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Home My WebLink AboutSUP 07-03; South Coast Materials Quarry; Special Use Permit (SUP) (3) PALEONTOLOGICAL MITIGATION REPORT QUARRY CREEK CITIES OF CARLSBAD & OCEANSIDE SAN DIEGO COUNTY, CALIFORNIA (W.O. No. 426485) Prepared for: Hanson Aggregates – Pacific Southwest, Inc. 9255 Camino Santa Fe San Diego, CA 92121 Prepared by: Department of PaleoServices San Diego Natural History Museum P.O. Box 121390 San Diego, California 92112 Thomas A. Deméré, Ph.D., Director 8 April 2013 Paleontological Resource Mitigation Final Report – Quarry Creek i TABLE OF CONTENTS TABLE OF CONTENTS ..................................................................................................................... i PROJECT SUMMARY ...................................................................................................................... ii INTRODUCTION .............................................................................................................................. 1 PROJECT DESCRIPTION ............................................................................................................. 1 DEFINITION AND SIGNIFICANCE OF PALEONTOLOGICAL RESOURCES ...................... 1 PERSONNEL ................................................................................................................................. 2 METHODS ......................................................................................................................................... 5 FIELD METHODS ......................................................................................................................... 5 Monitoring ................................................................................................................................. 5 Fossil Salvage ............................................................................................................................ 6 Stratigraphic Data Collection .................................................................................................... 6 LABORATORY METHODS ......................................................................................................... 6 Fossil Preparation ...................................................................................................................... 7 Curation ..................................................................................................................................... 7 RESULTS ........................................................................................................................................... 8 STRATIGRAPHY .......................................................................................................................... 8 Quaternary terrace deposits (Bay Point Formation) .................................................................. 8 Santiago Formation ................................................................................................................... 8 Peninsular Ranges Batholith ...................................................................................................... 9 PALEONTOLOGICAL COLLECTING LOCALITY ................................................................. 12 SDNHM Locality 6501 ........................................................................................................... 12 PALEONTOLOGY ...................................................................................................................... 12 Tracheophyta (vascular plants) ................................................................................................ 12 Icnofossils (tacks, trails, and burrows) .................................................................................... 12 DISCUSSION ................................................................................................................................... 14 INTRODUCTION ........................................................................................................................ 14 GEOLOGIC SETTING ................................................................................................................ 14 Bay Point Formation (Quaternary terrace deposits) ................................................................ 14 Santiago Formation ................................................................................................................. 15 PALEONTOLOGY ...................................................................................................................... 16 Previous Work ......................................................................................................................... 16 Quarry Creek Fossils ............................................................................................................... 17 Geologic Age ........................................................................................................................... 17 CONCLUSIONS AND SIGNIFICANCE ........................................................................................ 18 REFERENCES ................................................................................................................................. 19 APPENDIX ....................................................................................................................................... 20 Paleontological Resource Mitigation Final Report – Quarry Creek ii PROJECT SUMMARY This document presents the results of the paleontological resource mitigation program conducted during mass grading activities for the Quarry Creek project. The project site is located along the boundary between Carlsbad and Oceanside, California. Construction activities for this project involved the reclamation of an old aggregate quarry site that occupied the area immediately south of State Route 78 and Haymar Drive, and approximately 2,000 feet west of College Boulevard and immediately west of the Khols and Walmart shopping centers. Work was performed by staff members of the Department of PaleoServices (San Diego Natural History Museum) for Hanson Aggregates Pacific Southwest, Inc. of San Diego, California. The mitigation program included construction monitoring, fossil salvage, laboratory preparation of salvaged specimens, curation of prepared specimens, and storage of curated specimens. Excavation operations were monitored between August 25, 2011 and November 8, 2011. Construction activities exposed sedimentary deposits of the Eocene-age Santiago Formation (Member B) and unnamed Pleistocene-age Quaternary alluvium. A single fossil collecting locality was discovered in the Santiago Formation during monitoring and produced impressions of fragmentary plant material (leaves and parts of stems), as well as trace fossils, primarily burrows. Although somewhat poorly preserved, these fossils do serve as vouchers of the types of organisms preserved in the strata exposed by construction activities at the project site. Further, these fossils have the potential to increase our understanding of the paleontological history of southern California. Paleontological Resource Mitigation Final Report – Quarry Creek 1 INTRODUCTION PROJECT DESCRIPTION This document presents the results of the paleontological resource mitigation program conducted during mass grading activities for the Quarry Creek project. The project site is located along the boundary between Carlsbad and Oceanside, California (Figures 1 and 2). Construction activities for this project involved the reclamation of an old aggregate quarry site that occupied the area immediately south of State Route 78 and Haymar Drive, and approximately 2,000 feet west of College Boulevard and immediately west of the Khols and Walmart shopping centers. Work was performed by staff members of the Department of PaleoServices (San Diego Natural History Museum) for Hanson Aggregates Pacific Southwest, Inc. of San Diego, California. The mitigation program included monitoring excavation activities, salvage of unearthed fossil specimens, laboratory preparation of salvaged specimens, curation of prepared specimens, and storage of curated specimens. Paleontological monitoring of excavation activities occurred between August 25, 2011 and November 8, 2011, and took place wherever potentially fossiliferous native sedimentary rocks were impacted by excavation operations. The published geological map of Kennedy and Tan (2005) for the Oceanside-Carlsbad area indicates that portions of the project site are underlain by sedimentary rocks of the Santiago Formation; a rock unit that has produced significant fossils in the past. For this reason the Santiago Formation is considered to have a high paleontological resource sensitivity wherever it crops out (Deméré and Walsh, 1993). Given the scale and scope of the proposed project, it was determined that construction activities had a strong potential to produce significant impacts to paleontological resources. DEFINITION AND SIGNIFICANCE OF PALEONTOLOGICAL RESOURCES As defined here, paleontological resources (i.e., fossils) are the buried remains and/or traces of prehistoric organisms (i.e., animals, plants, and microbes). Body fossils such as bones, teeth, shells, leaves, and wood, as well as trace fossils such as tracks, trails, burrows, and footprints, are found in the geological deposits (formations) within which they were originally buried. The primary factor determining whether an object is a fossil or not, isn’t how the organic remain or trace is preserved (e.g., “petrified”), but rather how old is the organic remain or trace. Although typically it is assumed that fossils must be older than ~10,000 years (i.e., the widely accepted end of the last glacial period of the Pleistocene Epoch), organic remains of early Holocene age can also be considered to represent fossils because they are part of the record of past life. Fossils are considered important scientific and educational resources because they serve as direct and indirect evidence of prehistoric life and are used to understand the history of life on Earth, the nature of past environments and climates, the membership and structure of ancient ecosystems, and the pattern and process of organic evolution and extinction. In addition, fossils are considered to be non-renewable resources because typically the organisms they represent no longer exist. Thus, once destroyed, a particular fossil can never be replaced. And finally, for the purposes of this report, paleontological resources can be thought of as including not only the actual fossil remains and traces, but also the fossil collecting localities and the geological formations containing those localities. Paleontological Resource Mitigation Final Report – Quarry Creek 2 PERSONNEL Dr. Thomas A. Deméré, Curator of Paleontology and Director of the Department of PaleoServices at the San Diego Natural History Museum, served as Principal Investigator/Qualified Paleontologist and report co-author. The paleontological field monitors were Gino Calvano, Rodney M. Hubscher, Bradford O. Riney, and Shayne A. Boney. Laboratory work, both fossil preparation and specimen curation, was carried out by Nicole Anderson and Rodney M. Hubscher. The final mitigation report was prepared by Thomas A. Deméré and Rodney M. Hubscher. Paleontological Resource Mitigation Final Report – Quarry Creek 3 Figure 1. Index map of western San Diego County showing the general location of the Quarry Creek project site (black circle). z E 0 0 0 N f'.. "" "' z E 0 0 ~ f'.. "" "' z E 0 0 0 0 f'.. "" "' TNt'fMN {13° 47QOOOmE. 4 71 OOOm E. 47QOOOmE. 472000mE. NAD27 Zone llS •7300omE. '\ z E 0 0 0 N f'.. "" "' z E 0 0 0 ..... f'.. "" "' z E 0 0 0 0 f'.. "" "' NAD27 Zone llS •7300omE. Figure 2. Map showing the general location of the Quany Creek project site (anow and recorded fossil collecting locality 6501) south of State Route 78 in the cities of Carlsbad and Oceanside, Califomia. Additional black circles with numerical labels indicate nearby recorded fossil collecting localities not associated with the Quany Creek project. Paleontological Resource Mitigation Final Report -Quany Creek 4 Paleontological Resource Mitigation Final Report – Quarry Creek 5 METHODS FIELD METHODS Field activities included monitoring of major excavation operations, examination of temporary and permanent cut slopes, collection of unearthed fossil remains, and the recording of geologic, stratigraphic, and taphonomic contextual data. Specific field methods and techniques are discussed more fully below and were carried out in compliance with standard local and state paleontological resource mitigation guidelines and the specific conditions of the project’s mitigation monitoring and reporting program. Monitoring Excavation activities were monitored between August 25, 2011 and November 8, 2011. The paleontological monitoring schedule was determined by conditions in the field. Monitoring consisted of on-site inspections of areas of active excavations for unearthed fossil remains (Figure 3). Ideally, inspections involved examination of every newly exposed surface, but operationally this was often not possible. The pace and quantity of equipment in the cut determined how often the monitor could make inspections. When the active excavations were too dangerous to enter because of a narrow cut and/or heavy traffic, an elevated vantage point provided a secure place from which to examine the progress of grading. Figure 3. View looking northwest across Quarry Creek project site showing earthmoving operations. Plutonic igneous rocks in foreground and layer sedimentary rocks (Santiago Formation) in active cut slopes in background. Paleontological Resource Mitigation Final Report – Quarry Creek 6 Safety procedures followed by field personnel included wearing appropriate clothing (high- visibility vests, hard hats, and large hand-held orange flags), securing the attention of equipment operators before entering an active cut, notifying grading personnel before beginning a salvage excavation, and marking fossil discovery sites with surveyor's flagging. It is important to emphasize that paleontological monitoring did not interfere with, nor delay, construction operations. Fossil Salvage Fossil salvage methods employed at the Quarry Creek project site included hand-quarrying and bulk matrix sampling and prospecting of spoils piles. The particular type of salvage procedure employed depended on a number of factors, including: (1) importance, size, and number of specimens at a given fossil discovery site; (2) how critical the area of discovery was to the progress of the construction schedule; (3) the type of equipment being used in the vicinity of the discovery site; and (4) the opinion of the construction superintendent and/or Resident Engineer. The duration of individual salvage operations varied from minutes to hours to days. Most salvage operations were of short duration (minutes), and employed “pluck-and-run” recovery techniques. Others involved hand-quarrying fossils that were transported to the museum for further preparation. The fossil-salvage techniques employed for this project are discussed in greater detail below. Hand-quarrying. Quarry-style salvages for paleontological projects are not of the conventional type employed by archaeological investigations. Instead, they consist of site-specific “mining” of fossil-rich sedimentary rock layers typically without the establishment of a reference geographic grid system. Such quarry sites are worked by hand-picking through blocks of exposed sedimentary matrix to discover partially exposed fossils (Figure 5). Fragile fossils are stabilized using a chemical preservative or adhesive (usually Butvar, Vinac, and/or a cyanoacrylate glue) prior to removal from the cut. Stratigraphic Data Collection Collection of stratigraphic data was an integral part of the monitoring operation. Outcrops exposed in the active cut (Figure 6) and pre-shored side walls were examined and observed geologic features were recorded on grading plans. The goals of this work were to delimit the nature of fossiliferous sedimentary rock units in the project site, determine their geographical distribution and depositional contacts, and record any evidence of structural deformation. Standard geologic and stratigraphic data collected included lithologic descriptions (color, sorting, texture, structures, and grain size), stratigraphic relationships (bedding type, thickness, and contacts), and topographic position. Measurement of stratigraphic sections was done with a hand level. Areas containing exposures of fossiliferous sedimentary rocks were studied in detail and fossil localities were recorded on measured stratigraphic sections. LABORATORY METHODS Laboratory activities included mechanical preparation of fossil specimens, repair and stabilization of broken/damaged specimens, specimen identification, specimen cataloging, and specimen storage. Specific methods are discussed more fully below and were carried out in Paleontological Resource Mitigation Final Report – Quarry Creek 7 compliance with the County of San Diego Guidelines for Determining Significance of Paleontological Resources (Stephenson et al., 2007). Fossil Preparation Fossil specimens were prepared using standard mechanical fossil preparation techniques. When possible, fossiliferous blocks were reduced as soon as possible to take advantage of the residual sediment moisture in the sedimentary rock. As these blocks dried, they became more difficult to prepare. The specimens were then mechanically cleaned of enclosing sedimentary matrix using one or more of the following tools: X-acto knife, pin vise, pneumatic scribe, or air-abrasion unit. Damaged specimens that required repair were glued back together using either cyanoacrylate glues or carpenter’s white glue. Curation Fossil curation involved identification of individual fossil specimens, assignment of unique specimen catalog numbers, entry of specimen catalog information into the SDNHM specimen computer database, printing the specimen label, writing the catalog number on the specimen using India ink on a patch of white acrylic paint, placement of the specimen with its label into appropriate-sized paper specimen trays, and storage of the labeled specimen in the steel “Lane- style” geological cabinets in the research collection area of the museum. A specimen number can refer to a single isolated fossil if there is only one of that species recovered, or to numerous fossils of the same species if there is an abundance of specimens of that species recovered. This curation procedure was followed for all medium-sized specimens (1-20 cm in size), but was modified for smaller and larger specimens. Paleontological Resource Mitigation Final Report – Quarry Creek 8 RESULTS The paleontological mitigation program conducted during construction activities at the Quarry Creek project site resulted in the recovery of fossil remains from temporary exposures of the non-marine Santiago Formation. The stratigraphy, paleontological collecting locality, and paleontology resulting from the mitigation effort are discussed below. STRATIGRAPHY Grading operations at the Quarry Creek project site exposed approximately 40 vertical feet of Cenozoic sedimentary rocks, including non-marine strata of the Eocene-age Santiago Formation and non-marine, unnamed Pleistocene Quaternary terrace deposits. These sedimentary strata are overlain in places by extensive deposits of artificial fill materials generated during prior mining operations. In addition, the sedimentary strata are underlain by Mesozoic-age plutonic igneous rocks of the Peninsular Ranges Batholith in the southern portion of the project site. Quaternary terrace deposits (Bay Point Formation) Approximately 25 feet of non-marine stratified Pleistocene river terrace deposits were exposed in the northwestern portion of the project site. This Pleistocene sequence consisted of reddish yellow, poorly sorted, coarse-grained, massive to cross-bedded, compact sandstones (Figure 4) with local cobble concentrations of volcanic origin. These Pleistocene-age strata occurred between approximately 105 and 127 feet above sea level and, as exposed by grading operations, were seen to overlie an irregular erosional surface cut into the underlying Santiago Formation. The relief on this erosion surface is due to Pleistocene stream activity in the ancestral Buena Vista drainage system. After carving of the valley walls the ancestral stream began depositing sediment until eventually the valley was “silted in.” Although the Pleistocene strata on the project site primarily occurred as isolated, erosional remnants, they are actually part of a more extensive sequence of Quaternary alluvial deposits that is widespread to the west along the south side of State Route 78. These Quaternary alluvial deposits are broadly correlative with strata mapped to the west as the Pleistocene-age Bay Point Formation. Santiago Formation Approximately 40 feet of non-marine strata of the Eocene-age Santiago Formation were exposed in the northern portion of the project site and consisted of a lower sequence of gray and purple claystones and fine-grained sandstones overlain by an upper sequence of cream-colored, massive silty sandstones and medium-grained sandstones (Figure 5). These strata were exposed between 105 and 143 feet in elevation (Figure 6). An eroded cut slope along the northern boundary of the project site provided excellent exposures of Santiago Formation strata and served as a useful reference section (Figure 7). This section contained several layers of coarse-grained and pebbly sandstones and included both normally graded strata as well as massive and well-laminated strata. Some contacts between beds were gradational, while others were sharply erosional. A claystone stratum near the base of the section contained a dense concentration of white caliche nodules that suggest ancient soil formation processes. Paleontological Resource Mitigation Final Report – Quarry Creek 9 Peninsular Ranges Batholith The southern portion of the project site is underlain by crystalline basement rocks of the Peninsular Ranges Batholith. These rocks consist of plutonic igneous rocks of tonalite composition and represent the source of aggregate materials exploited by the previous mining operations at the former quarry site. These plutonic rocks extend to an unknown depth and are well exposed in the large cut slope that forms the southern boundary of the project site. Figure 4. Horizontal cut surface produced by scrapers in the northwestern portion of the project site. The cut surface exposes the depositional contact between light-colored, fine-grained Eocene-age sandstones (Santiago Formation) on left and reddish-brown, coarse-grained Pleistocene-age sandstones (Quaternary river terrace deposits) on right. Pencil at contact is 14 cm in length. Paleontological Resource Mitigation Final Report – Quarry Creek 10 Figure 5. Composite stratigraphic section of the Santiago Formation as exposed during grading in the northwestern portion of the Quarry Creek project site. Fossils were discovered and recovered from SDSNH Locality 6501. Paleontological Resource Mitigation Final Report – Quarry Creek 11 Figure 6. Finished cut slope in northern portion of project site exposing well stratified, non-marine sedimentary rocks of the Eocene-age Santiago Formation. Figure 7. Eroded cut slope in northwestern portion of project site showing well-exposed Eocene-age strata of the Santiago Formation. Note, dark gray claystones and purple, fine-grained sandstones and overlying cream-colored, massive sandstones. Paleontological Resource Mitigation Final Report – Quarry Creek 12 PALEONTOLOGICAL COLLECTING LOCALITY Monitoring of construction activities resulted in the discovery of one new paleontological collecting locality at the Quarry Creek project site. The locality was discovered in sedimentary rocks of the Santiago Formation. A formal description of this locality is included in the Appendix, along with an annotated list of the recovered fossils. SDNHM Locality 6501 Locality 6501 was discovered at an elevation of approximately 114 feet in strata of the Santiago Formation as exposed along the north side of the project site. This locality represents two discrete collecting sites which were collected three months apart. Fossils were recovered from a two foot thick, yellowish gray mudstone stratum with grayish orange and pink mottling. Underlying this stratum was a one foot thick, orange, oxidized, clast-supported, gravel conglomerate with a fine-grained sandstone matrix. Directly overlying the fossil-producing horizon was a seven foot thick, very light gray, poorly sorted, medium grained, massive, arkosic sandstone interbedded with thin mudstone and siltstone laminations. These strata occurred near the base of the Santiago Formation. Recovered fossils consist of fragmentary impressions of land plants, as well as sediment-filled burrows. Locality 6501 has since been graded away. PALEONTOLOGY Fossil remains collected during the monitoring and salvage phases of the mitigation program conducted for the Quarry Creek project were recovered from Eocene-age sedimentary deposits of the Santiago Formation. The following paragraphs discuss these fossils within the context of higher taxonomic groups (e.g. plants). The fossils were identified by Thomas A. Deméré and Rodney M. Hubscher of SDNHM. Tracheophyta (vascular plants) A small, low diversity paleoflora was recovered from the Quarry Creek project site and consists of partial leaves and stems of vascular plants that were washed into an Eocene freshwater stream from surrounding riparian environments. Although the majority of the fossil plant material is rather poorly preserved, there are some identifiable specimens including a partial leaf impression from a plant close to Magnolia sp. (Figure 8). Icnofossils (tacks, trails, and burrows) Several well-preserved, sediment-filled burrows were collected from the Quarry Creek project site. These trace fossils consist of horizontal branching burrows (Figure 9), as well as cylindrical, vertical burrows and presumably represent traces made by burrowing organisms such as annelid worms. .· .. Figure 8. Fossil leaf of plant close to Magnolia sp. discovered and recovered from Eocene-age strata of the Santiago F01mation exposed during mass grading activities at the Quany Creek project site. Scale bar equals 20 mm. Figure 9. Trace fossil (branching, sediment-filled bun ow) discovered and recovered from Eocene-age strata of the Santiago F01mation exposed during mass grading activities at the Quany Creek project site. Scale bar equals 20 mm. Paleontological Resource Mitigation Final Report -Quany Creek 13 Paleontological Resource Mitigation Final Report – Quarry Creek 14 DISCUSSION INTRODUCTION The following section is limited to a general discussion of the results of the paleontological mitigation program conducted for the Quarry Creek project. Although academic research questions dictated the field methods and types of data recorded, the overall goal of this mitigation program was not to produce a research paper, but rather to salvage significant fossil remains, record relevant stratigraphic and taphonomic data, and curate and permanently house the salvaged fossil remains. The fossil assemblage of terrestrial plants and trace fossils recovered from the project site are now in a condition for future scholarly research. The important distinction is that the recovery and conservation of the fossils is a separate endeavor from their scientific study. GEOLOGIC SETTING Along the coastal plain of San Diego County, basement rocks of the Jurassic-Cretaceous-age Santiago Peak Volcanics and the Cretaceous-age Peninsular Ranges Batholith are nonconformably overlain by sedimentary strata of late Cretaceous, Eocene, Oligocene, Miocene, Pliocene, and/or Pleistocene age (Hanna, 1926; Kennedy, 1975; Kennedy and Moore, 1971; Kennedy and Peterson, 1975; Walsh and Deméré, 1991). In the general vicinity of the Quarry Creek project site, paleontologically sensitive sedimentary strata of the Eocene-age Santiago Formation nonconformably overlie granitic rocks of the Cretaceous-age Peninsular Ranges Batholith. The contact between the sedimentary and plutonic rock units is irregular, and represents an early Eocene or Paleocene-age eroded surface or landscape that was rapidly buried during middle Eocene time by a sequence of marine, lagoonal, and fluvial sedimentary rocks. On the project site the Santiago Formation is unconformably overlain by non-marine Pleistocene-age strata broadly correlative with the Bay Point Formation. More specific discussions of the Pleistocene and Eocene sedimentary rocks are presented below. Bay Point Formation (Quaternary terrace deposits) Hertlein and Grant (1939) proposed the name Bay Point Formation to include both marine and non-marine Pleistocene sedimentary rocks in the coastal San Diego area younger than the Lindavista Formation. They chose the exposures at Bay Point (now called Crown Point) in Mission Bay as their type locality and briefly described the stratigraphic section there as consisting of “light gray cross-bedded sands [which] contain abundant specimens of Dendraster and Donax.” They also assigned fossiliferous exposures at Pacific Beach, at the foot of 26th Street (“Indian Point”), and at North Island (“Spanish Bight”) to their Bay Point Formation. It is noteworthy that the authors had a very broad concept of their new stratigraphic unit describing it in their columnar section as “1-30 feet; marine fossiliferous terrace deposits and non-marine valley-fill, gravel, sand, and silt.” As such the Bay Point Formation was actually an all-inclusive stratigraphic unit for all Pleistocene sedimentary deposits younger than the Lindavista Formation. Subsequent workers have applied the concept of the Bay Point Formation in a variety of ways. Valentine (1959) and Kern (1971) lumped all of the younger marine Pleistocene deposits of San Diego into their concept of the Bay Point Formation. Kennedy (1975) carried this “lumping” even farther by including even non-marine slope wash in the Bay Point Formation. Emerson and Paleontological Resource Mitigation Final Report – Quarry Creek 15 Chace (1959) adopted a more conservative approach to their concept of this rock unit, noting that because of the “remnatal preservation” of the Pleistocene terraces in the San Diego area, correlation of isolated outcrops could not be made with any certainty. Later, Kern (1977) and Deméré (1981) called for the restricted use of the name Bay Point Formation to refer to deposits only at the type locality. This usage was proposed in light of evidence based on amino-acid racemization age estimates suggesting that several temporally distinct marine Pleistocene deposits were then lumped under the concept of the Bay Point Formation. In addition, these various deposits displayed stratigraphic and faunistic differences that seemed to warrant their recognition as distinct units. However, given the fundamental requirement that formations be mappable rock units, and the fact that middle and upper Pleistocene rock units in the San Diego region have very discontinuous areas of outcrop, it is more practical to return to the original definition of Hertlein and Grant (1939) and recognize an inclusive Bay Point Formation. If necessary, this more inclusive lithostratigraphic unit could be subdivided into local facies or informal members. Most recently, Kennedy and Tan (2005) have utilized this approach to map middle and upper Pleistocene marine, paralic, and non-marine deposits in coastal San Diego County. Unfortunately, these authors have also chosen to entirely abandon use of the name ‘Bay Point Formation’ in favor of an informal stratigraphic nomenclature that relies on topographic position in relationship to individual elevated marine abrasion platforms (e.g., Unit 6, Old paralic deposit resting on the 22-23 m Nestor terrace). The Pleistocene sedimentary rocks exposed at the Quarry Creek project site are non-marine fluvial and floodplain deposits associated with a river or stream system that existed in middle and late Pleistocene time during interglacial periods of global warming. Although these Pleistocene deposits are typically mapped in the Carlsbad and Oceanside region as unnamed older alluvium or Quaternary terrace materials, they are broadly correlative with coeval deposits mapped near San Diego as the Bay Point Formation. Santiago Formation Woodring and Popenoe (1945) proposed the name “Santiago Formation” to refer to the Eocene- age sequence of fossiliferous marine siltstone and sandstone beds that crop out in the Santa Ana Mountains in Orange County, California. Wilson (1972) detailed lithostratigraphic and biostratigraphic similarities between the Santiago Formation in Orange County, and a sequence of Eocene marine and non-marine strata that crop out throughout the northwestern portion of San Diego County. Based on these similarities, Wilson (1972) assigned the strata in the Oceanside and Carlsbad areas to the Santiago Formation. Wilson (1972) also subdivided the formation into three informal members: (1) a basal marine member (“Member A”) composed predominantly of green mudstone and sandy mudstone interbedded with blue, tuffaceous sandstone and lenticular, concretionary sandstone; (2) a middle marine member (“Member B”) composed predominantly of very fine- to medium-grained, moderately well-cemented, arkosic sandstone; and (3) a non- marine upper member (“Member C”) composed of fine- to very coarse-grained, light gray to white, friable, cross-bedded, arkosic sandstone that contains interbeds of greenish-brown siltstone, silty mudstone, claystone, and scattered pebble and cobble conglomerate. The Eocene- aged sedimentary deposits exposed in the Quarry Creek project area have been assigned to member “B” of the Santiago Formation by museum personnel. Sedimentary deposits of the Santiago Formation exposed on other project sites in the vicinity of the Quarry Creek project area and elsewhere in northern San Diego County have yielded numerous specimens of fossil land mammals that are characteristic of the early and late Uintan Land Mammal Age (Walsh, 1996). Paleontological Resource Mitigation Final Report – Quarry Creek 16 PALEONTOLOGY Previous Work Pleistocene: Valentine (1961), Kern (1977), Deméré (1980), and Kern and Rockwell (1992) have provided summaries of previous paleontological work on the Pleistocene rocks of coastal San Diego County. These studies have focused on diverse and well-preserved nearshore marine invertebrate assemblages collected from locally well-exposed marine terrace and estuary/bay deposits. The age, geologic setting, and sedimentology of the Pleistocene terrace deposits have been studied by several authors (Eisenberg 1985; Kern and Rockwell 1992). In 1994 excavation operations for the Town Center North shopping center at College Boulevard and State Route 76 in Oceanside resulted in the discovery and recovery of significant fossil remains of freshwater fishes, aquatic birds, capybara, tapir, horse, and mastodon from a transgressive sequence of Pleistocene fluvial and lacustrine deposits similar to those exposed at the Quarry Creek project site. In 2000 excavation operations for the Terraces at Sunny Creek residential project in eastern Carlsbad resulted in the discovery of fossil remains of Pleistocene land mammals including horse and mammoth. The next year, excavation operations for the Ocean Ranch Commercial Center located on Oceanside Boulevard resulted in the discovery and recovery of fossil remains of horse, camel, and bison from Pleistocene fluvial deposits probably correlative to those exposed at the Quarry Creek project site. In 2002 excavation activities for the Wanis View Estates project in the San Luis Rey River Valley resulted in the recovery of a diverse assemblage of Pleistocene land mammals that included partial skeletons of tapirs, mastodons, and mammoths. In 2004 construction of the Summit at Carlsbad project near El Camino Real unearthed remains of horse, camel, deer, and bison. And finally in 2007 and 2008 excavations at the Robertson Ranch project site along College Boulevard in northern Carlsbad resulted in the discovery of isolated bones and partial skeletons of rodents, rabbits, tapir, horse, camel, deer, mastodon, and ground sloth. Together, these records of Pleistocene terrestrial vertebrates from Oceanside and Carlsbad represent the most extensive occurrences of “Ice Age” land mammal fossils in coastal San Diego County. Eocene: Member “B” of the Santiago Formation has produced well-preserved fossils from many localities in northern San Diego County (Deméré and Walsh, 1993). These fossils include the remains of both terrestrial and aquatic animals and terrestrial plants. Terrestrial mammals include the remains of opossums, insectivores, primates, rodents, brontothere, rhinoceros, and uintathere. Also known are reptiles including turtle and crocodile, cartilaginous fish including shark and ray, bony fish including catfish and herring, and a high diversity of marine and estuarine fossil invertebrates including crustaceans, gastropods, and bivalves. Plant fossils include the remains of palm, mangrove, willow, cocoplum, and almond tree (unpublished SDSNH paleontological data). Fossil invertebrates known to occur in strata of member “C” of the Santiago Formation include inarticulate brachiopods, barnacles, ostracods, crabs, echinoderms, and a diverse molluscan fauna that includes scaphopods, roughly 15 genera of gastropods, and 30 genera of pelecypods. Fossils of marine vertebrates recovered from member “C” include teeth of cartilaginous fish (sharks, skates, and rays) and teeth and otoliths of bony fish (unpublished SDSNH paleontological data). Terrestrial vertebrates including fossil reptiles, birds, and mammals have also been recovered from the near shore marine facies of member “C” of the Santiago Formation. The fossil reptile fauna includes specimens of lizards, snakes, tortoises, soft-shelled turtles, and crocodiles. The fossil mammal fauna includes artiodactyls such as Leptoreodon, Protylopus, and Paleontological Resource Mitigation Final Report – Quarry Creek 17 Protoreodon; perissodactyls such as the rhinoceros Amynodon sp., the tapir Dilophodon sp., and the brontotheres Parvicornis occidentalis and Metarhinus sp.; carnivorous mammals include the creodonts Apataelurus sp., Limnocyon sp., and Hyaenodon sp., and the miacids (eucarnivores) Miacis sp., Miocyon sp., Plesiomiacis sp., Procynodictis sp. Small mammals (represented by fragmentary jaws and isolated teeth), such as bats, insectivores, and rodents have also been recovered from this unit (unpublished SDSNH paleontological data). The Santiago Formation was assigned a high paleontological resource sensitivity ranking by Deméré and Walsh (1993). Quarry Creek Fossils Eocene: The Eocene plant fossils recovered from member “B” of the Santiago Formation as exposed at the Quarry Creek project site provide a glimpse of the subtropical riparian flora that lived along local, coastal streams during the middle part of the Eocene Epoch. More diverse fossil floras recovered from other sites in the Carlsbad-Oceanside area reveal a variety of Eocene plant communities that once flourished here including lush tropical hardwood forests and dense stands of mangroves. Geologic Age Pleistocene: The absolute age of the Pleistocene non-marine sandstones exposed at the Quarry Creek project site is imprecisely known. The topographic position of the Pleistocene units well above current sea level suggests deposition during an interglacial period. This could equate with oxygen isotope stage (OIS) 5e (Sangamon) or OIS 7 (Yarmouthian) and older. Pending more detailed stratigraphic and geochronologic investigations it is here suggested that the age range for the Pleistocene deposits at Quarry Creek are either 120,000 or 200,000 years old. Eocene: The absolute age of the Eocene marine sandstones and siltstones exposed at the Quarry Creek project site also is imprecisely known. However, based on diverse molluscan assemblages collected elsewhere from member “B” and on correlative estuarine and fluvial strata containing land mammal fossils, it is suggested that the Eocene marine claystones and sandstones at the Quarry Creek project site are approximately 42 million years old. Paleontological Resource Mitigation Final Report – Quarry Creek 18 CONCLUSIONS AND SIGNIFICANCE The paleontological resource mitigation program conducted during construction of the Quarry Creek project reduced adverse impacts of on-site grading to paleontological resources to a level below significance through construction monitoring, fossil salvage, fossil preparation, and fossil curation. This work resulted in the recovery of paleontological resources from a single fossil collecting locality discovered in sedimentary rocks of the Eocene-age Santiago Formation. This locality was discovered as a direct result of monitoring of excavation activities. The recovered Eocene fossil assemblage consists of impressions of fragmentary plant material (leaves and parts of stems), as well as trace fossils, primarily burrows. Although somewhat poorly preserved, these fossils do serve as vouchers of the types of organisms preserved in the strata exposed by construction activities at the project site. Further, these fossils have the potential to increase our understanding of the paleontological history of southern California. Paleontological Resource Mitigation Final Report – Quarry Creek 19 REFERENCES Deméré, T. A. 1980. A late Pleistocene molluscan fauna from San Dieguito Valley, San Diego County, California. San Diego Society of Natural History Transactions 19:217-226. Deméré, T.A. 1981. A newly recognized late Pleistocene marine fauna from the City of San Diego, San Diego County, California. In, P.L. Abbott and S.O'Dunn (eds.), Geologic Investigations of the San Diego Coastal Plain. San Diego Association of Geologists, fieldtrip guidebook, pp. 1-10. Deméré, T. A. and S. L. Walsh, 1993. Paleontological Resources, County of San Diego. Unpublished report prepared for the Department of Public Works, County of San Diego: 1-68. Eisenberg, L.I. 1985. Pleistocene faults and marine terraces, northern San Diego County. Pp. 87- 91. In P.L. Abbott (ed.). On the Manner of Deposition of the Eocene Strata in Northern San Diego County. San Diego Association of Geologists, fieldtrip guidebook, pp. 87-91. Emerson, W.K., and E.P. Chace. 1959. Pleistocene mollusks from Tecolote Creek, San Diego, California. San Diego Society of Natural History, Transactions 12:335-345. Hanna, M. A. 1926. Geology of the La Jolla Quadrangle, California. University of California Publications in Geological Sciences 16: 187-246. Hanna, M.A. 1927. An Eocene invertebrate fauna from the La Jolla quadrangle, California. University of California Publications in Geological Sciences, 16:247-398. Hertlein, L.G., and U.S. Grant, IV. 1939. Geology and oil possibilities of southwestern San Diego County. California Journal of Mines and Geology 35:57-78. Kennedy, M. P. 1975. Geology of the San Diego metropolitan area, California. Section A - Western San Diego metropolitan area. California Division of Mines and Geology, Bulletin 200: 9-39. Kennedy, M. P. and G. W. Moore. 1971. Stratigraphic relations of upper Cretaceous and Eocene formations, San Diego coastal area, California. American Association of Petroleum Geologists, Bulletin 55: 709-722. Kennedy, M. P., and G. L. Peterson. 1975. Geology of the San Diego metropolitan area, California. Section B - Eastern San Diego metropolitan area. California Division of Mines and Geology, Bulletin 200: 42-56. Kennedy, M. P., and S. S. Tan. 2005. Geologic map of the Oceanside 30’ X 60’ Quadrangle, California. California Geological Survey, Digital Database (ftp://ftp.consrv.ca.gov/pub/dmg/rgmp/Prelim_geo_pdf/oceanside_map2_ai9.pdf). Kern, J.P. 1971. Paleoenvironmental analysis of a late Pleistocene estuary in southern California. Journal of Paleontology 45:810-823. Kern, J.P. 1977. Origin and history of upper Pleistocene marine terraces, San Diego, California. Geological Society of America Bulletin 88:1553-1566. Kern, J.P. and T.K. Rockwell. 1992. Chronology and deformation of Quaternary marine shorelines, San Diego County, California. Pp. 377-382 In C.H. Fletcher, III and J.F. Paleontological Resource Mitigation Final Report – Quarry Creek 20 Wehmiller (eds.). Quaternary Coasts of the United States: Marine and Lacustrine Systems, SEPM Special Publication 48. Stephenson, B., and others. 2007. County of San Diego Guidelines for determining significance, paleontological resources. Land Use and Environment Group, Department of Planning and Land Use, Department of Public Works, 46 p. Valentine, J.W. 1959. Pleistocene molluscan notes. I. The Bay Point Formation at its type locality. Journal of Paleontology 33:685-688. Valentine, J.W. 1961. Paleoecologic molluscan geography of the California Pleistocene. University of California Publications in Geological Sciences 34:309-442. Walsh, S. L., 1996. Middle Eocene mammal faunas of San Diego County, California; pp. 75- 119. In, D. R. Prothero and R. J. Emry (eds.). The Terrestrial Eocene-Oligocene Transition in North America. Cambridge University Press, Cambridge England. Walsh, S. L., and T. A. Deméré. 1991. Age and stratigraphy of the Sweetwater and Otay formations, San Diego County, CA; pp. 131-148. In, P. L. Abbott and J. A. May (eds.). Eocene Geologic History San Diego Region. Society of Economic Mineralogists and Paleontologists, Pacific Section 68. Wilson, K. L. 1972. Eocene and related geology of a portion of the San Luis Rey and Encinitas quadrangles, San Diego County, California. Unpublished Master of Science Thesis, University of California, Riverside. Woodring, W. P., and W. P. Popenoe. 1945. Paleocene and Eocene stratigraphy of northwestern Santa Ana Mountians, Orange County, California. United States Geological Survey Oil and Gas Investigations Preliminary Chart 12. Paleontological Resource Mitigation Final Report – Quarry Creek 21 APPENDIX DATE 04/08/13 TIME 15:26:54 LOCALITY # LOCALITY NAME 6501 Quarry Creek 2011 LOCATION COUNTRY USA STATE CA COUNTY San Diego CITY Carlsbad SECT TWNSP DIREC RANGE DIR LOCATION IN SECTION ELEVATION LITHOLOGY mdst CITATION DONATED BY 114 FT DEPOSITIONAL ENVIRONMENT marine deltaic Hanson Aggregates 12 Sep 2011 LOCALITY DESCRIPTION SAN DIEGO NATURAL HISTORY MUSEUM DEPARTMENT OF PALEONTOLOGY LOCAL! TY CARD FIELD NUMBER see below LATITUDE 33°10'5111N VARIANCE LONGITUDE 117°18'1111W UTM 11 471841 3671166 VARIANCE MAP NAME San Luis Rey, CA MAP SCALE 1:2400D DATUM NAD1927 MAP SOURCE USGS 1968(1975) FIELD NOTES RMH#1 pg.87,133 COLLECTOR R.M. Hubscher 12 Sep 2011 COMPILED BY R.M. Hubscher 0 Mar 2013 STRATIGRAPHIC POSITION GROUP lOCAliTY#-6501 FORMATION Santiago Formation MEMBER INFORMAL NAME member B ERA Cenozoic SYSTEM Paleogene SER/EPOCH middle Eocene AGE/STAGE NALMA ZONE NAME PHOTOS ACCESS NO. y ENTERED BY R.M. Hubscher 5 Apr 2013 This locality was discovered during paleontological monitoring of excavation operations for the Quarry Creek 2011 project, Located along the boundary between Carlsbad and Oceanside, California. Construction activities for this project involved the reclamation of an old aggregate quarry site that occupied the area immediately south of State Route78 and Hayrnar Drive, and approximately 2,000 feet west of College Boulevard and immediately west of the Khols and Yalmart shopping centers. Locality 6501 represents two field numbers collected within 20 horizontal feet of each other. Locality 6501 occurred at an elevation of 114 to 115 feet and was discovered near the base of an approximately 30 foot cut slope situated in the northwest corner of the project site. Fossils were collected from a 2 foot thick mudstone interval within the middle Eocene, Santiago Formation (informal Member B). The b~ from which the fossils were collected was a yellowish gray mudstone with grayish orange pink coloration intermittently throughout. Discovered fossils from this horizon were confined to the immediate area of the two field numbers and not observed elsewhere along strike in the same horizon. Underlying Locality 6501 was a one foot thick, orange, oxidized, clast-supported, moderately rounded gravel conglomerate with a fine-grained sandstone matrix. Directly overlying Locality 6501 was a 7 foot thick, very Light gray, poorly sorted, medium grained, massive, arkosic sandstone interbedded with thin (<1/2 inch) mudstone and siltstone laminations. These strata occurred near the base of the Santiago Formation, which as exposed on the project site cropped out between 105 and 143 feet in elevation. An eroded cut slope along the northern boundary of the project site provided excellent exposures of Santiago Formation strata and served as a useful reference section. This section consisted of a tower sequence of gray and purple claystones and fine-grained sandstones overlain by an upper sequence of cream-colored, massive silty sandstones and medium-grained sandstones. Fossils were recovered by had quarrying blocks of claystone matrix from the temporary cut slope and splitting the blocks. Recovered fossils consist of poorly-preserved and fragmentary impressions of land plants. As recovered were various kinds of trace fossils, primarily burrows. The fossiliferous bed from which this locality was collected has been graded away and is no longer accessible. Field Numbers: RHM12Sep11-1; RHM5Nov11-1 Collecting Dates: 12 September 2011; 5 November 2011 Elevation Range: 114-122 LOCALITY 6501 DATE D4/08/13 TIME 15:26:31 SPECIMEN NUMBER OF NUMBER ITEMS 135095 135096 135097 135098 135099 135100 1 135101 2 135102 1 135103 2 135104 2 135105 2 135106 135107 DESCRIPTION burrow on matrix burrow in matrix burrows in matrix branching burrow on matrix burrow free of matrix, back filled impression of partial leaf; burrow impression of possible flower bud impression of possible leaf on matrix impression of possible stem or leaf impression of possible stem impression of woody material impression of plant material impression of plant material SAN DIEGO NATURAL HISTORY MUSEUM DEPARTMENT OF PALEONTOLOGY FAUNAL LIST FOR LOCALITY 6501 Quarry Creek 2011 SPECIES Ichnofossil Ichnofossi l Ichnofossi l Ichnofossil Ichnofossi l cf. Magnolia sp. Dicotyledonae Dicotyledonae Tracheophyta Tracheophyta Tracheophyta Tracheophyta Tracheophyta PAGE PAL270