carisbad. CA 92008. 18. References: Historical/Archaeological Survey and Test Report for Carisbad Ranch. Carlsbad. California. PROJECT BOUNDARY ^ Datum a Unit • Positive o Negative Gallegos & Associates 61 meters Map of CA-SDI-8797 Showing Location of STPs and Units FIGURE 2-3 State of California - The Resources Agency UPDATE DEPARTMENT OF PARKS AND RECREATION Permanent Trinomial: CA-.qni-ft7Q7 ARCHAEOLOGICAL SITE RECORD Temporary Number Additional Designation: W-116. Page 1 of i Agency Designation: 1. County: San Diego. 2. USGS Quad: San Luis Reyf?.,?) 1968 (IS") Photorevised 1975. 3. UTM Coordinates: Zone" JJ. / 471270 Easting / 366520 Northing. 4. Township: 12S Range: 4^; Unsectioned Base: SEEM. 5. Map Coordinates: 566 mm S, 2S2 mm E (from NW comer of map). 8. Elevation: 140-265 fL 7. Location: On north-SQUth trending knoll. aPDroximatQlv 10 mile ea.qt of 1-5 and n s milp north of Palomar Airport Road.—Water tank on knoll l.c; within the prehlstorio site and i.s adjacent to only intact portions of remaining site. 8. Prehistoric XX Historic ^ Protohistoric 9. Site Description: Oriainallv described as a shell and artifact scatter, and later identififlri a habitation site with both Early and Late period occupation 10. Area: Sfla m (N/S length) x IM. m (E/W width) = 30.000 m^ . Method of Determination: Survey and STP and 1x1m unit eycavatinn 11. Depth: Westem portion has no depth, knoll near watftr tank has depth to 1004- cm Method of Determination: Excavation. 12. Features: None observed. 13. Artifacts: Debitage. bone awl, beads, bifaces. milling tools (bowl/mortar fragment. mano. metate and pestle), cores, cobble tools, scrapers. Tizon Brownware. hammerstones shell dish, and tarring pebble. 14. Non-Artifactual Gonstituents: Bone, shell and fire-aHflcted rock 15. Date Updated: August 1995. 18. Updated By; Nina Hanis. lam Tift, and Dennis fiallAgns 17. Affiliation and Address: Gallegos & Associate.s 5671 Palmer Wav. Suite A. Carl.'ihari California. 92008. 18. References: Historical/Archaeological Survey and Test for Carlsbad Ranch Specific Plfjp Amendment Area. Carlsbad. California. Gallego.s and Harri..; 1995 19. Comments: Additional portion of site CA-SDI-8797 surveyed and tested as part of thi.d studv. Testing included surface collection of the southeastern portion and excavation using 21 STPs and two 1x1 m units. The majority of the site was disturbed, however the portion I I i i I i I I I I 1 I I I I I I I I nearest the water lines identified a rich and deep prehistoric site. This small intact area was identified as significanVimportant under City and CEQA criteria. State of Califomia - The Resources Agency Ce'ARTMENr OF PARKS AND RBCREATOvl CONTINUATION SHEET Page 1 of 3 Primary # HRI #/rrinomial CA-SDI-8797 Continuation X Update Property Name/Temporarv#: Testing conducted in May of 1998 included excavation of 9 shovel test pits and one 1x1 meter unit on a portion of the rideetop and eastem slope not addressed by previous studies. Artifacts recovered included: 211 pieces of debitage 4 flake tools, 2 cores, 19 manos, 3 metate fragments, 3 pestles, 1 "ochre gnnder", 5 undifferentiated ground stone fragments, and small amounts of Asphaltum and charcoal. Faunal matenal included 2470.8 g of Sell and 10 2 g of bone. Most of the STPs were excavated to 80 cm, with the exception of one which went to 70 cm and one which encountered a very compact sand basal layer at 30 cm. Unit 1 was excavated to 110 cm. The artifacts and faunal remains recovered identify CA-SDI-8797 as a habitation site demonstrating a range of activities including shellfish, animal and plant processing; tool production and tool repair. A small amount of human bone was recovered from Unit One, and after consultation with (Luiseno) Native Amencan representatives, was reburied nearby. CA-SDI-8797 is identified as significant under CEQA. Report reference: Historical/Archaeological Survey and Test for the Carisbad Mumapal Golf Course Project, City of Carisbad, Califomia; Dennis Gallegos a al (1999) DPR S23H-Test (12/93)