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Home My WebLink About3184; CANNON ROAD WEST; MITIGATION MONITORING RESULTS; 1999-09-03Investigative Science and Engineering 3511 Camino Del Rio South, Suite 302 Phone/Fax: 619-640-9379 /619-640-0763 San Diego, CA 92108-4003 www.ise-advantage.com September 3, 1999 RECEIVED Mr. Doug Gettinger SEP - 7 1999 Ogden Environmental and Energy, Inc 5510 Morehouse Drive ENGINEERING San Diego, CA 92121 DEPARTMENT Re: Cannon Road Mitigation Monitoring Results - Week #22 (9-2-99) (ISE Report #99-009v, 035) Dear Mr. Gettinger: Pursuant to U.S.F.W.S. permit approval requirements, Investigative Science and Engineering (ISE) has examined potential noise impacts to the riparian habitat along the proposed Cannon Road extension alignment located in Carlsbad, California. A field survey of the site was performed on September 2, 1999. The results of that survey are presented in this letter report. Introduction and Definitions Site Characterization The Cannon Road West Project is located in the City of Carlsbad in San Diego County, California (refer to Figure 1). This project will extend Cannon Road approximately 2 miles east from its terminus at I-S to El Camino Real. The Cannon Road extension consists of two bridge crossings and traverses through and adjacent to habitat for the federally endangered/threatened least Bell's vireo, southwestern willow flycatcher, and California gnatcatcher. The predominate land use of the project area is undisturbed open space. Wetlands originating from the Agua Hedionda Lagoon and Agua Hedionda Creek' are located adjacent to the north and commercial developments are present to the west. Elevations for the project area have been altered due to construction activities; however, pre-construction elevations range from approximately 100 feet above mean sea level (MSL) along the terrace over looking Agua Hedionda Lagoon down to approximately 5 feet above MSL along the banks. of P'e Agua Hedionda Creek. Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #22 (9-2-99) ISE Report #99-009v, 035 September 3, 1999 Page 2 KIA 11; L ( / Project AllQnmen .N..'42/ s ..• ',.,".•..;-. '.'• 17 PA '( Figure 1: Project Alignment Area Map (Thomas Guide Pages 1126, 1127, and 1107) Acoustical Definitions Airborne sound is a rapid fluctuation of air pressure above and below atmospheric levels. The loudest sounds the human ear can hear conformably is approximately one trillion (a one with 12 zeros following it) times the acoustic energy that the ear can barely detect. Because of this vast range, any attempt to represent the acoustic intensity of a particular sound on a linear scale becomes unwieldy. Because of this, a logarithmic ratio known as the decibel (dB) is commonly employed. A sound level of zero '0" dB is scaled such that it is defined as the threshold of human hearing and would be barely audible to a human of normal hearing under extremely quiet listening conditions and would correspond to a sound pressure level equal to the reference level. Most of the sounds we hear in the environment do not consist of a single - frequency, but rather a broad band of frequencies differing in sound level. The intensities of each frequency add to generate the sound we hear. The method commonly used to quantify environmental sounds consists of determining all of the frequencies of a sound according to a weighting system that reflects the nonlinear response characteristics of the human ear. This is called "A" weighting, and the decibel level measured is called the A-weighted sound level (or dBA). In practice, the level of a noise source is conveniently measured using a sound level meter that includes a filter corresponding to the dBA curve. - Although the A-weighted sound level may adequately indicate the level of environmental noise at any instant in time, community noise levels vary continuously. Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results -. Week #22 (9-2-99) ISE Report #99-009v, 035 September 3, 1999 Page 3 Environmental noise includes a conglomeration of sounds from distant sources that create a relatively steady background noise in which no particular source is identifiable. For this type of noise, a single descriptor called the Leq (or equivalent sound level) is used. Leq is the energy-mean A-weighted sound level during a measured time interval. It is the 'equivalent' constant sound level that would have to be produced by a given source to equal the fluctuating level measured. To describe time-varying character of environmental noise, the statistical noise descriptors L10, L50, and L90 are commonly used. They are the noise levels equaled or exceeded during 10 percent, 50 percent, and 90 percent of a stated time. Sound levels associated with the L10 typically describe transient or short-term events, while levels associated with the L90 describe the steady state (or most prevalent) noise conditions. In addition, it is often desirable to know the acoustic range of the noise source being measured. This is accomplished through the maximum and minimum measured sound level (Lmax and Lmin) indicators. The Lmin value obtained for a particular monitoring location is often called the acoustic floor for that location. Applicable Significance Criteria Wildlife Habitat Regulations Construction and operational noise generated by this project is regulated by the United States Fish and Wildlife Service (U.S.F.W.S.) and the California Department of Fish and Game for its effect on federally endangered least Bell's vireo (Vireo be//ii push/us) and the southwestern willow flycatcher (Empidonax trail/ii extnmus) and the federally threatened California gnatcatcher (Polio pt/la California). Resource agencies have theorized that elevated noise levels can potentially mask songs of the least Bell's vireo which are used to attract mates and defend territories. The San Diego Association of Governments (SANDAG) in a 1990 study entitled "Comprehensive Species. Management Plan for the least Bell's vireo" theoretically estimated that {traffic} noise levels above 60 dBA Leq in vireo breeding areas may sufficiently mask the vireo's song and potentially reduce the reproductive success of this species during their breeding season that occurs from March 1 to September 1. Since sustained noise exposure (indicated by the L90 metric) produces greater masking effects than intermittent peak levels, this report will analyze both effects. The SANDAG report conclusions were unclear as to the specific time interval of the measurement, but it is typically taken as one hour. Although research is on going regarding similar noise impacts to the southwestern willow flycatcher and California gnatcatcher, in the absence of species-specific data, these same study results are applied by the Service to this bird species as well. Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #22 (9-2-99) lSE Report #99-009v, 035 September 3, 1999 Page 4 M. Analysis Methodology Existing Conditions Field Survey Four Larson Davis Model 700 ANSI Type 2 integrating sound level meters were used as the data collection devices. The meters were positioned at the locations shown below in Figure 2 and the accompanying matrix. VIL gua 30 /EvapPInt '\ P . .ç Agua V 357 ..:.)..., •. -e . ,. N. /9 rM*Iy,TkT 0 1/2 I MILE I 11 IMII I 11340 1000 0 1000 2000 3000 4000 FEET 1 I I'I rM,H Figure 2: Project Area Topography (USGS 7.5 San Luis Rey Quadrangle 1:12000) Monitor Sta. Eng. Sta. No. GPS L.at GPS Lon Description ML #1 102+00 330 08.780 N 1170 18.195W Western end of alignment ML #2 113+00 330 08.826 N 1170 18.011 W Central point of alignment ML #3 n/a 330 08.952 N 1170 17.895 W Eastern end of alignment ML #4 n/a 330 08.194 N 1170 18.401 W Macario Canyon Area EPE = Estimated Position Error = 49' Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #22 (9-2-99) ISE Report #99-009v, 035 September 3, 1999 Page 5 The meters were mounted on tripods roughly 5 feet above the ground and were calibrated before and after each field deployment. Each station was programmed to record and log the following noise metrics each hour: Leq-h, Lmax, Lmin, L10, L50, and L90. Findings Field Monitoring Results A field survey was performed to ascertain construction noise levels within the habitat area due to excavating, bridge fabrication, light grading and associated ancillary activities. To date, the least Bell's vireo has been predominantly located between station markers 103+00 and 108+00. These station markers correlate with ISE monitoring locations 1 and 2. Additionally, as of August 31, 1999, USFWS has officially released the habitat within Macario Canyon from any further mitigation monitoring. As a result, no noise monitoring was performed at ISE monitoring location ML 4 during the Week #22 monitoring period. During the Week #22 monitoring period, construction activities associated with the Cannon Road West Project were associated with the dismantling of the temporary noise wall along El Camino Real and erection of a new temporary wall to be located along the stretch of habitat adjacent to station marker 110+00. Testing conditions during the monitoring intervals were clear with an average barometric pressure reading of 29.95 in-Hg, an average westerly wind speed of 0 to 5 miles per hour (MPH), and an approximate mean temperature of 75 degrees Fahrenheit. The results of the sound level monitoring are shown below in Table 1. The values for the energy equivalent sound level (Leq), the maximum and minimum measured sound levels (Lmax and.Lmin), and the statistical indicators L10, L50, and L90, are given for each monitoring location. Areas in excess of the 60-dBA Leq-h impact threshold are underlined. Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #22 (9-2-99) ISE Report #99-009v, 035 September 3, 1999 Page Table 1: Measured Construction Levels - Cannon Road Alignment Site Leg 1-Hour Noise Level Descriptors in dBA .Lmax. Lmin LIO L50 L90 9:00 a.m. ML 1 55.0 66.0 46.0 57.5 54.0 50.5 ML 2 55.5 75.0 43.0 58.0 54.0 48.5 ML 3 54.0 77.0 39.5 53.5 43.0 41.0 ML 4 n/a n/a n/a n/a n/a n/a 10:00 a.m. ML 1 56.0 69.5 44.0 59.0 54.5 51.0 ML 2 55.0 62.5 42.5 58.0 54.5 50.0 ML 3 58.5 69.0 40.5 61.5 57.5 42.5 ML 4 n/a n/a n/a n/a n/a n/a 11:00 a.m. ML 1 56.5 77.0 43.5 57.5 55.5 50.5 ML 2 48.5 66.5 40.5 51.0 43.0 41.5 ML 3 55.5 64.0 43.5 58.5 55.0 49.5 ML 4 n/a n/a n/a n/a n/a n/a 12:00 p.m. ML 1 57.5 74.5 44.0 60.0 56.0 49.5 ML 2 53.5 49.5 45.5 41.5 37.5 33.5 ML 3 56.0 76.5 40.5 57.5 44.0 42.0 ML 4 n/a n/a n/a n/a n/a n/a 1:00 P.M. ML 1 57.0 76.5 44.5 59.0 56.5 51.5 ML 2 55.5 76.0 40.5 57.0 45.0 41.5 ML 3 58.0 72.0 43.0 59.5 56.0 51.0 ML 4 n/a n/a n/a n/a n/a n/a ML 4 released per USFWS memo dated 8/31/99 Measurements collected at monitoring locations, ML 1 through ML 3, reflect typical sound levels associated with the community setting observed and the topography of the surrounding terrain. All monitoring stations were below the 60-dBA Leq-h impact threshold during the Week #22 monitoring period. The highest hourly. Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results Week #22 (9-2-99) ISE Report #99-009v, 035 September 3, 1999 Page 7 energy equivalent sound level (Leq-h) recorded for monitoring locations ML 1 through 3 was 58.5 dBA and was due entirely to traffic activity along El Camino Real. Recommendations All monitoring locations were observed to be below the 60-dBA Leq impact threshold throughout the duration of the Week #22 monitoring period. ISE recommends no further mitigation at this time. Since no further construction is planned within the Cannon Road West Extension alignment until 9/16/99 (the release date for noise mitigation requirements), ISE recommends closure of the noise-monitoring plan at this time. This report will constitute the final report for this monitoring plan. Should you have any questions regarding the above, please do not hesitate to contact me at (619) 640-9379. Sincer Rick Tavares, REA, INCE Project Principal Investigative Science and Engineering Cc: Sherri Howard, City of Carlsbad Glen Laube, ISE 8 (v%t) RECEIVED Investigative Science and Engineering .1111 091999 3511 Camino Del Rio South, Suite 302 Phone/Fax: 619-640-9379 / 619-640-0763 San Diego, CA 92108-4003 www.iseadp4 R ING DEPARTMENT July 8, 1999 Mr. Doug Gettinger Ogden Environmental and Energy, Inc. 5510 Morehouse Drive San Diego, CA 92121 Re: Cannon Road Mitigation Monitoring Results - Week #15 (7-7-99) (ISE Report #99-0090) Dear Mr. Gettinger: Pursuant to U.S.F.W.S. permit approval requirements, Investigative Science and Engineering (lSE) has examined potential noise impacts to the riparian habitat along the proposed Cannon Road extension alignment located in Carlsbad, California. A field survey of the site was performed on July 7, 1999. The results of that survey are presented in this letter report. Introduction and Definitions Site Characterization The Cannon Road West Project is located in the City of Carlsbad in San Diego County, California (refer to Figure 1). This project will extend Cannon Road approximately 2 miles east from its terminus at 1-5 to Camino Real. The Cannon Road extension consists of two bridge crossings and traverses through and adjacent to habitat for the federally endangered/threatened least Bell's vireo, southwestern willow flycatcher, and California gnatcatcher. The predominate land use of the project area is undisturbed open space. Wetlands originating from the Agua Hedionda Lagoon and Agua Hedionda Creek are located adjacent to the north and commercial developments are present to the west. Elevations for the project area have been altered due to construction activities; however, pre-construction elevations range from approximately 100 feet above mean sea level (MSL) along the terrace over looking Agua Hedionda Lagoon down to approximately 5 feet above MSL along the banks of the Agua Hedionda Creek. Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results -Week #15 (7-7-99) ISE Report #99-0090 July 8, 1999 Page 2 I, tf I 9 ..*. -. ". . '.. .: PA * Figure 1: Project Alignment Area Map (Thomas Guide Pages 1126, 1127, and 1107) Acoustical Definitions Airborne sound is a rapid fluctuation of air pressure above and below 'atmospheric levels. The loudest sounds the human ear can hear conformably is approximately one trillion (a one with 12 zeros following it) times the acoustic energy that the ear can barely detect. Because of this vast range, any attempt to represent the acoustic intensity of a particular sound on a linear scale becomes unwieldy. Because of this, a logarithmic ratio known as the decibel (dB) is commonly employed. A sound level of zero "0" dB is scaled such that it is defined as the threshold of human hearing and would be barely audible to a human of normal hearing under extremely quiet listening conditions and would correspond to a sound pressure level equal to the reference level. Most of the sounds we hear in the environment do not consist of a single frequency, but rather a broad band of frequencies differing in sound level. The intensities of each frequency add to generate the sound we hear. The method commonly used to quantify environmental sounds consists of determining all of the. frequencies of a sound according to a weighting system that reflects the nonlinear response characteristics of the human ear. This is called "A" weighting, and the decibel level measured is called the A-weighted sound level (or dBA). In practice, the level of a noise source is conveniently measured using a sound level meter that includes a filter corresponding to the dBA curve. Although the A-weighted sound level may adequately indicate the level of environmental noise at any instant in time, community noise levels vary continuously. Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results Week #15 (7-7-99) ISE Report #99-0090 July 8, 1999 Page Environmental noise includes a conglomeration of sounds from distant sources that create a relatively steady background noise in-which no particular source is identifiable. For this type of noise, a single descriptor called the Leq (or equivalent sound level) is used. Leq is the energy-mean A-weighted sound level during a measured time interval. It is the 'equivalent' constant sound level that would have to be produced by a given source to equal the fluctuating level measured. To describe time-varying character of environmental noise, the statistical noise descriptors LIO, L50, and L90 are commonly used. They are the noise levels equaled or exceeded during 10 percent, 50 percent, and 90 percent of a stated time. Sound levels associated with the LIO typically describe transient or short-term events, while levels associated with the L90 describe the steady state (or most prevalent) noise conditions. In addition, it is often desirable to know the acoustic range of the noise source being measured. This is accomplished through the maximum and minimum measured sound level (Lmax and Lmin) indicators. The Lmin value obtained for a particular monitoring location is often called the acoustic floor for that location. Applicable Significance Criteria Wildlife Habitat Regulations Construction and operational noise generated by this project is regulated by the United States Fish and Wildlife Service (U.S.F.W.S.) and the California Department of Fish and Game for its effect on federally endangered least Bell's vireo (Vireo be/Ill push/us) and the southwestern willow flycatcher (Empidonax trail/ii extrimus) and the federally threatened California gnatcatcher (Polioptila california). Resource agencies have theorized that elevated noise levels can potentially mask songs of the least Bell's vireo which are used to attract mates and defend territories. The San Diego Association of Governments (SANDAG) in a 1990 study entitled "Comprehensive Species Management Plan for the least Bell's vireo" theoretically estimated that {traffic) noise levels above 60 dBA Leq in vireo breeding areas may sufficiently mask the vireo's song and potentially reduce the reproductive success of this species during their breeding season that occurs from March 1 to September 1. Since sustained noise exposure (indicated by the L90 metric) produces greater masking effects than intermittent peak levels, this report will analyze both effects. The SANDAG report conclusions were unclear as to the specific time interval of the measurement, but it is. typically taken as one hour. Although research is on going regarding similar noise impacts to the southwestern willow flycatcher and California gnatcatcher, in the absence of species-specific data, these same study results are applied by the Service to this bird species as well. Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results -Week #15 (7-7-99) lSE Report #99-0090 July 8, 1999 Page 4 EB Analysis Methodology Existing Conditions Field Survey Four Larson Davis Model 700 ANSI Type 2 integrating sound level meters were used as the data collection devices. The meters were positioned at the locations shown below in Figure 2 and the accompanying matrix. Counti 30 gua lML#2r"' .. . ML #1 41 Agua ...- ,-. 0 1/2 1MILE TN 11V ---- I 13W 1000 0 1000 2000 3000 FEET Figure 2: Project Area Topography (USGS 7.5 San Luis Rey Quadrangle 1:12000) Monitor Sta. Eng. Sta. No.. GPS Lat GPS Lon Description ML #1 102+00 330 08.780 N 1170 18.195 W Western end of alignment ML #2 113+00 330 08.826 N 1170 18.011 W Central point of alignment ML #3 n/a 330 08.952 N 1170 17.895 W Eastern end of alignment ML #4 n/a 330 08.194 N 1170 18.401 W Macario Canyon EPE = Estimated Position Error = 49' Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results -Week #15 (7-7-99) ISE Report #99-0090 July 8, 1999 Page The meters were mounted on tripods roughly 5 feet above the ground and were calibrated before and after each field, deployment. Each station was programmed to record and log the following noise metrics each hour: Leq-h, Lmax, Lmin, L10, L50, and L90. Field Monitoring Results A field survey was performed to ascertain construction noise levels within the habitat area due to excavating, bridge fabrication, light grading and associated ancillary activities. To date, the least Bell's vireo has been predominantly located between station markers 103+00 and 108+00. These station markers correlate with ISE monitoring locations I and 2. Additional sightings of the least Bell's vireo have been observed within Macarlo Canyon (approximately 1-mile southwest of ISE monitoring location #1). As 'a result of new grading activities adjacent to the habitat,' an additional meter (ML 4) has been placed at this location (refer to Figures 3a through c). During the Week #15 monitoring period, construction activities associated with the Cannon Road West Project were concentrated near monitoring location #3 (adjacent to El Camino Real). Activities and equipment observed at this location were primarily affiliated with excavating and trenching for the proposed sewer line, and relocation of materials used for the falsework bridge supports. Equipment utilized during this monitoring period included a single CAT dozer (model D6R, CAT excavator (model 345BL), CAT forklift (model TH83), Skytrak forklift (model 9038), and a truck mounted crane. Activities and equipment observed at Macario Canyon were associated with the proposed alignment of Faraday Road (to connect with Cannon Road) and included three CAT scrapers 'working in a continuous short haul cycle (model 657E), two CAT dozers (model D9R), a CAT dozer (model D9L), and a CAT tractor (model 950B). Testing conditions during the monitoring intervals were clear with an average barometric pressure reading of 29.90 in-Hg, an average westerly wind speed of 0 to 3 miles per hour (MPH), and an approximate mean temperature 'of 70 degrees Fahrenheit. The results of the sound level monitoring are shown below in Table 1. The values for the energy equivalent sound level (Leq), the maximum and minimum measured sound levels (Lmax and' Lmin), and the statistical indicators LIO, L50, and L90, are given for each monitoring location. Areas in excess of the 60-dBA Leq-h impact threshold are underlined. Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #15 (7-7-99) ISE Report #99-0090 July 8, 1999 Page 6 Table 1: Measured Construction Levels - Cannon Road West Alignment I 1 -Hour Noise Level Descriptors in cIBA Site Leq Lmax Lmin LID L50 L90 9:30 am. ML 1 47.5 64.5 . 41.0 50.5 43.5 42.0 ML 52.0 73.5 41.0 52.0 46.5 43.0 ML 3., 54.5 68.0 42.5 57.0 53.5 50.0 ML 4 66.0 76.5 44.0 70.0 63.5 52.5 10:30 a.m. ML 1 46.5 61.5 40.0 50.0 43.5 41.5 ML 2. 49.0 64.0 40.5 . 52.0 47.0 43.5 ML 3 56.0 64.5 44.5 58.5 55.5 52.5 MIL 64.0 76.0 43.0 68.0 61.5 51.5 11:30 a.m. ML 1 50.0 70.5 40.0 50.5 43.5 41.5 MIL 49.5 68.5 38.5 49.5 44.0 41.0 MI-3 54.5 72.5 40.0 57.0 53.5 48.5 ML j4 61.5 74.0 405 6625 51.5 42.0 12:30 p.m. ML 1 48.5 64.0 40.0 51.5 43.0 41.0 MIL 47.5 55.5 42.0 51.5 45.0 43.0 MI-3 55.5 65.5 42.0 58.0 55.0 51.0 MI-4 61.5 77.0 41.0 66.0 53.0 45.5 1:30 p.m. ML 1. 50.5 . 70.0 41.0 51.0 44.0 42.0 ML 50.0 69.0 39.0 49.5 44.5 41.5 ML 54.0 72.0 39.5 56.5 53.0 48.0 MI-4 61.0 73.5 41.5 66.0 51.0 43.0 Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results -Week #15 (7-7-99) ISE Report #99-0090 July 8, 1999 Page 7 Measurements collected at monitoring locations, ML I through ML 4, reflect typical sound levels associated with the community setting observed and the topography of the surrounding terrain. With the exception of ML 4 (Macano Canyon), all monitoring locations were below the 60-dBA Leq impact threshold during the Week #15 monitoring period. Monitoring location #4 (ML 4) showed an exceedance throughout the duration of the monitoring period. The highest hourly energy equivalent sound level (Leq-h) at this monitoring location was 66.0-dBA and was recorded during the 9:30 am. monitoring interval. Additionally, the background noise level (L90), for Macario Canyon, did not exceed 52.5-dBA thus enabling vireo communication within the affected areas 90 percent of the time. ES Recommendations With the exception of ML 4 (Macario Canyon), All monitoring locations were observed to be below the ..60-dBA Leq impact threshold throughout the duration of the Week #15 monitoring period. The exceedances recorded at ML 4 were attributed to the close proximity of grading activities pertaining to the proposed alignment of Faraday Road to the habitat boundary. The following mitigation measures are recommended. Equipment utilized for grading activities close to the habitat should be fitted with shielded exhaust stacks (i.e., modified stacks that are positioned away from the habitat area). If item # 1 is not feasible, grading and hauling routes should be organized in a fashion as to have exhaust stacks positioned away from the habitat at their closest point to the area of concern. Utilize excavated material to create an earthen berm along the western limits of the alignment in order to attenuate construction noise entering the habitat area. Such berms can reduce noise levels up to 14-dBA for practical construction heights. Idling of equipment should be kept to a minimum. Staging and maintenance of equipment should be performed away from the habitat boundary. - 1 V * 4 c - S pp W. VAN Eli PoW ( I V I LI I - - S I 440 9 k F F J F F $ 4 4 i F;?, F I J nt— ir np It f. - F 4 F F 44! # •• •,F \4J - j h' c FF F _ e_ i i - - - F - , p Mr. Doug Gethnger Cannon Road Mitigation Monitoring Results - Week #15 (7-7-99) ISE Report #99-0090 July 8, 1999 Page 10 Figure 3c: Earth-moving activities associated with the proposed Faraday Road alignment. J/• Investigative Science and Engineering 3511 Cam/no Del Rio South, Suite 302 Phonel4aPA91 93709719-640-0763 San Diego, CA 92108-4003 .' www.ise-advantage.com ENGINEERING DEPARTMENT June 1, 1999 Mr. Doug Gettinger Ogden Environmental and Energy, Inc. 5510 Morehouse Drive San Diego, CA 92121 Re: Cannon Road Mitigation Monitoring Results - Week #12 (5-27-99) (ISE Report #99-0091) Dear Mr. Gettinger: Pursuant to U.S.F.W.S. permit approval requirements, Investigative Science and Engineering (ISE) has examined potential noise impacts to the riparian habitat along the proposed Cannon Road extension alignment located in Carlsbad, California. A field survey of the site was performed on May 27, 1999. The results of that survey are presented in this letter report. Introduction and Definitions Site Characterization The Cannon Road West Project is located in the City of Carlsbad in San Diego County, California (refer to Figure. 1). This project will extend Cannon Road approximately 2 miles east from its terminus at 175 to Camino Real. The Cannon Road extension consists of two bridge crossings and traverses through and adjacent to habitat for the federally endangered/threatened least Bell's vireo, southwestern willow flycatcher, and California gnatcatcher. The predominate land use of the project area is undisturbed open space. Wetlands originating from the Agua Hedionda Lagoon and Agua Hedionda Creek are located adjacent to the north and commercial developments are present to the west. Elevations for the project area have been altered due to construction activities; however, pre-construction elevations range from approximately 100 feet above mean sea level (MSL) along the terrace over looking Agua. Hedionda Lagoon down to approximately 5 feet above MSL along the Agua Hedionda 4.. Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results -Week #12 (5-27-99) SE Report #99-0091 June l,1999 Page 2 KIM 1 126:?..4 4 <j 'ProjectAignmen 4' 4? Op -N. Figure 1: Project Alignment Area Map (Thomas Guide Pages 1126, 1127, and 1107) Acoustical Definitions Airborne sound is a rapid fluctuation of air pressure above and below atmospheric levels. The loudest sounds the human ear can hear conformably is approximately one trillion (a one with 12 zeros following it) times the acoustic energy that the ear can barely detect. Because of this vast range, any attempt to represent the acoustic intensity of a particular sound on a linear scale becomes unwieldy. Because of this, a logarithmic ratio known as the decibel (dB) is commonly employed. A sound level of zero 0" dB is scaled such that it is defined as the threshold of human hearing and would be barely audible to a human of normal hearing under extremely quiet listening conditions and would correspond to a sound pressure level equal to the reference level. Most of the sounds we hear in the environment do not consist of a single frequency, but rather a broad band of frequencies differing in sound level. The intensities of each frequency add to generate the sound we hear. The method commonly used to quantify environmental sounds consists of determining all of the frequencies of a sound according to a weighting system that reflects the nonlinear response characteristics of the human ear. This is called "A" weighting, and the decibel level measured is called the A-weighted sound level (or dBA). In practice, the level of a noise source is conveniently measured using a sound level meter that includes a filter corresponding to the dBA curve. . Although the A-weighted sound level may adequately indicate the level of environmental noise at any instant in time, community noise levels vary continuously. Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results -Week #12 (5-2799) ISE Report #99-0091 June 1, 1999 Page 3 Environmental noise includes a conglomeration of sounds from distant sources that create a relatively steady background noise in which no particular source is identifiable. For this type of noise, a single descriptor called the Leq (or equivalent sound level) is used. Leq is the energy-mean A-weighted sound level during a measured time interval. It is the 'equivalent' constant sound level that would have to be produced by a given source to equal the fluctuating level measured: To describe time-varying character of environmental noise, the statistical noise descriptors L10, L50, and L90 are commonly used. They are the noise levels equaled or exceeded during 10 percent, 50 percent, and 90 percent of a stated time. Sound levels associated with the L10 typically describe transient or short-tern, events, while levels associated with the L90 describe the steady state (or most prevalent) noise conditions. In addition, it is often desirable to know the acoustic range of the noise source being measured. This is accomplished through the maximum and minimum measured sound level (Lmax and Lmin) indicators. The Lmin value obtained for a particular monitoring location is often called the acoustic floor for that location. Applicable Significance Criteria Wildlife Habitat Regulations Construction and operational noise generated by this project is regulated by the United States Fish and Wildlife Service (U.S.F.W.S.) and the California Department of Fish and Game for its effect on federally endangered least Bell's vireo (Vireo be/Ill pusillus) and the southwestern willow flycatcher (Empidonax trailill extnmus) and the federally threatened California gnatcatcher (Polioptila california). Resource agencies have theorized that elevated noise levels can potentially mask songs of the least Bell's vireo which are used to attract mates and defend territories. The San Diego Association of Governments (SANDAG) in a 1990 study entitled "Comprehensive Species Management Plan for the least Bell's vireo" theoretically estimated that {traffic} noise levels above 60 dBA Leq in vireo breeding areas may sufficiently mask the vireo's song and potentially reduce the reproductive success of this species during their breeding season that occurs from March 1 to September 1. Since sustained noise exposure (indicated by the L90 metric) produces greater masking effects than intermittent peak levels, this report will analyze both effects. The SANDAG report conclusions were unclear as to the specific time interval of the measurement, but it is typically taken as one hour. Although research is on going regarding similar noise impacts to the southwestern willow flycatcher and California gnatcatcher, in the absence of species-specific data, these same study results are applied by the Service to this bird species as well. Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results — Week #12 (5-27-99) ISE Report #99-0091 June 1, 1999 Page EM Analysis Methodology Existing Conditions Field Survey Three Larson Davis Model 700 ANSI Type 2 integrating sound level meters were used as the data collection devices. The meters were positioned at the locations shown below in Figure 2 and the accompanying matrix. ::. •:?/ :,>,/ 4i? .71 .11ilA.t , cr II ' t intorosa Country Cit 30j / #2 NIMN 0 1 1 v 1 fl 4 MILE 9.4 a rn..wa__1 000 FEET Figure 2: Project Area Topography (USGS 7.5 San Luis Rey Quadrangle 1:12000) Monitor. Sta. Eng. Sta. No. GPS Lät GPS' Lon•• Description ML #1 102+00 330 08.780 N 1170 18.195W. Western end of alignment ML #2 113+00 330 08.826 N 1170 18.011 W Central point of alignment ML #3 n/a 330 08.952 N 1170 17.895 W Eastern end of alignment (ECR bridge crossing) ECR = El Camino Real Rd. EPE = Estimated Position Error = 49' Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results -Week #12 (5-27-99) ISE Report #99-0091 June 1, 1999 Page The meters were mounted on tripods roughly 5 feet above the ground and were calibrated before and after each field deployment. Each station was programmed to record and log the following noise metrics each hour: Leq-h, Lmax, Lmin, L10, L50, and L90. Findings Field Monitorina Results A field survey was performed to ascertain construction noise levels within the habitat area due to light grading and ancillary activities. To date, the least Bell's vireo sightings have been predominantly located between station markers 103+00 and 108+00. These station markers correlate with ISE monitoring locations I and 2. ISE verified the completion of the temporary construction noise wall along these sensitive areas of the project alignment. The as-built design can be seen in Figures 3a through - g at the end of this report. During the Week #12 monitoring period, construction activities associated with the Cannon Road West Project were concentrated near monitoring location #3 (adjacent to El Camino Real). Activities and equipment observed at this location were primarily affiliated with the pouring of cement to create the bridge deck of the Cannon Road I El Camino Real bridge. Equipment observed at this location consisted of multiple cement haulers, which would deposit their load into a cement "hopper" located adjacent to monitoring location #3. The cement haulers worked in a continuos cycle, entering and exiting the project site via El Camino Real. Additional equipment being utilized during this monitoring period included a single CAT dozer (model D9R), a Bidwell cement "smoother", and a model 9038 turbo forklift. Testing conditions during the monitoring intervals were clear with an average barometric pressure reading of 30.00 in-Hg, an average westerly wind speed of 0 to 5 miles per hour (MPH), and an approximate mean temperature of 70. 5 degrees Fahrenheit. The results of the sound level monitoring are shown below in Table 1. The values for the energy equivalent sound level (Leq), the maximum and minimum measured sound levels (Lmax and Lmin), and the statistical indicators L10, L50, and L90, are given for each monitoring location. Areas in excess of the 60-dBA Leq-h impact threshold are underlined. Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results -Week #12 (5-27-99) ISE Report #99-0091 June 1, 1999 Page 6 Table 1: Measured Construction Levels - Cannon Road West Alignment 1-Hour Noise Level Descriptors in dBA Site Leq Lmax Lmin LIO L50 L90 6:30 am. ML 1 48.5 80.5 40.0 48.0 44.5 42.5 ML2 54.5 66.5 47.5 57.0 54.0 51.0 ML3 63.0 72.0 49.5 66.5 61.0 55.0 7:30 a.m. ML 1 53.5 67.0 40.0 55.5 45.0 42.0 ML 2 55.0 65.0 48.5 57.0 54.5 52.0 ML3 65.0 71.0 54.5 67.5 64.5 59.0 8:30 am. ML 1 46.5 63.0 40.0 48.0 43.5 41.5 ML 2 52.5 59.5 47.0 55.0 51.5 48.5 ML3 65.0 76.5 51.0 67.5 64.5 59.5 9:30 p.m. ML 1 49.5 69.0 40.5 54.0 44.0 42.0 ML2 51.0 80.5 42.0 52.0 49.0 47.5 ML3 64.0 74.0 52.5 67.0 64.0 57.0 10:30 p.m. ML 1 51.0 69.5 41.0 51.0 46.0 43.5 ML2 51.0 66.0 43.0 53.0 50.0 47.5 ML3 62.5 59.0 51.5 66.0 62.5 55.5 11:30 p.m. ML 1 50.0 70.5 42.5 51.0 46.0 44.0 ML2 52.5 74.0 47.5 53.5 50.0 48.5 ML3 63.5 70.5 52.0 66.0 63.5 57.0 12:30 p.m. ML 1 49.0 67.0 42.5 51.0 46.0 44.0 ML 2 52.5 70.0 47.5 54.5 51.0 49.0 ML.3 64.5 74.0 52.5 66.5 64.0 59.0 1:30 p.m. ML 1 47.5 62.5 42.0 50.0 45.5 43.5 ML2 52.0 66.5 47.5 54.0 51.0 49.0 ML3 62.5 69.5 52.5 65.5 62.0 57.0 Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results -Week #12 (5-27-99) ISE Report #99-0091 June 1, 1999 Page 7 Measurements collected at monitoring locations ML I through ML 3 reflect typical sound levels associated with the community setting observed and the topography of the surrounding terrain. Monitoring location #3 showed a slight exceedance of the 60-dBA Leq impact threshold throughout the duration of the Week #12 monitoring period. This exceedance was a direct result of cement pumping activities associated with the El Camino' Real Bridge over crossing. Additional acoustical mitigation and onsite monitoring was implemented to reduce impacts as much as possible (see Figure 4). Consequently, the background noise level (L90), for all monitoring locations, did not exceed 59.5 dBA thus enabling vireo' communication within the affected areas. This. record of 59.5 dBA was recorded at ML 3 and should be noted as being slightly lower than pre-construction levels (due to the adjacency of El Camino Real). Recommendations Monitoring Location #3 was found to have an energy average sound level (Leq- h) in excess of 60 dBA during the Week #12 monitoring period. The exceedance observed at ML 3 was due to construction activities associated with the construction of the Cannon Road access bridge. Construction activities associated with this phase of construction were scheduled to be complete within one day's time. Should you have any questions regarding the above conclusion, please do not hesitate to contact me at (619) 640-9379. Sincerely, 0ENTA. Rick Tavares, EIT, REA, INCE Project Principal No. 06 Investigative Science and Engineering Cc: Sherri Howard, City of Carlsbad Glen Laube, ISE Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #12 (5-27-99) ISE Report #99-0091 Junel, 1999 Page TTT j - 4 / MW w ar - 3,-..Ono • ''s • 7 ' .',' ' . ?-.. .. 4. .- 3 3 + - Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results -Week #12 (5-27-99) ISE Report #99-0091 June 1, 1999 Page 10 Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results -Week #12 (5-27-99) SE Report #99-0091 June 1, 1999 Page 12 Figure 3e: Completed Noise Wall - End View Facing West (Stations 96+00 to 108+00) Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results -Week #12 (5-27-99) ISE Report #99-0091 June 1, 1999 Page 13 Figure 3f: Completed Noise Wall - Interior End View Facing West (Stations 96+00 to 108+00) wk - WAR r 131 , G its to MIT G- --• - •: 4 2 ' I t. - .- .- -- -- I •- 1& -' lot - II 'I Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results -Week #12 (5-27-99) SE Report #99-0091 June 1, 1999 Page 15 . ..... . . . .• . . . •. •• • c 1 1 c ' f • • r.......................... .........•. ., , 4 :i Figure 4a: Additional Mitigation Effort for Concrete Pumping Operations (El Camino Real Bridge Crossing) -\-. ~ rl~ '. - J L! - . . -. - -- __--.p. -. -..--.- Investigative Science and Engineering 3511 Camino Del Rio South, Suite 302 Phone/Fax: 619-640-9379 / 619-640-0763 San Diego, CA 92108-4003 www.ise-advantage.com RECEIVED May 21, 1999 Mr. Doug Gethnger Ogden Environmental and Energy, Inc. 5510 Morehouse Drive San Diego, CA 92121 Re: Cannon Road Mitigation Monitoring Results - Week #11(5-20-99) (ISE Report #99-009k) Dear Mr. Gettinger: MAY 2 It 1999 ENGINEERING DEPARTMENT Pursuant to U.S.F.W.S. permit approval requirements, Investigative Science and Engineering (ISE) has examined potential noise impacts to the riparian habitat along the proposed Cannon Road extension alignment located in Carlsbad, California. A field survey of the site was performed on May 20, 1999. The results of that survey are presented in this letter report. Introduction and Definitions Site Characterization The Cannon Road West Project is located in the City of Carlsbad in San Diego County, California (refer to Figure 1). This project will extend Cannon Road approximately 2 miles east from its terminus at 1-5 to Camino Real. The Cannon Road extension consists of two bridge crossings and traverses through and adjacent to habitat for the federally endangered/threatened least Bell's vireo, southwestern willow flycatcher, and California gnatcatcher. The predominate land use of the project area is undisturbed open space. Wetlands originating from the Agua Hedionda Lagoon and Agua Hedionda Creek are located adjacent to the north and commercial developments are present to the west. Elevations fdr the project area have been altered due to construction activities; however, pre-construction elevations range from approximately 100 feet above mean sea level (MSL) along the terrace over looking Agua Hedionda Lagoon down to approximately 5 feet above MSL along the Agua Hedionda Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #11(5-20-99) lSE Report #99-009k May 21, 1999 Page 01 40, 'ProjectAUgnmen 4'l -4a a i:•• .. Wj.'.. -in APA Figure 1: Project Alignment Area Map (Thomas Guide Pages 1126, 1127, and 1107) Acoustical Definitions Airborne sound is a rapid fluctuation of air pressure above and below , atmospheric levels. The loudest sounds the human ear can hear conformably is approximately one trillion (a one with 12 zeros following it) times the acoustic energy that the ear can barely detect. Because of this vast range, any attempt to represent the acoustic intensity of a particular sound on a linear scale becomes unwieldy. Because of this, a logarithmic ratio known as the decibel (dB) is commonly employed. A sound level of zero "0" dB is scaled such that it is defined as the threshold of human hearing and would be barely audible to a human of normal hearing under extremely quiet listening conditions and would correspond to a sound pressure level equal to the reference level. Most of the sounds we hear in the environment do not consist of a single frequency, but rather a broad band of frequencies differing in sound level. The intensities of each frequency add to generate the sound we hear. The method commonly used to quantify environmental sounds consists of determining all of the frequencies of a sound according to a weighting system that reflects the nonlinear response characteristics of the human ear. This is called "A" weighting, and the decibel level measured is called the A-weighted sound level (or dBA). In practice, the level of a - noise source is conveniently measured using a sound level meter that includes a filter corresponding to the dBA curve. - Although the A-weighted sound level may adequately indicate the level of environmental noise at any instant in time, community noise levels vary continuously. Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #11(5-20-99) ISE Report #99-009k May 21, 1999 Page '3 Environmental noise includes a conglomeration of sounds from distant sources that create a relatively steady background noise in which no particular source is identifiable. For this type of noise, a single descriptor called the Leq (or equivalent sound level) is used. Leq is the energy-mean A-weighted sound level during a measured time interval. It is the 'equivalent' constant sound level that would have to be produced by a given source to equal the fluctuating level measured. To describe time-varying character of environmental noise, the statistical noise descriptors L10, L50, and L90 are commonly used. They are the noise levels equaled or exceeded during 10 percent, 50 percent, and 90 percent of a stated time. Sound levels associated with the LIO typically describe transient or short-term events, while levels associated with the L90 describe the steady state (or most prevalent) noise conditions. In addition, it is often desirableto know the acoustic range of the noise source being measured. This is accomplished through the maximum and minimum measured sound level (Lmax and Lmin) indicators. The Lmin value obtained for a particular monitoring location is often called the acoustic floor for that location. Applicable Significance Criteria Wildlife Habitat Regulations Construction and operational noise generated by this project is regulated by the United States Fish and Wildlife Service (U.S.F.W.S.) and the California Department of Fish and Game for its effect on federally endangered least Bell's vireo (Vireo be//il pusillus) and the southwestern willow flycatcher (Empidonax trail/ii extrimus) and the federally threatened California gnatcatcher (Polio ptila california). Resource agencies have theorized that elevated noise levels can potentially mask songs of the least Bell's vireo which are used to attract mates and defend territories. The San Diego Association of Governments (SANDAG) in a 1990 study entitled "Comprehensive Species Management Plan for the least Bell's vireo" theoretically estimated that {traffic} noise levels above 60 dBA Leq in vireo breeding areas may sufficiently mask the vireo's song and potentially reduce the reproductive success of this species during their breeding season that occurs from March 1 to September 1. Since sustained noise exposure (indicated by the L90 metric) produces greater masking effects than intermittent peak levels, this report will analyze both effects. The SANDAG report conclusions were unclear as to the specific time interval of the measurement, but it is typically taken as one hour. Although research is on going regarding similar noise impacts to the southwestern willow flycatcher and California gnatcatcher, in the absence of species-specific data, these same study results are applied by the Service to this bird species as well. Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #11 (5-20-99) lSE Report #99-009k May 21, 1999 Page 4 Analysis Methodology Existing Conditions Field Survey Three Larson Davis Model 700 ANSI Type 2 integrating sound level meters were used as the data collection devices. The meters were positioned at the locations shown below in Figure 2 and the accompanying matrix. "\ intorosa ountry Ch 30 INL#2fl 1r N/MN rJP r 1 MILE Iiaio 1000 0 1000 2000 3000 4000 FEET / I ,AcaI r*xI r,aansv4,, ü?. Figure 2: Project Area Topography (USGS 7.5 San Luis Rey Quadrangle 1:12000) Monitor Sta. Eng. Sta. No. GPS Lat GPS Lon Description ML #1 102+00 330 08.780 N 1170 18.195W Western end of alignment ML #2 113+00 330 08.826 N 1170 18.011 W Central point of alignment ML #3 n/a 330 08.952 N 1170 17.895 W Eastern end of alignment (ECR bridge crossing) ECR = El Camino Real Rd. EPE = Estimated Position Error = 49' Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #11(5-20-99) ISE Report #99-009k May 21, 1999 Pages The meters were mounted on tripods roughly 5 feet above the ground and were calibrated before and after each field deployment. Each station was programmed to record and log the following noise metrics each hour: Leq-h, Lmax, Lmin, L10, L50, and L90. Findings Field Monitorina Results A field survey was performed to ascertain construction noise levels within the habitat area due to light grading and ancillary activities. To date, the least Bell's vireo sightings have been predominantly located between station markers 103+00 and 108+00. These station markers correlate with ISE monitoring locations I and 2. During the Week #11 monitoring period, construction activities associated with the Cannon Road West Project were concentrated near the ML 3 location (adjacent to El Camino Real). Activities and equipment observed at this location were primarily affiliated with the fabrication of the Cannon Road / El Camino Real Bridge deck and pipe trenching. Equipment observed at this location consisted of a CAT model 950B dozer (1), CAT model 773B hauler (2), CAT model 345BL excavator (1), and a model 9038 turbo forklift (1). Project related activities were also observed at monitoring location #2 and were affiliated with the fabrication of the new noise wall located adjacent to station marker 108+00. The progress of the noise wall, as of the date of this report can be seen in Figure 3 at the end of this report. Testing conditions during the monitoring intervals were clear and cool with an average barometric pressure reading of 30.05 in-Hg, an average westerly wind speed of 3 to 7 miles per hour (MPH), and an approximate mean temperature of 68.7 degrees Fahrenheit. The results of the sound level monitoring are shown below in Table 1. The values for the energy equivalent sound level (Leq), the maximum and minimum measured sound levels (Lmax and Lmin), and the'statistical indicators LIO, L50, and L90, are given for each monitoring location. Areas in excess of the 60-dBA Leq-h impact threshold are underlined. Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #11 (5-20-99) ISE Report #99-009k May 21, 1999 Page 6 Table 1: Measured Construction Levels - Cannon Road West Alignment 1-Hour Noise Level Descriptors in dBA Site Leq -Lmax Lmun LIO -L50.L90 9:00 a.m. ML 1 53.0 79.5 43.0 55.5 47.0 45.0 ML 50;5 71.0 41.5 52.0 46.0 43.5 ML 58.5 71.0 50.5 60.5 57.5 54.5 10:00 a.m. ML 1 49.5 67.5 40.0 51.5 45.0 42.0 MI-2 54.0 74.5 42.5 56.0 46.5 44.0 MI-3 58.5 72.0 50.5 61.0 58.0 54.5 11:00 a.m. MI-1 51.0 70.5 40.0 53.0 45.5 42.0 ML 2 59.5 77.0 42.5 62.5 50.0 45.5 ML 3 57.5 76.0 48.0 60.0 57.0 53.0 12:00 p.m. ML 1 49.5 68.5 40.0 51.0 44.5 41.5 ML 69.0 89.0 42.0 67.5 54.0 46.5 MI-3 57.0 69.0 44.5 59.5 56.0 52.0 1:00 P.M. ML 1 52.0 73.5 41.0 54.5 46.5 42.5 ML 58.5 76.5 43.0 61.0 54.5 47.5 ML 3 57.0 67.0 49.5 59.5 56.5 53.5 2:00 p.m. ML 1 52.0 73.5 41.0 54.0 46.5 42.5 MI-2 56.0 77.0 42.5 57.0 49.0 45.0 MI-3 57.5 68.0 49.5 59.5 57.0 53.5 3:00 p.m. ML 1 50.0 74.5 39.5 51.0 44.5 41.5 MI-2 50.0 70.0 41.0 52.0 46.5 43.0 MI-3 57.5 65.5 47.5 59.5 57.0 53.5 4:00 p.m. ML 1 54.5 76.5 40.0 55.5 46.0 42.0 ML 53.5 70.5 41.5 55.0 47.5 43.5 ML 3 58.0 70.5 47.0 60.0 57.5 52.5 Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #11 (5-20-99) ISE Report #99-009k May 21, 1999 Page 7 Measurements collected at monitoring locations ML 1 through ML 3 reflect typical sound levels associated with the community setting observed and the topography of the surrounding terrain. Monitoring location #2 showed an exceedance of the 60-dBA impact threshold during the. 12:00 p.m. monitoring interval. This exceedance was a direct result of construction related activities pertaining to the erection of a temporary noise wall located approximately at station marker 108+00. The duration of these activities was short enough such that the background noise level (1-90), for all monitoring locations, did not exceed 54.5 dBA. This record of 54.5 dBA was recorded at ML 3, which currently experiences noise levels below pre-construction values due to the presence of the as-built noise wall. The completed noise wall at ML 3 can be seen below in Figure 4. Recommendations Monitoring Location #2 was found to have an energy average sound level (Leq- h) in excess of 60 dBA during the Week #11 monitoring period. The exceedance observed at ML 2 was due to construction activities associated with the fabrication of the new noise wall along a small section of the northern project limit (station marker 108+00). Construction activities associated with this noise wall are not considered long- term and are expected to be complete within one day's time. Should you have any questions regarding the above conclusion, please do not hesitate to contact me at (619) 640-9379. Sincerely, TAVA Rick Tavares, EIT, REA, INCE LU Project Principal No. 06 Investigative Science and Engineering Cc: Sherri Howard, City of Carlsbad Glen Laube, ISE Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #11(5-20-99) lSE Report #99-009k May 21, 1999 Page 8 ,, 4 1 . • - , .- _? •$' 'I . - I.____ •- -. - •- - -Flit lo vo r Investigative Science and Engineering 3511 Camino Del Rio South, Suite 302 Phone/Fax: 619-640-9379 1619-640-0763 San Diego, CA 92108-4003 wwwise-advantage.com May 14, 1999 Mr. Doug Gettinger Ogden Environmental and Energy, Inc. 5510 Morehouse Drive San Diego, CA 92121 Re: Cannon Road Mitigation Monitoring Results - Week #10 (5-13-99) (ISE Report #99-009j) Dear Mr. Gettinger: MAY 17 1999 ENGINEERING DEPARTMENT Pursuant to U.S.F.W.S. permit approval requirements, Investigative Science and Engineering (ISE) has examined potential noise impacts to the riparian habitat along the proposed Cannon Road extension alignment located in Carlsbad, California. A field survey of the site was performed on May 13, 1999. The results of that survey are presented in this letter report. Introduction and Definitions Site Characterization The Cannon Road West Project is located in the City of Carlsbad in San Diego County, California (refer to Figure 1). This project will extend Cannon Road approximately 2 miles east from its terminus at 1-5 to Camino Real. The Cannon Road extension consists of two bridge crossings and traverses through and adjacent to habitat for the federally endangered/threatened least Bell's vireo, southwestern willow flycatcher, and California gnatcatcher. The predominate land use of the project area is undisturbed open space. Wetlands originating from the Agua Hedionda Lagoon and Agua Hedionda Creek are located adjacent to the north and commercial developments are present to the west. Elevations for the project area have been altered due to construction activities; however, pre-construction elevations range from approximately 100 feet above mean sea level (MSL) along the terrace over looking Agua Hedionda Lagoon down to approximately 5 feet above MSL along the Agua Hedionda Mr. Doug G Cannon Ro ISE Report May 14, 19 Page 2 126 \-'' -. f.• I174.• 34 'PAL c; .• ___________ \ .• \ .' #4 OWN Figure 1: Project Alignment Area Map (Thomas Guide Pages 1126, 1127, and 1107) Acoustical Definitions Airborne sound is a rapid fluctuation of air pressure above and below atmospheric levels. The loudest sounds the human ear can hear conformably is approximately one trillion (a one with 12 zeros following it) times the acoustic energy that the ear can barely detect. Because of this vast range, any attempt to represent the acoustic intensity of a particular sound on a linear scale becomes unwieldy. Because of this, a logarithmic ratio known as the decibel (dB) is commonly employed. A sound level of zero 0" dB is scaled such that it is defined as the threshold of human hearing and would be barely audible to a human of normal hearing under extremely quiet listening conditions and would correspond to a sound pressure level equal to the reference level. Most of the sounds we hear in the environment do not consist of a single frequency, but rather a broad band of frequencies differing in sound level. The intensities of each frequency add to generate the sound we hear. The method commonly used to quantify environmental sounds consists of determining all of the frequencies of a sound according to a weighting system that reflects the nonlinear response characteristics of the human ear. This is called "A" weighting, and the decibel, level measured is called the A-weighted sound level (or dBA). In practice, the level of a noise source is conveniently measured using a sound level meter that includes a filter corresponding to the dBA curve. Although the A-weighted sound level may adequately indicate the level of environmental noise at any instant in time, community noise levels vary continuously. Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #10 (5-13-99) ISE Report #99-009j May 14, 1999 Page 3 Environmental noise includes a conglomeration of sounds from distant sources that create a relatively steady background noise in which no particular source is identifiable. For this type of noise, a single descriptor called the Leq (or equivalent sound level) is used. Leq is the energy-mean A-weighted sound level during a measured time interval. It is the 'equivalent' constant sound level that would have to be produced by a given source to equal the fluctuating level measured. To describe time-varying character of environmental noise, the statistical noise descriptors L10, L50, and L90 are commonly used. They are the noise levels equaled or exceeded during 10 percent, 50 percent, and 90 percent of a stated time. Sound levels associated with the LIO typically describe transient or short-term events, while levels associated with the L90 describe the steady state (or most prevalent) noise conditions. In addition, it is often desirable to know the acoustic range of the noise source being measured. This is accomplished through the maximum and minimum measured sound level (Lmax and Lmin) indicators. The Lmin value obtained for a particular monitoring location is often called the acoustic floor for that location. Applicable Significance Criteria Wildlife Habitat Regulations Construction and operational noise generated by this project is regulated by the United States Fish and Wildlife Service (U.S.F.W.S.) and the California Department of Fish and Game for its effect on federally endangered least Bell's vireo (Vireo be//il push/us) and the southwestern willow flycatcher (Empidonax traillii extnmus) and the federally threatened California gnatcatcher (Poliopti/a california). Resource agencies have theorized that elevated noise levels can potentially mask songs of the least Bell's vireo which are used to attract mates and defend territories. The San Diego Association of Governments (SANDAG) in a 1990 study entitled "Comprehensive Species Management Plan for the least Be/I's vireo" theoretically estimated that {traffic} noise levels above 60 dBA Leq in vireo breeding areas may sufficiently mask the vireo's song and potentially reduce the reproductive success of this species during their breeding season that occurs from March 1 to September 1. Since sustained noise exposure (indicated by the L90 metric) produces greater masking effects than intermittent peak levels, this report will analyze both effects. The SANDAG report conclusions were unclear as to the specific time interval of the measurement, but it is typically taken as one hour. Although research is on going regarding similar noise impacts to the southwestern willow flycatcher and California gnatcatcher, in the absence of species-specific data, these same study results are applied by the Service to this bird species as well. Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results —Week #10 (5-13-99) ISE Report #99-009j May 14, 1999 Page 4 Analysis Methodology Existing Conditions Field Survey Three Larson Davis Model 700 ANSI Type 2 integrating sound level meters were used as the data collection devices. The meters were positioned at the locations shown below in Figure 2 and the accompanying matrix. :1b if f ci intorosa C 1 Country CI 30) gu / ../ / . • 6 / .. /.. 0 1/2 1MILE fNt /MN lia,o 1000 0 1000 2000 3000 4000 FEET j • VISS41 ECd noa,jj,,'.wx4M Figure 2: Project Area Topography (USGS 7.5 San Luis Rey Quadrangle 1:12000) Monitor Sta. Eng. Sta. No. GPS Lat GPS Lon Description ML #1 102+00 330 08.780 N 1170 18.195W Western end of alignment ML #2 113+00 330 08.826 N 1170 18.011 W Central point of alignment ML #3 n/a 330 08.952 N 1170 17.895W Eastern end of alignment (ECR bridge crossing) ECR = El Camino Real Rd. EPE = Estimated Position Error = 49' Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #10 (5-13-99) ISE Report #99-009j May 14, 1999 Page The meters were mounted on tripods roughly 5 feet above the ground and were calibrated before and after each field deployment. Each station was programmed to record and log the following noise metrics each hour: Leq-h, Lmax, Lmin, LIO, L50, and L90. Findings Field Monitoring Results A field survey was performed to ascertain construction noise levels within the habitat area due to light grading and ancillary activities. To date, the least Bell's vireo sightings have been predominantly located, between station markers 103+00 and 108+00. These station markers correlate with ISE'monitonng locations I and 2. During the Week #10 monitoring period, construction activities associated with the Cannon Road West Project were concentrated near the ML 3 location '(adjacent to El Camino Real). Activities and equipment observed at this location were primarily affiliated with the fabrication of the Cannon Road / El Camino Real Bridge foundation and deck. Equipment observed at this location consisted of a CAT model 950B dozer (1), CAT model 773B hauler (1), CAT model 345BL excavator (1), and a model 9038 turbo forklift (1). Construction activities associated with the unrelated housing project adjacent to the south were appreciable at Monitoring Location #1. Testing conditions during the monitoring intervals were cool and cloudy with an average barometric pressure reading of 29.90 in-Hg, an average westerly wind speed of 1 to 5 miles per hour (MPH), and an approximate mean temperature of 68.5 degrees Fahrenheit. The results of the sound level monitoring are shown below in Table 1. The values for the energy equivalent sound level (Leq), the maximum and minimum measured sound levels (Lmax and Lmin), and the statistical indicators LIO, L50, and L90, are given for each monitoring location. Areas in excess of the 60-dBA Leq-h impact threshold are underlined. Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results -Week #10 (5-13-99) ISE Report #99-009j May 14, 1999 Page 6 Table 1: Measured Construction Levels - Cannon Road West Alignment jTT::Ti1. -Hour Noise Level Descriptors ifl'dBA"..; .,:. . Site Leq Lmax Lm in LIO L50 L90 7:30 a.m. ML 1 45.5 70.0 35.5 45.5 40.0 37.5 ML2 57.0 '69.5 42.5 , 61.0 55.5 46.5 ML 67.0 90.5 50.5 67.5 56.5 53.5 8:30 a.m. ML 1 46.5 71.0 35.0 46.0 40.5 38.0 ML2 57.5 70.5 42.0 61.5 55.0 46.0 ML3 67.5 90.0 50.0 68.0 56.0 53.0 930 a.m. ML 1 46.5 69.0 36.5 46.5 41.0 38.5 ML2 57.5 79.0 40.5 58.5 50.0 45.5 MIL 66.0 86.0 47.5 . 67.0 55.5 52.0 10:30 a.m. ML 1 52.0 80.0 37.5 48.5 42.5 40.0 ML 2 54.5 78.0 40.0 56.0 48.0 ' 43.0 ML3 71.0 91.0 49.0 73.5 57.0 ' 53.5 11:30 a.m. ML 1 44.0 60.5 38.0 46.5 41.5 39.5 ML 2 58.0 87.0 39.5 53.5 46.5 43.0 ML 3 69.0 92.0 45.0 71.5 57.5 53.5 12:30 p.m. ML 1 46.5 64.0 38.5 50.0 42.5 39.5 ML2 50.5 69.0 40.5 52.5 46.0 43.0 ML 63.0 , 84.5 43.0 63.5 58.5 55.0 1:30 p.m. ML 1 44.5 65.5 37.5 45.0 41.0 39.5 ML 2 48.0 62.0 41.0 50.5 46.0 . 43.0 ML 58.5 71.0 50.5 61.0 57.5 54.0 2:30 p.m. ' ML 1 ' 65.0 85.5 38.5 63.0 42.5 39.5 ML 2 55.0 64.5 , 43.5 59.0 52.0 46.5 ML 57.0 69.5 51.5 59.5 56.0 53.0 Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results -Week #10 (5-13-99) ISE Report #99-009j May 14, 1999 Page 7 Measurements collected at monitoring locations ML I through ML 3 reflect typical sound levels associated with the community setting observed and the topography of the surrounding terrain. Two monitoring locations, ML I and ML 3, showed an exceedance of the 60-dBA impact threshold throughout the duration of the monitoring intervals. During the 2:30 p.m. monitoring interval, ML 2 showed and exceedance due to traffic (supply transporting) associated with 'the adjacent project to the south and is not project related. The exceedance observed at ML 3 from 7:30 a.m. through 12:30 p.m. was due to the construction of a temporary noise wall along the northern project limit (from El .Camino Real to the western limits of the Cannon Road / El Camino Real Bridge). The duration of these activities was short enough such that the background noise level (L90) for all monitoring locations did not exceed 55.0 dBA. This level of 55.0 dBA was recorded at ML 3. EN Recommendations Monitoring Locations I and 3 were found to have an energy average sound level (Leq-h) in excess of 60 dBA during the Week #10 monitoring period. The exceedance observed at ML I was due to transport activities associated with the adjacent project to the south, and is not project related. Due the construction of the noise wall along the northeastern project limit, ML 3 showed an exceedance throughout the duration of the 7:30 a.m. to 12:30 p.m. monitoring intervals. The activities associated with the fabrication of this noise wall are not long term and should be completed within one day's time. Should you have any questions regarding the above conclusion, please do not hesitateto contact me at (619) 640-9379. Sincerely, Rick Tavares, EIT, REA, lNCE Project Principal Investigative Science and Engineering Cc: Sherri Howard, City of Carlsbad Glen Laube, lSE c 5' Investigative Science and Engineering 3511 Camino Del Rio South, Suite 302 Phone/Fax: 619-640-9379 /619-640-0763 San Diego, CA 92108-4003 v'.ww.ise-advantage.com RECE WED May 6, 1999 MAY 10 1999 Mr. Doug Gettinger Ogden Environmental and Energy, Inc. ENGINEERING 5510 Morehouse Drive DEPARTMENT San Diego, CA 92121 Re: Cannon Road Mitigation Monitoring Results - Week #9 (5-5-99) (ISE Report #99-0091) Dear Mr. Gettinger: Pursuant to U.S.F.W.S. permit approval requirements, Investigative Science and Engineering (lSE) has examined potential noise impacts to the riparian habitat along the proposed Cannon Road extension alignment located in Carlsbad, California. A field survey of the site was performed on May 5, 1999. The results of that survey are presented in this letter report. Introduction and Definitions Site Characterization The Cannon Road West Project is located in the City of Carlsbad in San Diego County, California (refer to Figure 1). This project will extend Cannon Road approximately 2 miles east from its terminus at 1-5 to Camino Real. The Cannon Road extension consists of two bridge crossings and traverses through and adjacent to habitat for the federally endangered/threatened least Bell's vireo, southwestern willow flycatcher, and California gnatcatcher. The predominate land use of the project area is undisturbed open space. Wetlands originating from the Agua Hedionda Lagoon and Agua Hedionda Creek are located adjacent to the north and commercial developments are present to the west. Elevations for the project area have been altered due to construction activities; however, pre-construction elevations range from approximately 100 feet above mean sea level (MSL) along the terrace over looking Agua Hedionda Lagoon down to approximately 5 feet above MSL along the Agua Hedionda Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #9 (5-5-99) SE Report #99-009i May 6, 1999 Page 2 Rlvk~ql ~_-11 / AW ..rojectAhgnmen 17, xea\'vw. /\ ; '.'. .. ' & Figure 1: Project Alignment Area Map (Thomas Guide Pages 1126, 1127, and 1107) Acoustical Definitions - Airborne sound is a rapid fluctuation of air pressure above and below atmospheric levels. The loudest sounds the human ear can hear conformably is approximately one trillion (a one with 12 zeros following it) times the acoustic energy that the ear can barely detect. Because of this vast range, any attempt to represent the acoustic intensity of a particular sound on a linear scale becomes unwieldy. Because of this, a logarithmic ratio known as the decibel (dB) is commonly employed. A sound level of zero "0" dB is scaled such that it is defined as the threshold of human hearing and • would be barely audible to a human of normal hearing under extremely quiet listening conditions and would correspond to a sound pressure level equal to the reference level. • .,. Most of the sounds we hear in the environment do not consist of a single frequency, but rather a broad band of frequencies differing in sound level. The intensities of each frequency add to generate the sound we hear. The method . ... - commonly used to quantify environmental sounds consists of determining all of the • frequencies of a sound according to a weighting system that reflects the nonlinear • response characteristics of the human ear. This is called "A" weighting, and the decibel * level measured is called the A-weighted sound level (or dBA). In practice, the level of a • - * • noise source is conveniently measured using a sound level meter that includes a filter: • - . • corresponding to the dBA curve. . -, •, Although the A-weighted sound level may adequately indicate the level of. environmental noise at any instant in time, community noise levels *vary continuously. ' Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results -Week #9 (5-5-99) ISE Report #99-009i May 6, 1999 Page 3 Environmental noise includes a conglomeration of sounds from distant sources that create a relatively steady background noise in which no particular source is identifiable. For this type of noise, a single descriptor called the Leq (or equivalent sound level) is used. Leq is the energy-mean A-weighted sound level during a measured time interval. It is the 'equivalent' constant sound level that would have to be produced by a given source to equal the fluctuating level measured. To describe time-varying character of environmental noise, the statistical noise descriptors L1 1 L50, and L90 are commonly used. They are the noise levels equaled or exceeded during 10 percent, 50 percent, and 90 percent of a stated time. Sound levels associated with the L10 typically describe transient or short-term events, while levels associated with the L90 describe the steady state (or most prevalent) noise conditions. In addition, it is often desirable to know the acoustic range of the noise source being measured. This is accomplished through the maximum and minimum measured sound level (Lmax and Lmin) indicators. The Lmin value obtained for a particular monitoring location is often called the acoustic floor for that location. Applicable Significance Criteria Wildlife Habitat Regulations Construction and operational noise generated by this project is regulated by the United States Fish and Wildlife Service (U.S.F.W.S.) and the California Department of Fish and Game for its effect on federally endangered least Bell's vireo (Vireo be//ii pusillus) and the southwestern willow flycatcher (Empidonax trail/ii extrimus) and the federally threatened California gnatcatcher (Polio ptila california). Resource agencies have theorized that elevated noise levels can potentially mask songs of the least Bell's vireo which are used to attract mates and defend territories. The San Diego Association of Governments (SANDAG) in a 1990 study entitled "Comprehensive Species Management Plan for the least Bell's vireo" theoretically estimated that {traffic} noise levels above 60 dBA Leq in vireo breeding areas may sufficiently mask the vireo's song and potentially reduce the reproductive success of this species during their breeding season that occurs from March 1 to September 1. Since sustained noise exposure (indicated by the L90 metric) produces greater masking effects than intermittent peak levels, this report will analyze both effects. The SANDAG report conclusions were unclear as to the specific time interval of the measurement, but it is typically taken as one hour. Although research is on going regarding similar noise impacts to the southwestern willow flycatcher and California gnatcatcher, in the absence of species-specific data, these same study results are applied by the Service to this bird species as well. /: •-2( cy- 'L-i Li tVi;"• r1 ,.i _ /Agua Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results — Week #9 (5-5-99) ISE Report #99-009i May 6, 1999 Page 4 ES Analysis Methodology Existing Conditions Field Survey Three Larson Davis Model 700 ANSI Type 2 integrating sound level meters were used as the data collection devices. The meters were positioned at the locations shown below in Figure 2 and the accompanying matrix. AD 9fr .:•• intorosa Country CI riE 10:21 / 0 1/2 1MILE [N T ,MN r...,&....*r. /13Y0 1000 0 1000 2000 3000 4000 FEET / S I R.NY4I LWSI I*c..w-. Figure 2: Project Area Topography (USGS 7.5 San Luis Rey Quadrangle 1:12000) Monitor Sta. Eng. Sta. No. GPS Lat GPS Lon Description ML #1 102+00 330 08.780 N 1170 18.195W Western end of alignment ML #2 113+00 330 08.826 N 1170 18.011 W Central point of alignment ML #3 n/a 330 08.952 N 1170 17.895 W Eastern end of alignment (ECR bridge crossing) ECR = El Camino Real Rd. EPE = Estimated Position Error = 49' Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #9 (5-5-99) ISE Report #99-0091 May 6, 1999 Page 5 The meters were mounted on tripods roughly 5 feet above the ground and were calibrated before and after each field deployment. Each station was programmed to record and log the following noise metrics each hour: Leq-h, Lmax, Lmin, L10, L50, and L90. Findings Field Monitoring Results A field survey was performed to ascertain construction noise levels within the habitat area due to light grading and ancillary activities. To date, the least Bell's vireo sightings have been predominantly located between station markers 103+00 and 108+00. These station markers correlate with ISE monitoring locations I and 2. During the Week #9 monitoring period, construction activities associated with the Cannon Road West Project were concentrated at the ML 3 location (adjacent to El Camino Real). Activities and equipment observed at this location were primarily affiliated with the fabrication of the Cannon Road I El Camino Real Bridge foundation and deck. Equipment utilized at this location consisted of a CAT model 834B dozer (1), CAT model 773B hauler (2), CAT model 988B dozer (1), CAT model D9R earthmover (1), and a model 9038 turbo forklift (1). Construction activities associated with the unrelated housing project adjacent to the south were appreciable at Monitoring Location #2. Testing conditions during the monitoring intervals were overcast with an average barometric pressure reading of 29.95 in-Hg, an average westerly wind speed of 1 to 5 miles per hour (MPH), and an approximate mean temperature of 71.5 degrees Fahrenheit. The results of the sound level monitoring are shown below in Table 1. The values for the energy equivalent sound level (Leq), the maximum and minimum measured sound levels (Lmax and Lmin), and the statistical indicators L10, L50, and L90, are given for each monitoring location. Areas in excess of the 60-dBA Leq-h impact threshold are underlined. Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #9 (5-5-99) ISE Report #99-009i May 6, 1999 Page Table 1: Measured Construction Levels - Cannon Road West Alignment I 1-Hour Noise Level Descriptors in dBA Site Leq Lmax Lmin LIO 1-50 L90 7:30 a.m. ML 1 58.0 85.0 44.0 59.5 52.0 47.0 ML 2 56.5 73.0 45.0 58.5 53.0 49.5 MI-3 67.5 82.5 57.0 70.5 67.0 63.0 8:30 am. ML 1 59.0 85.5 44.5 60.0 52.5 47.5 ML 2 56.0 73.5 45.5 58.0 52.0 48.5 MI-3 68.0 83.0 56.5 71.0 66.0 62.5 9:30 am. ML 1 58.5 77.0 41.0 58.0 45.5 42.5 ML 2 57.0 75.0 44.0 59.0 50.5 46.5 MI-3 69.0 86.5 55.5 71.5 65.0 60.5 10:30 am. ML 1 57.0 77.0 41.5 58.0 45.5 43.0 ML 58.5 71.0 48.0 62.5 56.0 50.5 MI-3 71.5 93.5 61.0 74.0 69.5 66.0 11:30 a.m. ML 1 52.5 71.5 41.5 53.5 46.5 43.5 MI-2 58.5 76.5 48.0 59.0 54.0 50.5 MI-3 81.0 95.0 51.5 85.0 77.0 66.0 12:30 p.m. ML 1 52.0 70.5 41.5 52.5 45.5 43.0 MI-2 61.5 80.0 47.5 62.5 58.5 55.0 69.0 82.0 49.0 74.0 59.0 53.0 1:30 p.m. ML 1 50.5 68.5 41.5 52.0 45.5 43.0 ML 55.5 73.5 47.0 59.0 51.5 48.5 ML 68.0 85.5 57.0 71.0 65.0 61.0 2:30 p.m. ML 1 55.5 71.5 42.0 54.5 46.5 43.5 ML 2 52.0 79.0 47.0 54.0 49.5 48.0 69.5 77.0 62.0 72.0 69.0 65.5 Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #9 (5-5-99) ISE Report #99-009i May 6, 1999 Page 7 Measurements collected at monitoring locations ML 1 through ML 3 reflect typical sound levels associated with the community setting observed and the topography of the surrounding terrain. Two monitoring locations, ML 2 and ML 3, showed an exceedance of the 60-dBA impact threshold throughout the duration of the monitoring intervals. The exceedance recorded at ML 2 was due to traffic and grading activities associated with the adjacent project to the south and are not project related. With the exception of ML 3, the duration of these activities was short enough such that the background noise level (L90) for monitoring locations 1 and 2 was 55.0 dBA or less. This record of 55.0 dBA was recorded at ML 2. Background noise levels obtained at monitoring location #3 exceeded the 60.0 dBA threshold for all but one of the monitoring intervals. Excluding the 12:30pm interval (approximate break time), L90 noise levels for ML 3 ranged from 60.5 to 66.0 dBA. Recommendations Monitoring Location #2 was found to have an energy average sound level (Leq- h) in excess of 60 dBA during the 12:00pm interval; however, this exceedance was due to the close proximity of construction activities associated with the adjacent project to the south, and are not project related. Project related activities associated with the fabrication of the Cannon Road I El Camino Real Bridge foundation and deck produced Leq-h noise levels as high as 81.0 dBA and L90 noise levels up to 66.0 dBA. The noise levels recorded at ML 3 indicated that noise produced at this location exceeds the 60.0 dBA threshold established by USFWS and therefore, will require appropriate mitigation. The mitigation recommendations outlined in the Week #7 report (ISE Report #99-009g, 4-21-99) would still be applicable. Should you have any questions regarding the above conclusion, please do not hesitate to contact me at (619) 640-9379. Sincerely, eick avares, ElT, REA, INCE Project Principal Investigative Science and Engineering Cc: Sherri Howard, City of Carlsbad Glen Laube, ISE OtA~AENTk 4,S, No. 067,75 4'x8'x5/8" Construction Grade Plywood Single Panel - Nailed Direct Repeat Sections As Necessary To Finish Length GROUND LEVEL Concrete Base ri'.'.jr , 1LiL 8 GROUND J1VEL 4' 8'-O" 8'-O" 4"x4"x12' Fir 4"x4"x12' Fir 4"x4"x12' Fir 5/8" TOP PROFILE ~00* - --------- - --------- TrTLE Cannon Road Noise Wall Detail REVI SIZE I A RI 1 Il:Y - - 33°09.338', 117°18.598 '1 33009338', 117°17.191- in If lr ee fib 6 se LaTlbl~=c 33008.563', 117018.598' .33008.563', 117017.1191' J_f'c Jj ,'.., o • - : 1/2 1MILE - TNi';IVIN t I - - - IIi-,i.'o 1000 0 1000 2000 3000 4000 FEET - 1_J, I I I I I • I I I - • - - • Investigative Science and Engineering 3511 Camino Del Rio South, Suite 302 Phone/Fax: 619-640-9379 / 619-640-0763 San Diego, CA 92108-4003 www.ise-advantage.com April 28, 1999 RECEIVED Mr. Doug Gettinger APR 2 91999 Ogden Environmental and Energy, Inc. ENGINEERING 5510 Morehouse Drive DEPARTMENT San Diego, CA 92121 Re: Cannon Road Mitigation Monitoring Results - Week #8 (4-28-99) (ISE Report #99-009h) Dear Mr. Gettinger: Pursuant to U.S.F.W.S. permit approval requirements, Investigative Science and Engineering (ISE) has examined potential noise impacts to the riparian habitat along the proposed Cannon Road extension alignment located in Carlsbad, California. A field survey of the site was performed on April 28, 1999. The results of that survey are presented in this letter report. Ej Introduction and Definitions Site Characterization The Cannon Road West Project is located in the City of Carlsbad in San Diego County, California (refer to Figure 1). This project will extend Cannon Road approximately 2 miles east from its terminus at 1-5 to Camino Real. The Cannon Road extension consists of two bridge crossings and traverses through and adjacent to habitat for the federally endangered/threatened least Bell's vireo, southwestern willow flycatcher, and California gnatcatcher. The predominate land use of the project area is undisturbed open space. Wetlands originating from the Agua Hedionda Lagoon and Agua Hedionda Creek are located adjacent to the north and commercial developments are present to the west. Elevations for the project area have been altered due to construction activities; however, pre-construction elevations range from approximately 100 feet above mean sea level (MSL) along the terrace over looking Agua Hedionda Lagoon down to approximately 5 feet above MSL along the Agua Hedionda 4' 4: 1 4.944 ( '1•'' '4 2 / < r '4 4 1 1 6 .2'4 • I I' -. :' ;' Ri ' . ' . Figure 1: Project Alignment Area Map (Thomas Guide Pages 1126, 1127, and 1107) • r • . •• I . . . •... . .4 . • '. .• - - . . .4•• ,. ' . - 4 - . . . . -. . . . . . '4.. . .. ... I Ac . oustical Definitions . ' Airborne sound is a rapid fluctuation of jair pressure above and below atmospheric levels. The loudest sounds the human ear can, hear conformably is . . ......' approximately one trillion (a one with 12 zeros following it) times the acoustic energy that the ear can barely detect. Because of this vast range, any-attempt to represent the .' - • acoustic intensity of a particular sound on a linear scale becomes unwieldy. Because of: ' '-' ': .. . this, a logarithmic ratio known as the decibel (dB) is commonly employed. A sound level , •,, of zero "0" dB is scaled such that it is defined as the threshold of human hearing and '• :.. ' ... . would be barely audible to a human of normal hearing under extremely quiet listening It conditions and would correspond to a sound pressure level equal to the reference level. • Most of the sounds we hear in the environment do not consist of a'single ,.,•. frequency, but rather a broad band of frequencies differing in sound level: The -'!' i.'- intensities of each frequency add to generate the sound we hear. .4The method '... , ''..'' .• 1•4 '. commonly used to quantify environmental sounds consists of determining all of the •• frequencies of a sound according to a weighting system that reflects the nonlinear. . .4 .. response characteristics of the human ear. This is called "A" weighting, and the decibel •• ... level measured is called the A-weighted sound level (or dBA). In practice,-the level of a ,, 1' • noise source is conveniently measured using a sound level meter that includes a filter . •. . . corresponding to the dBA curve Although the A-weighed sound level may adequately indicate the level of environmental noise at any instant in time, community noise levels vary continuously. L 4/. . S . • . 4 • . . I, • . . , . •- $ IS.. '4'. .1 .. .,' 4 . 2.• Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #8 (4-28-99) ISE Report #99-009h April 28, 1999 Page 3 Environmental noise includes a conglomeration of sounds from distant sources that create a relatively steady background noise in which no particular source is identifiable. For this type of noise, a single descriptor called the Leq (or equivalent sound level) is used. Leq is the energy-mean A-weighted sound level during a measured time interval. It is the 'equivalent' constant sound level that would have to be produced by a given source to equal the fluctuating level measured. To describe time-varying character of environmental noise, the statistical noise descriptors L10, L50, and L90 are commonly used. They are the noise levels equaled or exceeded during 10 percent, 50 percent, and 90 percent of a stated time. Sound levels associated with the LIO typically describe transient or short-term events, while levels associated with the L90 describe the steady state (or most prevalent) noise conditions. In addition, it is often desirable to know the acoustic range of the noise source being measured. This is accomplished through the maximum and minimum measured sound level (Lmax and Lmin) indicators. The Lmin value obtained for a particular monitoring location is often called the acoustic floor for that location. Applicable Significance Criteria Wildlife Habitat Regulations Construction and operational noise generated by this project is regulated by the United States Fish and Wildlife Service (U.S.F.W.S.) and the California Department of Fish and Game for its effect on federally endangered least Bell's vireo (Vireo be//ii push/us) and the southwestern willow flycatcher (Empidonax trail/ii extrimus) and the federally threatened California gnatcatcher (Polio ptila california). Resource agencies have theorized that elevated noise levels can potentially mask songs of the least Bell's vireo which are used to attract mates and defend territories. The San Diego Association of Governments (SANDAG) in a 1990 study entitled "Comprehensive Species Management Plan for the least Bell's vireo" theoretically estimated that {traffic} noise levels above 60 dBA Leq in vireo breeding areas may sufficiently mask the vireo's song and potentially reduce the reproductive success of this species during their breeding season that occurs from March 1 to September 1. Since sustained noise exposure (indicated by the L90 metric) produces greater masking effects than intermittent peak levels, this report will analyze both effects. The SANDAG report conclusions were unclear as to the specific time interval of the measurement, but it is typically taken as one hour. Although research is on going regarding similar noise impacts to the southwestern willow flycatcher and California gnatcatcher, in the absence of species-specific data, these same study results are applied by the Service to this bird species as well. I- C $intorosa 71.Country CI AgUa . 11 #3 Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #8 (4-28-99) SE Report #99-009h April 28, 1999 Page 4 EN Analysis Methodology Existing Conditions Field Survey Three Larson Davis Model 700 ANSI Type 2 integrating sound level meters were used as the data collection devices. The meters were positioned at the locations shown below in Figure 2 and the accompanying matrix. H 9 0 1/2 I MILE N j MN I Iit,o 1000 0 1000 2000 3000 4000 FEET / I t.i nr.i t*w,.t*4 Figure 2: Project Area Topography (USGS 7.5 San Luis Rey Quadrangle 1:12000) Monitor Sta. Eng. Sta. No. GPS Lat GPS Lon Description ML #1 102+00 330 08.780 N 1170 18.195W Western end of alignment ML #2 113+00 330 08.826 N 1170 18.011 W Central point of alignment ML #3 n/a 330 08.952 N 1170 17.895 W Eastern end of alignment (ECR bridge crossing) ECR = El Camino Real Rd. EPE = Estimated Position Error = 49' Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #8 (4-28-99) ISE Report #99-009h Apnl28 1999 Page 5 The meters were mounted on tripods roughly 5 feet above the ground and were calibrated before and after each field deployment. Each station was programmed to record and log the following noise metrics each hour: Leq-h, Lmax, Lmin, L10, L50, and L90. Findings Field MonitonnQ Results A field survey was performed to ascertain construction noise levels within the habitat area due to light grading and ancillary activities. During the week #8 monitoring period, construction activities associated with the Cannon Road West Project were primarily concentrated near the ML 3 location (adjacent to El Camino Real). Activities and equipment observed at this location were primarily affiliated with the fabrication of the Cannon Road I El Camino Real bridge supports. Equipment utilized at this location consisted of a CAT model 950B dozer (1), CAT model 773B hauler (1), CAT 345BL excavator (1), a single truck mounted hoist crane, and a model 9038 turbo forklift (1). Construction activities associated with the unrelated housing project adjacent to the south were appreciable at Monitoring Location #2. Testing conditions during the monitoring intervals were overcast with an average barometric pressure reading of 30.05 in-Hg, an average westerly wind speed of 1 to 5 miles per hour (MPH), and an approximate mean temperature of 70.5 degrees Fahrenheit. The results of the sound level monitoring are shown below in Table 1. The values for the energy equivalent sound level (Leq), the maximum and minimum measured sound levels (Lmax and Lmin), and the statistical indicators L10, L50, and L90, are given for each monitoring location. Areas in excess of the 60-dBA Leq-h impact threshold are underlined. Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #8 (4-28-99) ISE Report #99-009h April 28, 1999 Page Table 1: Measured Construction Levels - Cannon Road West Alignment I 1 -Hour Noise Level Descriptors in dBA Site Leq Lmax Lmin LIO L50 L90 7:30 a.m. ML 1 48.5 62.0 41.5 51.0 46.5 44.0 MI-2 64.0 75.0 46.0 69.5 63.0 51.5 MI-3 58.5 71.5 52.0 61.0 58.0 55.0 8:30 a.m. ML 1 49.5 63.5 42.0 52.0 47.0 44.5 ML 66.0 77.0 47.5 70.5 64.0 52.5 MI-3 58.0 71.0 51.5 60.5 57.5 54.5 9:30 a.m. ML 1 55.0 72.5 420 58.0 50.0 44.5 MI-2 66.0 74.0 46.5 69.0 65.0 57.0 MI-3 58.5 70.5 51.0 60.5 57.5 54.5 10:30 a.m. ML 1 54.0 67.0 42.0 58.0 49.0 44.0 ML 2 61.0 73.5 49.5 66.0 57.0 53.0 ML 58.0 68.0 51.0 60.5 57.5 54.0 11:30 a.m. ML 1 56.0 74.0 42.0 60.5 50.5 44.5 MI-2 63.0 80.5 43.0 65.5 58.0 49.0 MI-3 57.5 71.0 46.5 60.0 57.0 53.0 12:30 p.m. ML 1 56.0 72.0 42.5 59.5 50.0 44.5 MI-2 63.5 84.0 52.5 66.5 62.0 57.5 MI-3 58.5 71.0 51.0 61.0 58.5 55.0 1:30 p.m. ML 1 54.0 73.0 43.0 58.0 49.0 45.0 ML 61.0 74.5 46.5 64.5 58.5 52.0 MI-3 58.5 66.0 51.0 60.5 58.0 55.5 2:30 p.m. ML 1 53.0 72.5 42.5 57.0 50.0 45.5 ML 2 59.5 75.0 46.0 65.0 59.0 53.5 MI-3 57.5 65.5 51.5 60.0 58.5 55.0 Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #8 (4-28-99) ISE Report #99-009h April 28, 1999 Page 7 Measurements collected at monitoring locations ML I through ML 3 reflect typical sound levels associated with the community setting observed and the topography of the surrounding terrain. Only one Monitoring Location, ML 2, showed an exceedance of the 60-dBA impact threshold throughout the duration of the monitoring intervals. The exceedance recorded at ML 2 was due to traffic and excavation activities associated with the adjacent project to the south and are not project related. The duration of these activities was short enough such that the background noise level (1-90) for all monitoring locations was 57.5 dBA or less. This record of 57.5 dBA was recorded at ML 2. Recommendations Monitoring Location #2 was found to have an energy average sound level (Leq- h) in excess of 60 dBA; however, this exceedance was due to the close proximity of construction activities associated with the adjacent project to the south, and are not project related. The mitigation measures proposed within monitoring report #1 are still applicable. Should you have any questions regarding the above conclusion, please do not hesitate to contact me at (619) 640-9379. Sincerely, Rick Tavares, EIT, REA, INCE Project Principal Investigative Science and Engineering Cc: Sherri Howard, City of Carlsbad Glen Laube, ISE Investigative Science and Engineering 3511 Camino Del Rio South, Suite 302 Phone/Fax: 619-640-9379/619-640-0763 San Diego, CA 92108-4003 www.ise-advantage.com RECEIVED April 27, 1999 APR 281999 Mr. Doug Gettinger Ogden Environmental and Energy, Inc. ENGINEERING 5510 Morehouse Drive DEPARTMENT San Diego, CA 92121 - Re: Cannon Road Mitigation Monitoring Results - Week #7 (4-21-99) (lSE Report #99-009g) Dear Mr. Gettinger: Pursuant to U.S.F.W.S. permit approval requirements, Investigative Science and Engineering (lSE) has examined potential noise impacts to the riparian habitat along the proposed Cannon Road extension alignment located in Carlsbad, California. A field survey of the site was performed on April 21, 1999. The results of that survey are presented in this letter report. Introduction and Definitions Site Characterization The Cannon Road West Project is located in the City of Carlsbad in San Diego County, California (refer to Figure 1). This project will extend Cannon Road approximately 2 miles east from its terminus at 1-5 to Camino Real. The Cannon Road extension consists of two bridge crossings and traverses through and adjacent to habitat for the federally endangered/threatened least Bell's vireo, southwestern willow flycatcher, and California gnatcatcher. The predominate land use of the project area is undisturbed open space. Wetlands originating from the Agua Hedionda Lagoon and Agua Hedionda Creek are located adjacent to the north and commercial developments are present to the west. Elevations for the project area have been altered due to construction activities; however, pre-construction elevations range from approximately 100 feet above mean sea level (MSL) along the terrace over looking Agua Hedionda Lagoon down to approximately 5 feet above MSL along the Agua Hedionda 1A ON 'ProjectAIignme ' t'&.. ' .' "i eaj"NallIS 4 ,, Q V( 944 , , ,. i, 4. '. , All ' .4 .4 &.FIX,4I / ' ' - . S ,. _5 •' . ,'4'_. 4'I 14i y •.:,' -'Figure 1: Project Alignment Area Map (Thomas Guide Pages 1126, 1127, and 1107) : - . Acoustical Definitions , . .... 4.' .. 5. .. . . . . .. .. ..'.. . . .' Airborne sound is a rapid fluctuation of air pressure above and below '. atmospheric levels. The loudest sounds the human ear can hear conformably , is''. '• .: approximately one trillion (a one with 12 zeros following it) times the acoustic energy', ,' • -. " - .. • that the ear, can barely detect. Because of this vast range, any attempt to represent the acoustic intensity of a particular sound on a linear scale becomes unwieldy. Because of / ' •' this, a logarithmic ratio known as the decibel (dB) is commonly employed. A sound level . of zero 0 dB is scaled such that it is defined as the threshold of human heanng and would be barely audible to a human of normal hearing under extremely quiet listening conditions and would correspond to a sound pressure level equal to the reference level Most of the sounds we hear in the environment do notconsist of a single','' .'. frequency, but rather a broad band of frequencies' differing in sound level. The . intensities of each frequency add to generate the sound we hear. The method commonly used to quantify environmental sounds consists of determining all of the - frequencies of a sound according to a weighting system that reflects • the nonlinear. response characteristics of the human ear. This is called "A" weighting, and the decibel. . level measured is called the A-weighted sound level (or dBA). In practice, the level of a. . noise source is conveniently measured using a sound level meter that includes a filter'IT ,'corresponding to the dBA curve. Although the A-weighted sound level may adequately, indicate the level. of,• :, :. environmental noise at any instant in time, community noise levels vary continuously. • . 7'. . •, • . ,: , 4 1 .4, 4 Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #7 (4-21-99) ISE Report #99-009g April 27, 1999 Page 3 Environmental noise includes a conglomeration of sounds from distant sources that create a relatively steady background noise in which no particular source is identifiable. For this type of noise, a single descriptor called the Leq (or equivalent sound level) is used. Leq is the energy-mean A-weighted sound level during a measured time interval. It is the 'equivalent' constant sound level that would have to be produced by a given source to equal the fluctuating level measured. To describe time-varying character of environmental noise, the statistical noise descriptors LIO, L50, and L90 are commonly used. They are the noise levels equaled or exceeded during 10 percent, 50 percent, and 90 percent of a stated time. Sound levels associated with the L10 typically describe transient or short-term events, while levels associated with the L90 describe the steady state (or most prevalent) noise conditions. In addition, it is often desirable to know the acoustic range of the noise source being measured. This is accomplished through the maximum and minimum measured sound level (Lmax and Lmin) indicators. The Lmin value obtained for a particular monitoring location is often called the acoustic floor for that location. Applicable Significance Criteria Wildlife Habitat Regulations Construction and operational noise generated by this project is regulated by the United States Fish and Wildlife Service (U.S.F.W.S.) and the California Department of Fish and Game for its effect on federally endangered least Bell's vireo (Vireo be/Ill pusi//us) and the southwestern willow flycatcher (Empidonax trail/ii extrimus) and the federally threatened California gnatcatcher (Polioptlla california). Resource agencies have theorized that elevated noise levels can potentially mask songs of the least Bell's vireo which are used to attract mates and defend territories. The San Diego Association of Governments (SANDAG) in a 1990 study entitled "Comprehensive Species Management Plan for the least Be/I's vireo" theoretically estimated that {traffic} noise levels above 60 dBA Leq in vireo breeding areas may sufficiently mask the vireo's song and potentially reduce the reproductive success of this species during their breeding season that occurs from March 1 to September 1. Since sustained noise exposure (indicated by the L90 metric) produces greater masking effects than intermittent peak levels, this report will analyze both effects. The SANDAG report conclusions were unclear as to the specific time interval of the measurement, but it is typically taken as one hour. Although research is on going regarding similar noise impacts to the southwestern willow flycatcher and California gnatcatcher, in the absence of species-specific data, these same study results are applied by the Service to this bird species as well. Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results — Week #7 (4-21-99) ISE Report #99-009g April 27, 1999 Page 4 ER Analysis Methodology Existing Conditions Field Survey Three Larson Davis Model 700 ANSI Type 2 integrating sound level meters were used as the data collection devices. The meters were positioned at the locations shown below in Figure 2 and the accompanying matrix. f 2#3 ; Country ci / 0 I ±ffTiCrN IvL#1 - I i,•. in 1/ 0 1/2 1MILE /13L10 1000 0 1000 aL1n'as'w 2000 3000 4000 FEET f I IWI 7iUW L!1 n aT I Figure 2: Project Area Topography (USGS 7.5 San Luis Rey Quadrangle 1:12000) Monitor Sta. Eng. Sta. No. GPS Lat GPS Lon Description ML #1 102+00 330 08.780 N 1170 18.195 W Western end of alignment ML #2 113+00 330 08.826 N 1170 18.011 W Central point of alignment ML #3 n/a 330 08.952 N 1170 17.895 W Eastern end of alignment (ECR bridge crossing) ECR = El Camino Real Rd. EPE = Estimated Position Error = 49' Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #7 (4-21-99) ISE Report #99-009g April 27, 1999 Page 5 The meters were mounted on tripods roughly 5 feet above the ground and were calibrated before and after each field deployment. Each station was programmed to record and log the following noise metrics each hour: Leq-h, Lmax, Lmin, L10, L50, and L90. Findings Field Monitoring Results A field survey was performed to ascertain construction noise levels within the habitat area due to light grading and ancillary activities. During the week #7 monitoring period, construction activities associated with the Cannon Road West Project were primarily concentrated near the ML 3 location (adjacent to El Camino Real). Activities and equipment observed at this location were primarily affiliated with the fabrication of the Cannon Road / El Camino Real bridge supports. Equipment utilized at this location consisted primarily of a single dozer and digger. Construction activities associated with unrelated properties to the north and south were appreciable at Monitoring Location #2. Testing conditions during the monitoring intervals were clear and sunny with an average barometric pressure reading. of 29.85 in-Hg, an average westerly wind speed of 1 to 5 miles per hour (MPH), and an approximate mean temperature of 78.5 degrees Fahrenheit. The results of the sound level monitoring are shown below in Table 1. The values for the energy equivalent sound level (Leq), the maximum and minimum measured sound levels (Lmax and Lmin), and the statistical indicators LIO, L50, and L90, are given for each monitoring location. Areas in excess of the 60-dBA Leq-h impact threshold are underlined. Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #7 (4-21-99) ISE Report #99-009g April 27, 1999 Page 6 Table 1: Measured Construction Levels - Cannon Road West Alignment 1-Hour Noise Level Descriptors in dBA Site Leq Lmax Lmin LIO L50 L90 7:30 a.m. ML 1 51.5 71.0 43.0 54.0 48.5 45.5 ML 67.0 81.0 53.5 69.0 65.5 59.0 MI-3 66.5 77.5 55.5 71.0 63.5 60.5 8:30 a.m. ML 1 53.0 66.0 42.5 56.5 50.5 46.0 L1L2 64.5 80.0 54.0 66.5 63.0 58.5 MI-3 65.5 77.5 55.0 68.5 63.5 60.5 9:30 a.m. ML 1 56.5 68.5 44.5 60.5 53.5 49.0 MI-2 66.5 83.5 52.5 68.0 61.5 57.0 ML 3 64.0 77.5 55.5 66.5 62.0 59.5 10:30 a.m. ML 1 57.5 74.0 42.5 61.5 53.5 46.5 WLL2 64.5 92.5 51.5 65.5 60.5 57.0 MI-3 63.0 77.0 53.0 65.0 60.5 56,5 11:30 a.m. ML 1 57.0 72.5 42.0 61.0 53.5 46.5 ML 2 63.5 80.0 48.5 67.0 57.5 52.0 MI-3 59.0 74.5 49.0 61.5 57.0 53.5 12:30 p.m. ML 1 59.5 76.5 42.5 62.5 55.5 48.5 MI-2 64.0 80.5 50.0 66.0 60.5 55.5 ML 62.5 74.0 51.0 65.0 61.0 57.0 1:30 p.m. ML 1 55.5 71.0 42.5 59.5 50.5 45.0 ML 62.0 79.0 46.0 64.5 59.0 54.0 ML. 61.0 75.5 51.0 64.0 59.5 55.5 2:30 p.m. ML 1 52.0 65.0 41.0 56.0 47.0 44.0 MI-2 60.0 80.5 47.5 60.0 54.5 51.0 ML 3 62.5 71.5 54.0 65.0 61.0 58.0 Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results -Week #7 (4-21-99) ISE Report #99-009g April 27, 1999 Page 7 Measurements collected at monitoring locations ML I through ML 3 reflect typical sound levels associated with the community setting observed and the topography of the surrounding terrain. Two locations, ML 2 and ML 3, showed an exceedance of the 60-dBA impact threshold throughout the duration of the monitoring intervals. At ML 2, this exceedance was due to the close proximity of grading activities associated with the adjacent property to the south and are not project related. For ML 3, this exceedance was due to the close proximity of construction activities associated with the prospective Cannon Road I El Camino Real bridge. The duration of these activities was short enough such that the background noise level (L90) recorded at Monitoring Locations #2 and #3 was 60.5 dBA. Recommendations Monitoring Locations #2 and #3 were found to have an energy average sound level (Leq-h) in excess of 60 dBA. Of these two, only ML 3 was directly project related. This exceedance was due to the close proximity of construction activities associated with the prospective Cannon Road I El Camino Real bridge. The mitigation measures proposed within monitoring report #1 are still applicable, thus, I. It is recommended that a temporary 8-foot-heigh-plywood noise barrier be constructed along the habitat periphery near the bridge construction area to shield the habitat from construction-related noise. Details of the temporary barrier will be forwarded to Ogden and the City. 2. Idling of equipment near habitat (especially adjacent to ML #2 area) should be kept to a minimum. In addition, Ogden's biological staff has informed ISE that least Bell's vireo were present near Station 99+00 and 108+00. Mitigation Item #1 identified above should also be applied to these areas as well. Should you have any questions regarding the above conclusion, please do not hesitate to contact me at (619) 640-9379. Sincerely, Rick Tavares, EIT, REA, INCE Project Principal Investigative Science and Engineering Cc: Sherri Howard, City of Carlsbad Glen Laube, ISE Investigative Science and Engineering 3511 Camino Del Rio South, Suite 302 Phone/Fax: 619-640-9379 / 619-640-0763 San Diego, CA 92108-4003 wwwise-advantage.com 'DECEIVED April 16, 1999 APR 19 1999 Mr. Doug Gettinger Ogden Environmental and Energy, Inc. 5510 Morehouse Drive San Diego, CA 92121 Re: Cannon Road Mitigation Monitoring Results - Week #6 (4-16-99) (ISE Report #99-0090 Dear Mr. Gettinger: ENGINEERING DEPARTMENT Pursuant to U.S.F.W.S. permit approval requirements, Investigative Science and Engineering (ISE) has examined potential noise impacts to the riparian habitat along the proposed Cannon Road extension alignment located in Carlsbad, California. A field survey of the site was performed on April 16, 1999. The results of that survey are presented in this letter report. Introduction and Definitions Site Characterization I The Cannon Road West Project is located in the City of Carlsbad in San Diego County, California (refer to Figure 1). This project will extend Cannon Road - approximately 2 miles east from its terminus at 1-5 to Camino Real. The Cannon Road extension consists of two bridge crossings and traverses through and adjacent to habitat for the federally endangered/threatened least Bell's vireo, southwestern willow flycatcher, and California gnatcatcher. - The predominate land use of the project area is undisturbed open space. Wetlands originating from the Agua Hedionda Lagoon and Agua Hedionda Creek are located adjacent to the north and commercial developments are present to the west. Elevations for the project area have been altered due to construction activities; however, pre-construction elevations range from approximately 100 feet above mean sea level (MSL) along the terrace over looking Agua Hedionda Lagoon down to approximately 5 feet above MSL along the Agua Hedionda , . . • , m"' -v -, • tt JJ 'r . )I42 4*Il r .- 126 rA L 17127 ' 4Projecl Aiignrnen 'i - l.I3 1 MR11, 4 I•13 // 3 ••.' I , , , -'. IU./I..:/w.. J13 1c --.'I -'- .- 3' .- p'.r1 ? . .3'.;p\i.. ' 41 Il eII' '1 gmm .......... .,.......... I I Figure 1 Project Alignment Area Map (Thomas Guide Pages 1126, 1127, and 11 07), Acoustical Definitions - .. 1 • • ' ,- - Airborne sound is a rapid fluctuation of air pressure above and below -I.. - I_ - ' atmospheric levels The loudest sounds the human ear can hear conformably is approximately one trillion (a one with 12 zeros following it) times the acoustic energy that the ear can barely detect Because of this vast range any attempt to represent the - acoustic intensity of a particular sound on a linear scale becomes unwieldy. Because of this, a loganthmic ratio known as the decibel (dB) is commonly employed .,,A sound level • of zero 0 dB is scaled such that it is defined as the threshold of human hearing and - would be barely audible to a human of normal hearing under extremely quiet listening conditions and would correspond to a sound pressure level equal to the reference level ----- - - Most of the sounds we hear, in the environment do not consist of a single frequency, but rather a broad band of frequencies differing in sound level The intensities of each frequency add to generate the sound we hear.'The method * commonly used to quantify environmental sounds consists of determining all of the frequencies of a sound according to a weighting system that reflects the nonlinear response characteristics of the human ear. This is called "A" weighting and the decibel * level measured is called the A-weighted sound level (or dBA) In practice the level of a 4 ,' * noise source is conveniently measured using a sound level meter that includes a filter corresponding to the dBA curve - 3 1 1 II Although the A-weighted sound level may adequately indicate the level of environmental noise at any instant in time, community noise levels vary continuously. 4 - 1 1 I 4 I • 'p 4, I, I I'- Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #6 (4-16-99) ISE Report #99-009e April 16, 1999 Page 3 Environmental noise includes a conglomeration of sounds from distant sources that create a relatively steady background noise in which no particular source is identifiable. For this type of noise, a single descriptor called the Leq (or equivalent sound level) is used. Leq is the energy-mean A-weighted sound level during a measured time interval. It is the 'equivalent' constant sound level that would have to be produced by a given source to equal the fluctuating level measured. To describe time-varying character of environmental noise, the statistical noise descriptors L10, L50, and L90 are commonly used. They are the noise levels equaled or exceeded during 10 percent, 50 percent, and 90 percent of a stated time. Sound levels associated with the L10 typically describe transient or short-term events, while levels associated with the L90 describe the steady state (or most prevalent) noise conditions. In addition, it is often desirable to know the acoustic range of the noise source being measured. This is accomplished through the maximum and minimum measured sound level (Lmax and Lmin) indicators. The Lmin value obtained for a particular monitoring location is often called the acoustic floor for that location. Applicable Significance Criteria Wildlife Habitat Regulations Construction and operational noise generated by this project is regulated by the United States Fish and Wildlife Service (U.S.F.W.S.) and the California Department of Fish and Game for its effect on federally endangered least Bell's vireo (Vireo be//ii push/us) and the southwestern willow flycatcher (Empidonax trail/ii extrimus) and the federally threatened California gnatcatcher (Poiopti/a california). Resource agencies have theorized that elevated noise levels can potentially mask songs of the least Bell's vireo which are used to attract mates and defend territories. The San Diego Association of Governments (SANDAG) in a 1990 study entitled "Comprehensive Species Management Plan for the least Bell's vireo" theoretically estimated that {traffic} noise levels above 60 dBA Leq in vireo breeding areas may sufficiently mask the vireo's song and potentially reduce the reproductive success of this species during their breeding season that occurs from March 1 to September 1. Since sustained noise exposure (indicated by the L90 metric) produces greater masking effects than intermittent peak levels, this report will analyze both effects. The SANDAG report conclusions were unclear as to the specific time interval of the measurement, but it is typically taken as one hour. Although research is on going regarding similar noise impacts to the southwestern willow flycatcher and California : gnatcatcher, in the absence of species-specific data, these same study results are applied by the Service to this bird species as well. Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #6 (4-16-99) ISE Report #99-009e April 16, 1999 Page 4 Analysis Methodology Existing Conditions Field Survey Three Larson Davis Model 700 ANSI Type 2 integrating sound level meters were used as the data collection devices. The meters were positioned at the locations shown below in Figure 2 and the accompanying matrix. ID < intorosa IVIL #3 ...Country CIt gua 10 7 (4j —. IvL#2 .J IvL #1 JI /t ,1 0 1/2 1MILE TN T / MN •._,,. i,cc,t r.s*g..tg,..sq I /iie 1000 0 1000 2000 3000 4000 FEET / I Fk.'IbI R6W,I Figure 2: Project Area Topography (USGS 7.5 San Luis Rey Quadrangle 1:12000) Monitor Sta. Eng. Sta. No. GPS Lat GPS Lon Description ML #1 102+00 330 08.780 N 1170 18.195W Western end of alignment ML #2 113+00 330 08.826 N 1170 18.011 W Central point of alignment ML #3 n/a 330 08.952 N 1170 17.895 W Eastern end of alignment (ECR bridge crossing) ECR = El Camino Real Rd. EPE = Estimated Position Error = 49' Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #6 (4-16-99) ISE Report #99-009e April 16, 1999 Page 5 The meters were mounted on tripods roughly 5 feet above the ground and were calibrated before and after each field deployment. Each station was programmed to record and log the following noise metrics each hour: Leq-h, Lmax, Lmin, L10, L50, and L90. Field Monitoring Results A field survey was performed to ascertain construction noise levels within the habitat area due to light grading and ancillary activities. During the week #5 monitoring period, construction activities associated with the Cannon Road West Project were primarily concentrated near the ML 3 location (adjacent to El Camino Real). Observed equipment utilized at this location consisted primarily of a single truck-mounted crane. Construction activities associated with an adjacent property to the north were appreciable at Monitoring Location #2. Testing conditions during the monitoring intervals were clear and sunny with an average barometric pressure reading of 29.99 in-Hg, an average westerly wind speed of 1 to 5 miles per hour (MPH), and an approximate mean temperature of 79.5 degrees Fahrenheit. The results of the sound level monitoring are shown below in Table 1. The values for the energy equivalent sound level (Leq), the maximum and minimum measured sound levels (Lmax and Lmin), and the statistical indicators LIO, L50, and L90, are given for each monitoring location. Areas in excess of the 60-dBA Leq-h impact threshold are underlined. Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #6 (4-16-99) lSE Report #99-009e April 16, 1999 Page 6 Table 1: Measured Construction Levels - Cannon Road West Alignment I 1-Hour Noise Level Descriptors in dBA Site Leq Lmax Lmin LIO L50 L90 7:30 a.m. ML 1 51.5 69.0 44.0 52.5 50.5 49.0 ML 59.5 79.5 51.5 60.5 56.0 54.0 ML 3 56.0 68.5 49.0 57.5 56.0 52.0 8:30 am. ML 1 51.5 70.0 44.0 52.0 48.5 47.5 ML 59.0 79.0 52.5 61.5 56.5 55.0 MI-3 57.0 71.0 50.0 59.5 56.0 53.0 9:30 a.m. ML 1 52.5 71.0 45.0 53.0 49.5 48.0 MI-2 60.0 83.0 53.0 62.0 57.0 54.5 MI-3 57.0 71.0 50.0 59.5 56.0 53.0 10:30 a.m. ML 1 50.0 68.0 43.0 51.5 47.5 45.5 MI-2 61.0 76.0 51.0 65.0 57.5 54.5 ML 3 56.5 67.0 50.0 59.0 56.0 53.0 11:30 a.m. ML 1 52.0 73.5 43.0 54.0 48.0 46.0 MI-2 59.5 73.0 48.5 62.5 55.0 52.0 MI-3 57.0 71.0 49.5 59.0 56.0 53.0 12:30 p.m. ML 1 50.0 62.0 45.0 53.0 48.5 46.5 MI-2 62.0 82.0 49.5 60.5 54.0 52.0 MI-3 56.5 71.5 49.5 58.5 56.0 53,0 1:30 p.m. ML 1 52.0 62.5 42.0 55.5 50.0 46.0 ML 2 58.5 70.0 50.5 61.5 56.5 53.0 MI-3 . 56.0 65.0 49.5 58.0 55.5 52.5 2:30 p.m. ML 1 51.5 62.0 44.5 54.0 50.5 47.5 ML 59.5 70.5 51.5 62.5 58.0 . 54.5 MI-3 59.0 72.5 50.0 62.0 56.0 53.0 Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #6 (4-16-99) ISE Report #99-009e April 16, 1999 Page 7 Measurements collected at monitoring locations ML I through ML 3 reflect typical sound levels associated with the community setting observed and the topography of the surrounding terrain. Only one location, ML 2, showed an exceedance of the 60-dBA impact threshold throughout the duration of the monitoring intervals. This exceedance was due to the close proximity of grading activities associated with the adjacent property to the north and are not project related. The duration of these activities was short enough such that the background noise level (1-90) was 55.0 dBA or less enabling vireo communication over 90% of the time. 60 Recommendations Monitoring Location #2 was found to have an energy average sound level (Leq- h) in excess of 60 dBA. This exceedance was due to adjacent grading operations of an unrelated project north of the western Cannon Road extension. The mitigation measures proposed within monitoring report #1 are still applicable. Should you have any questions regarding the above conclusion, please do not hesitate to contact me at (619) 640-9379. Sincerely, Rick Tavares, EIT, REA, INCE Project Principal Investigative Science and Engineering Cc: Shem Howard, City of Carlsbad Glen Laube, ISE Investigative Science and Engineering 3511 Camino Del Rio South, Suite 302 Phone/Fax: 619-640-9379 /619-640-0763 San Diego, CA 92108-4003 www.ise-advantage.com April 8, 1999 APR 121999 ENGINEERING Mr. Doug Gettinger DEPARTMENT Ogden Environmental and Energy, Inc. 5510 Morehouse Drive San Diego, CA 92121 Re: Cannon Road Mitigation Monitoring Results - Week #5 (4-8-99) (ISE Report #99-009e) Dear Mr. Gettinger: Pursuant to U.S.F.W.S. permit approval requirements, Investigative Science and Engineering (ISE) has examined potential noise impacts to the riparian habitat along the proposed Cannon Road extension alignment located in Carlsbad, California. A field survey of the site was performed on April 8, 1999. The results of that survey are presented in this letter report. Introduction and Definitions Site Characterization The Cannon Road West Project is located in the City of Carlsbad in San Diego County, California (refer to Figure 1). This project will extend Cannon Road approximately 2 miles east from its terminus at 1-5 to Camino Real. The Cannon Road extension consists of two bridge crossings and traverses through and adjacent to habitat for the federally endangered/threatened least Bell's vireo, southwestern willow flycatcher, and California gnatcatcher. The predominate land use of the project area is undisturbed open space. Wetlands originating from the Agua Hedionda Lagoon and Agua Hedionda Creek are located adjacent to the north and commercial developments are present to the west. Elevations for the project area have been altered due to construction activities; however, pre-construction elevations range from approximately 100 feet above mean sea level (MSL) along the terrace over looking Agua Hedionda Lagoon down to approximately 5 feet above MSL along the Agua Hedionda Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #5 (4-8-99) ISE Report #99-009e April 8, 1999 Page 2 to k i1 )> \\ - ..:. ':, . .- :• i•I :i4 ', ,', .., ;1.i'• AUZA Figure 1: Project Alignment Area Map (Thomas Guide Pages 1126, 1127, and 1107) Acoustical Definitions Airborne sound is a rapid fluctuation of air pressure above and below atmospheric levels. The loudest sounds the human ear can hear conformably is approximately one trillion (a one with 12 zeros following it) times the acoustic energy that the ear can barely detect. Because of this vast range, any attempt to represent the acoustic intensity of a particular sound on a linear scale becomes unwieldy. Because of this, a logarithmic ratio known as the decibel (dB) is commonly employed. A sound level of zero "0" dB is scaled such that it is defined as the threshold of human hearing and would be barely audible to a human of normal hearing under extremely quiet listening conditions and would correspond to a sound pressure level equal to the reference level. Most of the sounds we hear in the environment do not consist of a single frequency, but rather a broad band of frequencies differing in sound level. The intensities of each frequency add to generate the sound we hear. The method commonly used to quantify environmental sounds consists of determining all of the frequencies of a sound according to a weighting system that reflects the nonlinear response characteristics of the human ear. This is called "A" weighting, and the decibel level measured is called the A-weighted sound level (or dBA). In practice, the level of a noise source is conveniently measured using a sound level meter that includes a filter corresponding to the dBA curve. Although the A-weighted sound level may adequately indicate the level of environmental noise at any instant in time, community noise levels vary continuously. Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #5 (4-8-99) ISE Report #99-009e April 8, 1999 Page 3 Environmental noise includes a conglomeration of sounds from distant sources that create a relatively steady background noise in which no particular source is identifiable. For this type of noise, a single descriptor called the Leq (or equivalent sound level) is used. Leq is the energy-mean A-weighted sound level during a measured time interval. It is the 'equivalent' constant sound level that would have to be produced by a given source to equal the fluctuating level measured. To describe time-varying character of environmental noise, the statistical noise descriptors L10, L50, and L90 are commonly used. They are the noise levels equaled or exceeded during 10 percent, 50 percent, and 90 percent of a stated time. Sound levels associated with the L10 typically describe transient or short-term events, while levels associated with the L90 describe the steady state (or most prevalent) noise conditions. In addition, it is often desirable to know the acoustic range of the noise source being measured. This is accomplished through the maximum and minimum measured sound level (Lmax and Lmin) indicators. The Lmin value obtained for a particular monitoring location is often called the acoustic floor for that location. Applicable Significance Criteria Wildlife Habitat Regulations Construction and operational noise generated by this project is regulated by the United States Fish and Wildlife Service (U.S.F.W.S.) and the California Department of Fish and Game for its effect on federally endangered least Bell's vireo (Vireo be/Ill pusillus) and the southwestern willow flycatcher (Empidonax fraillll extnmus) and the federally threatened California gnatcatcher (Poliopti/a california). Resource agencies have theorized that elevated noise levels can potentially mask songs of the least Bell's vireo which are used to attract mates and defend territories. The San Diego Association of Governments (SANDAG) in a 1990 study entitled "Comprehensive Species Management Plan for the least Be/I's vireo" theoretically estimated that {traffic} noise levels above 60 dBA Leq in vireo breeding areas may sufficiently mask the vireo's song and potentially reduce the reproductive success of this species during their breeding season that occurs from March 1 to September 1. Since sustained noise exposure (indicated by the L90 metric) produces greater masking effects than intermittent peak levels, this report will analyze both effects. The SANDAG report conclusions were unclear as to the specific time interval of the measurement, but it is typically taken as one hour. Although research is on going regarding similar noise impacts to the southwestern willow flycatcher and California gnatcatcher, in the absence of species-specific data, these same study results are applied by the Service to this bird species as well. Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results —Week #5 (4.8-99) ISE Report #99-009e April 8, 1999 Page 4 Analysis Methodology Existing Conditions Field Survey Three Larson Davis Model 700 ANSI Type 2 integrating sound level meters were used as the data collection devices. The meters were positioned at the locations shown below in Figure 2 and the accompanying matrix. ..,/ •;,.-' . J. K ML #31 .*Y.Country CR1 J Ila p - M, #2 •- ) r-1 7 IVL #1 S :..•.<_:_/'•. : S / / t aPnt Ne/MN 1/2 1 MILE 1000 0 1000 2000 3000 4000 FEET J I W'flSWnflJ Figure 2: Project Area Topography (USGS 7.5 San Luis Rey Quadrangle 1:12000) Monitor Sta. Eng. Sta. No. GPS Lat GPS Lon Description ML #1 102+00 330 08.780 N 1170 18.195W Western end of alignment ML #2 113+00 330 08.826 N 1170 18.011 W Central point of alignment ML #3 n/a 330 08.952 N 1170 17.895 W Eastern end of alignment S (ECR bridge crossing) ECR = El Camino Real Rd. EPE = Estimated Position Error = 49' Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #5 (4-8-99) ISE Report #99-009e April 8, 1999 Page 5 The meters were mounted on tripods roughly 5 feet above the ground and were calibrated before and after each field deployment. Each station was programmed to record and log the following noise metrics each hour: Leq-h, Lmax, Lmin, L10, L50, and L90. Field Monitoring Results A field survey was performed to ascertain construction noise levels within the habitat area due to light grading and ancillary activities. During the week #5 monitoring period, construction activities associated with the Cannon Road West Project were primarily concentrated near the ML 3 location (adjacent to El Camino Real). Observed equipment utilized at this location consisted of dozers, scrapers, diggers, and a single chainsaw. In addition, construction activities associated with the adjacent property to the north were appreciable at Monitoring Locations 1 and 2. Testing conditions during the monitoring intervals were partly cloudy with an average barometric pressure reading of 29.85 in-Hg, an average westerly wind speed of 5 to 10 miles per hour (MPH), and an approximate mean temperature of 69.5 degrees Fahrenheit. The results of the sound level monitoring are shown below in Table 1. The values for the energy equivalent sound level (Leq), the maximum and minimum measured sound levels (Lmax and Lmin), and the statistical indicators LIO, L50, and L90, are given for each monitoring location. Areas in excess of the 60-dBA Leq-h impact threshold are underlined. Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #5 (4-8-99) ISE Report #99-009e April 8, 1999 Page 6 Table 1: Measured Construction Levels - Cannon Road West Alignment 1-Hour Noise Level Descriptors in dBA Site Leq Lmax Lmin . LIO L50 L90 7:30 a.m. ML 1 51.0 72.5 38.0 52.5 45.0 41.5 ML 55.0 89.5 44.0 55.0 51.0 47.5 ML 3 58.5 69.5 45.5 62.0 59.0 53.5 8:30 a.m. ML 1 51.5 68.0 37.5 1 54.5 46.0 41.5 ML 2 56.5 72.0 44.5 58.5 53.5 48.5 MI-3 55.5 68.5 44.0 58.0 54.5 50.0 9:30 a.m. ML 1 51.5 75.0 37.0 51.5 43.5 39.5 MI-2 55.5 71.5 42.5 58.5 52.0 46.0 MI-3 62.5 80.0 54.0 67.5 60.5 56.5 10:30 a.m. ML 1 52.5 73.5 39.5 52.5 45.5 42.0 MI-2 58.5 73.5 46.0 62.0 52.5 49.0 MI-3 83.5 79.5 53.0 66.5 61.0 57.0 11:30 am. ML 1 52.0 71.0 39.0 54.0 46.0 42.0 MI-2 59.0 79.5 45.5 61.0 54.5 49.5 MI-3 61.5 79.0 49.0 63.5 57.0 54.0 12:30 p.m. ML 1 49.5 72.5 39.0 51.5 45.0 41.5 ML 2 57.0 75.0 46.0 59.0 54.0 49.0 MI-3 64.5 81.0 53.0 68.0 61.5 57.5 1:30 p.m. ML 1 50.5 69.5 40.5 53.5 45.5 42.0 ML 2 56.0 74.0 47.5 58.0 53.5 50.0 MI-3 .64.5 85.5 56.0 67.0 62.0 59.5 2:30 p.m. ML 1 53.0 72.0 39.5 55.0 46.5 43.0 MI-2 59.0 81.0 46.5 59.5 55.5 50.0 ML 3 64.5 81.0 53.0 68.0 61.5 57.5 Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #5 (4-8-99) lSE Report #99-009e April 8, 1999 Page 7 Measurements collected at monitoring locations ML 1 through ML 3 reflect typical sound levels associated with the community setting observed and the topography of the surrounding terrain. Only one location, ML 3, showed an exceedance of the 60 dBA impact threshold throughout the duration of the monitoring intervals. This exceedance was due to the close proximity of grading activities associated with the adjacent property to the north and are not project related. In addition, noise from adjacent El Camino Real Road was found to be a significant noise contributor at this monitoring location. The duration of these activities was short enough such that the background noise level (1-90) was 59.5 dBA or less enabling vireo communication over 90% of the time. Recommendations Monitoring Location #3 was found to have an energy average sound level (Leq- h) in excess of 60 dBA. This exceedance was due to adjacent grading operations of an unrelated project north of the western Cannon Road extension and traffic activity along El Camino Real. The mitigation measures proposed within monitoring report #1 are still applicable. Should you have any questions regarding the above conclusion, please do not hesitate to contact me at (619) 640-9379. Sincerely, Rick Tavares, EIT, REA, INCE No. 06 Project Principal Investigative Science and Engineering kOF Cc: Sherri Howard, City of Carlsbad Glen Laube, ISE -I,tJ1 Investigative Science and Engineering 3511 Camino Del Rio South, Suite 302 San Diego, CA 92108-4003 April 5, 1999 Mr. Doug Gettinger Ogden Environmental and Energy, Inc. 5510 Morehouse Drive San Diego, CA 92121 PhoneFax: 619-640-9379 / 619-640-0763 www.ise-advanfage.com RECEIVED APR 0.6 1999 - ENGINEERING * DEPARTMENT.. Re: Cannon Road Mitigation Monitoring Results - Week #4 (4-1-99) (ISE Report #99-009d) Dear Mr. Gettinger: Pursuant to U.S.F.W.S. permit approval requirements, Investigative Science and Engineering (ISE) has examined potential noise impacts to the riparian habitat. along the proposed Cannon Road extension alignment located in Carlsbad, California. A field survey of the site was performed on April 1, 1999. The results of that survey are presented in this letter report. Introduction and Definitions Site Characterization The Cannon Road West Project is located in the City of Carlsbad in San Diego County, California (refer to Figure 1). This project will extend Cannon Road approximately 2 miles east from its terminus at 1-5 to Camino Real. The Cannon Road extension consists of two bridge crossings. and traverses through and adjacent to habitat for the federally endangered/threatened least Bell's vireo, southwestern willow flycatcher, and California gnatcatcher, The predominate land use of the project area is undisturbed open space. Wetlands originating from the Agua Hedionda Lagoon and Agua Hedionda Creek are located adjacent to-,.the north and commercial developments are present to the west. Elevations for the project area have been altered due to construction activities; however, pre-construction elevations range from approximately 100 feet above mean sea level (MSL) along the terrace over looking Agua Hedionda Lagoon down to approximately 5 feet above MSL along the Agua Hedionda . . -. 4 S - C ' p - - - c p. -. - , 5458 S 5! S• S -S c 3A 5àj , kt :1211 FR * PwjectAhgnmen NO -' 0 ~Jtl - WA N tsp 44 NN RP 0 i4s'p . 4 Ou P$P p ?-4 -c p ¼W p- - -. PiI4 • 4T4 . P•''*i P -P 7 * S P44q•1f5p 1 ---1 4c -. c__P 7. S. 4 Figure 1 Project Alignment Area Map (Thomas Guide Pages 11 26, 1127, and 1107) Acoustical Definitions Airborne sound is a rapid fluctuation of air pressure above and below atmospheric levels The loudest sounds the human ear can hear conformably is approximately one trillion (a one with 12 zeros following it) times the acoustic energy that the ear can barely detect Because of this vast range, any attempt to represent the acoustic intensity of a particular sound on a linear scale becomes unwieldy. Because of this, a logarithmic ratio known as the decibel (dB) is commonly employed A sound level of zero '0' dB is scaled such that it is defined as the threshold of human hearing and would be barely audible to a human of normal hearing under extremely quiet listening conditions and would correspond to a sound pressure level equal to the reference level 5, 4, Most of the sounds we hear in the environment do not consist of a single frequency, but rather a broad band of frequencies differing, in sound level The intensities of each frequency add to generate the sound we hear. The method commonly used to quantify environmental sounds consists of determining all of the frequencies of a sound according to a weighting system that reflects the nonlinear response charactenstics of the human ear. This is called "A" weighting, and the decibel level measured is called the A-weighted sound level (or dBA) In practice the level of a noise source is conveniently measured using a sound level meter that includes a filter corresponding to the dBA curve Although the A-weighted sound level may adequately indicate the level of 'S 8. environmental noise at any instant in time community noise levels vary contino uusly Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #4 (4-1-99) ISE Report #99-009d April 5, 1999 Page 3 Environmental noise includes a conglomeration of sounds from distant sources that create a relatively steady background noise in which no particular source is identifiable. For this type of noise, a single descriptor called the Leq (or equivalent sound level) is used. Leq is the energy-mean A-weighted sound level during a measured time interval. It is the 'equivalent' constant sound level that would have to be produced by a given source to equal the fluctuating level measured. To describe time-varying character of environmental noise, the statistical noise descriptors LIO, L50, and L90 are commonly used. They are the noise levels equaled or exceeded during 10 percent, 50 percent, and 90 percent of a stated time. Sound levels associated with the L10 typically describe transient or short-term events, while levels associated with the L90 describe the steady state (or most prevalent) noise conditions. In addition, it is often desirable to know the acoustic range of the noise source being measured. This is accomplished through the maximum and minimum measured sound level (Lmax and Lmin) indicators. The Lmin value obtained for a particular monitoring location is often called the acoustic floor for that location. Applicable Significance Criteria Wildlife Habitat Regulations Construction and operational noise generated by this project is regulated by the United States Fish and Wildlife Service (U.S.F.W.S.) and the California Department of Fish and Game for its effect on federally endangered least Bell's vireo (Vireo be//ii push/us) and the southwestern willow flycatcher (Empidonax trail/ii extrimus) and the federally threatened California gnatcatcher (Polioptila california). Resource agencies have theorized that elevated noise levels can potentially mask songs of the least Bell's vireo which are used to attract mates and defend temtones. The San Diego Association of Governments (SANDAG) in a 1990 study entitled "Comprehensive Species Management Plan for the least Be/I's vireo" theoretically estimated that {traffic} noise levels above 60 dBA Leq in vireo breeding areas may sufficiently mask the vireo's song and potentially reduce the reproductive success of this species during their breeding season that occurs from March 1 to September 1. Since sustained noise exposure (indicated by the L90 metric) produces greater masking effects than intermittent peak levels, this report will analyze both effects. The SANDAG report conclusions were unclear as to the specific time interval of the measurement, but it is typically taken as one hour. Although research is on going regarding similar noise impacts to the southwestern willow flycatcher and California gnatcatcher, in the absence of species-specific data, these same study results are applied by the Service to this bird species as well. 41 ffl IvL#3 Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #4 (4-1-99) ISE Report #99-009d April 5, 1999 Page 4 Analysis Methodology Existing Conditions Field Survey Three Larson Davis Model 700 ANSI Type 2 integrating sound level meters were used as the data collection devices. The meters were positioned at the locations shown below in Figure 2 and the accompanying matrix. intorosa .-,,Country Clt , VVi 0 1/2 1MILE LITJWLi'l lt8I l'rJ f'I I 13 8 1000 0 1000 2000 3000 4000 FEET / Figure 2: Project Area Topography (USGS 7.5 San Luis Rey Quadrangle 1:12000) Monitor Sta. Eng. Sta. No. GPS Lat GPS Lon Description ML #1 102+00 330 08.780 N 1170 18.195W Western end of alignment ML #2 113+00 330 08.826 N 1170 18.011 W Central point of alignment ML #3 n/a 330 08.952 N 1170 17.895 w Eastern end of alignment (ECR bridge crossing) ECR = El Camino Real Rd. EPE = Estimated Position Error = 49' r el Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #4 (4-1-99) ISE Report #99-009d April 5, 1999 Page 5 The meters were mounted on tripods roughly 5 feet above the ground and were calibrated before and after each field deployment. Each station was programmed to record and log the following noise metrics each hour: Leq-h, Lmax, Lmin, LIO, L50, and L90. x- u Field Monitoring Results A field survey was performed to ascertain construction noise levels within the habitat area due to light grading and ancillary activities. Due to adverse weather conditions, no construction activities associated with the Cannon Road West Project were observed during the week #4 monitoring period. Construction equipment was operational at an unrelated project adjacent to the north (across Agua Hedionda Creek). Testing conditions during the monitoring intervals were cloudy (heavy precipitation) with an average barometric pressure reading of 29.25 in-Hg, an average northwesterly wind speed of.4 to 10 miles per hour (MPH), and an approximate mean temperature of 68 degrees Fahrenheit. The results of the sound level monitoring are shown below in Table 1. The values for the energy equivalent sound level (Leq), the maximum and minimum measured sound levels (Lmax and Lmin), and the statistical indicators 1-10, L50, and L90, are given for each monitoring location. Areas in excess of the 60-dBA Leq-h impact threshold are underlined. Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #4 (4-1-99) ISE Report #99-009d April 5, 1999 Page 6 Table 1: Measured Construction Levels - Cannon Road West Alignment I 1 -Hour Noise Level Descriptors in dBA Site Leq Lmax Lmin LIO L50 L90 7:30 a.m. ML 60.5 77.5 44.0 65.0 55.5 49.0 ML2 57.5 76.5 46.0 61.0 54.0 50.0 ML 3 69.5 81.5 61.5 71.5 69.5 67.0 8:30 a.m. ML 1 60.5 . 75.0 46.0 64.0 56.5 50.0 ML2 57.5 74.0 46.5 61.0 54.0 49.5 ML3 67.0 74.0 56.0 69.5 67.0 62.5 9:30 a.m. M'L1 62.5 79.5 43.0 66.5 57.5 50.0 ML2 56.5 71.0 46.5 60.0 53.0 49.5 ML 3 62.0 73.0 52.5 65.0 60.5 58.0 10:30 a.m. .4L .J. 64.0 83.5 44.0 67.5 58.0 51.0 L2 64.5 87.5 46.0 63.0 54.5 50.0 ML.3 65.0 77.0 54.5 67.5 64.0 60.5 11:30 a.m. ML 67.5 81.5 42.0 72.0 62.5 54.0 ML2 73.0 91.0 48.5 74.0 64.0 55.5 ML3 61.5 76.0 50.0 64.0 60.0 56.0 12:30 p.m. ML 1 62.0 79.0 42.5 66.0 58.0 47.0 62.0 83.5 46.0 65.0 56.0 49.0 ML 3 62.0 73.5 49.0 66.0 59.5 55.0 1:30 p.m. ML 65.0 81.5 45.0 68.5 62.0 55.5 .L2 67.5 81.5 49.0 71.0 65.0 59.0 ML 60.0 74.0 48.5 62.0 59.0 55.0 2:30 p.m. ML 70.0 87.0 46.0 74.0 64.5 56.5 ML2 73.0 90.5 48.5 77.5 68.5 59.5 ML 62.0 75.0 49.5 64.5 61.5 57.0 Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #4 (4-1-99) ISE Report #99-009d April 5, 1999 ,' Page 7 Measurements collected at monitoring locations ML 1 through ML 3 reflect typical sound levels associated with the community setting observed and the topography of the surrounding terrain. All locations showed an exceedance of the 60- dBA Leq-h impact threshold at some period within the monitoring interval. This exceedance was due entirely to construction activities associated with the adjacent property to the north and the heavy rain conditions present during the entire monitoring day. The duration of offsite construction activities was short enough such that the background noise level (i.e., L90) was 59.5 dBA or less enabling vireo communication over 90% of the time Monitoring Locations #1 and #2. Monitoring Location #3, which is adjacent to El Camino Real, had the highest background readings. This again was directly attributable to traffic noise along the wet pavement. Recommendations All Monitoring Locations (i.e., ML 1, ML 2, and ML 3) were found to have an energy average sound level (Leq-h) in excess of 60 dBA. This exceedance was due to adjacent grading operations of unrelated projects located to the north. The mitigation measures proposed within monitoring report #1 are still applicable. Should you have any questions regarding the above conclusion, please do not hesitate to contact me at (619) 640-9379. Sincerely, Rick Tavares, ElT, REA, INCE Project Principal Investigative Science and Engineering Cc: Sherri Howard, City of Carlsbad Glen Laube, ISE H Investigative Science and Engineering 3511 Camino Del Rio South, Suite 302 PhonelFax: 619-640-9379-1619-640-0763 San Diego, CA 92108-4003 www.ise-advantage.com March 26, 1999 MAR 29 1999 Mr. Doug Gettinger Ogden Environmental and Energy Inc. ENGINEERING 5510 Morehouse Drive DEPARTMENT San Diego, CA 92121 Re: Cannon Road Mitigation Monitoring Results - Week #3 (3-25-99) (ISE Report #99-009c) Dear Mr. Gettinger: Pursuant to U.S.F.W.S. permit approval requirements, Investigative Science and Engineering (ISE) has examined potential noise impacts to the riparian habitat along the proposed Cannon Road extension alignment located in Carlsbad, California. A field survey of the site was performed on March 25, 1999. The results of that survey are presented in this letter report. Introduction and Definitions * Site Characterization The Cannon Road West Project is located in the City of Carlsbad in San Diego County, California (refer to Figure 1). This project will extend Cannon Road approximately 2 miles-east from its terminus at 1-5 to Camino Real. The Cannon Road extension consists of two bridge crossings .and traverses through and adjacent to - habitat for the federally endangered/threatened least Bell's vireo, southwestern willow flycatcher, and California gnatcatcher. The predominate land use of the project area is undisturbed open space. Wetlands originating from the Agua Hedionda Lagoon and Agua Hedionda Creek are located adjacent to the north and commercial developments are present to the west. Elevations for the project area have been altered due to construction activities; however, pre-construction elevations range from approximately 100 feet above mean sea level (MSL) along the terrace over looking Agua Hedionda Lagoon down to approximately 5 feet above MSL along the Agua Hedionda - -:.i;'• - L..'- ., - 4.- .0 , ..0 to - / . •*,c./¼.: - ¼ ¼ -c 12 MR ¼4 ¼ 14 ,o ç - - -it.. -. - - - Mr. Doug Gettinger .. . .;-. = . Cannon Road Mitigation Monitoring Results - Week #3 (3-25-99 ,s J ) . . ISE Report #99-009c March 26, 1.999 .. ,0 .Page2 - - -. . ii -...- Figure 1 Project Alignment Area Map (Thomas Guide Pages 1126, 1127, and 1107) ........- ¼ ¼ 0) . . . - -- 4 0 . . ¼ • - •- - -•-- . . r - . . - . ;.,-.- 4 - T - * Acoustical Definitions ¼ 0 + 4. 4 0_ Airborne sound is a rapid fluctuation of air pressure above and below atmospheric ' levels. The 010udest sountds the human ear can hear conformably is - • ¼ 0 approximately one trillion (a one with 12 zeros following it) times the acoustic energy, that the ear can barely detect Because of this vast range any attempt to represent the r acoustic intensity of a particular sound on a linear scale becomes unwieldy Because of this a logarithmic ratio known as the decibel (dB) is commonly employed A sound level of zero '0 dB is scaled such that it is defined as the threshold of human hearing and would be barely audible to a human of normal hearing under extremely quiet listening conditions and would correspond to a sound pressure level equal to the reference level - ) Most of the sounds we hear in the environment do not consist of a single ¼4 4/ 4 - frequency, but rather a broad band of frequencies differing insound level. The . ¼ - intensities of each frequency add to generate the sound we hear. The method -' - commonly used to quantify environmental sounds consists of determining all of the , - 1 frequencies of a -sound according to a weighting system that reflects the nonlinear - - response characteristics of the human ear. This is called "A" weighting and the decibel ¼ level measured is called the A-weighted sound level (or dBA) In practice, the level of a noise source is conveniently measured using a sound level meter that includes a filter corresponding to the dBA curve ¼ - Although the A-weighted sound level may adequately indicate the level of environmental noise at any instant in time, community noise levels vary, continuously ' 4- 1 ¼ Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #3 (3-25-99) ISE Report #99-009c March 26, 1999 Page 3 Environmental noise includes a conglomeration of sounds from distant sources that create a relatively steady background noise in which no particular source is identifiable. For this type of noise, a single descriptor called the Leq (or equivalent sound level) is used. Leq is the energy-mean A-weighted sound level during a measured time interval. It is the 'equivalent' constant sound level that would have to be produced by a given source to equal the fluctuating level measured. To describe time-varying character of environmental noise, the statistical noise descriptors LIO, L50, and L90 are commonly used. They are the noise levels equaled or exceeded during 10 percent, 50 percent, and 90 percent of a stated time. Sound levels associated with the LIO typically describe transient or short-term events, while levels associated with the L90 describe the steady state (or most prevalent) noise conditions. In addition, it is often desirable to know the acoustic range of the noise source being measured. This is accomplished through the maximum and minimum measured sound level (Lmax and Lrnin) indicators. The Lmin value obtained for a particular monitoring location is often called the acoustic floor for that location. JB Applicable Significance Criteria Wildlife Habitat Regulations Construction and operational noise generated by this project is regulated by the United States Fish and Wildlife Service (U.S.F.W.S.) and the California Department of Fish and Game for its effect on federally endangered least Bell's vireo (Vireo be/Ill pusillus) and the southwestern willow flycatcher (Empidonax trailill extnmus) and the federally threatened California gnatcatcher (Polioptila california). Resource agencies have theorized that elevated noise levels can potentially mask songs of the least Bell's vireo which are used to attract mates and defend territories. The San Diego Association of Governments (SANDAG) in a 1990 study entitled "Comprehensive Species Management Plan for the least Bell's vireo" theoretically estimated that {traffic} noise levels above 60 dBA Leq in vireo breeding areas may sufficiently mask the vireo's song and potentially reduce the reproductive success of this species during their breeding season that occurs from March 1 to September 1. Since sustained noise exposure (indicated by the L90 metric) produces greater masking effects than intermittent peak levels, this report will analyze both effects. The SANDAG report conclusions were unclear as to the specific time interval of the measurement, but it is typically taken as one hour. Although research is on going regarding similar noise impacts to the southwestern willow flycatcher and California gnatcatcher, in the absence of species-specific data, these same study results are applied by the Service to this bird species as well. Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #3 (3-25-99) ISE Report #99-009c March 26, 1999 Page 4 go Analysis Methodology Existing Conditions Field Survey Three Larson Davis Model 700 ANSI Type 2 integrating sound level meters were used as the data collection devices. The meters were positioned at the locations shown below in Figure 2 and the accompanying matrix. ID .../L::77- Awr- " I ",----------1 I fiT I :11: ii 7 \• c K 4W/bffltorosa I Qqu.ntr.y CIII \, "/ o Agua \ ... .f. .... ij , ..- (1 o NIL #2 ., :J : -10 0. Ne/MN 0 !12 - 1MILE 1000 — 0 10 _j00 30 _0O FEET Figure 2: Project Area Topography (USGS 7.5 San Luis Rey Quadrangle 1:12000) Monitor Sta. Eng. Sta. No. GPS Lat GPS Lon Description ML #1 102+00 330 08.780 N 1170 18.195W Western end of alignment ML #2 113+00 330 08.826 N 1170 18.011 W Central point of alignment ML #3 n/a 330 08.952 N 1170 17.895W Eastern end of alignment (ECR bridge crossing) ECR = El Camino Real Rd. EPE = Estimated Position Error = 49' Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #3 (3-25-99) lSE Report #99-009c March 26, 1999 Page The meters were mounted on tripods roughly 5 feet above the ground and were calibrated before and after each field deployment. Each station was programmed to record and log the following noise metrics each hour: Leq-h, Lmax, Lmin, 1-10, L50, and L90. Findings Field Monitoring Results A field survey was performed to ascertain construction noise levels within the habitat area due to light grading and ancillary activities. Due to adverse weather conditions, no construction activities associated with the Cannon Road West Project were observed during the week #3 monitoring period. Construction equipment was operational at unrelated projects adjacent to the north (across Agua Hedionda Creek) and south of the western Cannon Road extension. Testing conditions during the monitoring intervals were cloudy (with moderate to heavy precipitation) with an average barometric pressure reading of 29.85 in-Hg, an average northwesterly wind speed of 0 to 5 miles per hour (MPH), and an approximate mean temperature of 68 degrees Fahrenheit. The results of the sound level monitoring are shown below in Table 1. The values for the energy equivalent sound level (Leq), the maximum and minimum measured sound levels (Lmax and Lmin), and the statistical indicators LIO, 1-50, and L90, are given for each monitoring location. Areas in excess of the 60-dBA Leq-h impact threshold are underlined. II Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #3 (3-25-99) ISE Report #99-009c March 26, 1999 Page 6 Table 1: Measured Construction Levels - Cannon Road West Alignment I 1 -Hour Noise Level Descriptors in dBA Site Leq Lmax Lmin LIO L50 L90 8:00a.m. MU. 67.5 79.0 50.5 71.0 66.0 59.0 ML2 60.5 81.5 44.5 64.0 51.5 48.0 ML3 57.5 76.0 43.5 60.5 56.5 51.0 9:00a.m. MU. 68.0 81.5 51.0 71.5 66.5 58.5 ML2 59.0 83.5 44.0 60.0 50.5 47.5 4 ML 3 . 55.5 68.0 44.5 58.5 54.5 50.0 10:00a.m. ML 65.5 84.0 38.5 70.0 58.5 43.5 ML2 61.0 83.0 43.0 62.0 51.5 47.0 ML 3, 56.5 . 71.0 44.5 59.0 55.0 50.5 11:00 a.m. ML 1 58.0 81.0 38.0 59.0 47.5 42.0 ML2 60.5 82.0 45.0 63.5 52.0 47.5 ML 3 • 58.5 77.5 48.0 60.0 56.5 53.0 12:00 p.m. ML 1 59.5 77.0 41.5 64.0 52.5 45.0 ML2 64.5 82.5 . 45.5 69.0 58.0 50.0 ML 61.5 75.0 51.5 64.5 59.5 56.0 1:00 P.M. ML 62.5 76.0 45.5 65.5 60.5 52.5 ML2 67.0 . 85.0 47.0 70.5 64.5 55.0 ML3 63.5 78.5 53.5 66.0 63.0 60.0 2:00 p.m. ML.1 60.0 76.0 46.0 63.5 58.0 52.5 MU 61.0 75.0 48.0 64.0 60.0 55.0 ML 63.0 76.5 52.5 65.0 62.5 58.0 3:00 p.m. . ML 62.5 86.5 48.0 64.0 59.5 55.0 ML2 66.0 87.0 53.5 66.0 62.0 58.5 ML 63.0 71.5 56.5 65.0 62.5 ' 59.0 Mr. Doug Gethnger Cannon Road Mitigation Monitoring Results - Week #3 (3-25-99) ISE Report #99-009c March 26, 1999 Page £ Measurements collected at monitoring locations ML I through ML 3 reflect typical sound levels associated with the community setting observed and the topography of the surrounding terrain. All locations showed an exceedance of the 60- dBA Leq-h impact threshold at some period within the monitoring interval. This exceedance was due to construction activities associated with the adjacent properties to the north and south. The duration of these activities was short enough such that the background noise level (1-90) was 60.0 dBA or less enabling vireo communication over 90% of the time. Recommendations All Monitoring Locations (i.e., ML 1, ML 2, and ML 3) were found to have an energy average sound level (Leq-h) in excess of 60 dBA. This exceedance was due to adjacent grading operations of unrelated projects located to the north and south of the western Cannon Road extension. The mitigation measures proposed within monitoring report #1 are still applicable. Should you have any questions regarding the above conclusion, please do not hesitate to contact me at (619) 640-9379. Sincerely, Rick Tavares, EIT, REA, INCE Project Principal Investigative Science and Engineering Cc: Sherri Howard, City of Carlsbad Glen Laube, ISE 41 a I 1-4 &gative Science and Engineering 3511 Camino Del Rio South, Suite 302 Phone/Fax: 619-640-9379 / 619-640-0763 San Diego, CA 92108-4003 www.ise-advantage.com March 18, 1999 Mr. Doug Gettinger Ogden Environmental and Energy, Inc. 5510 Morehouse Drive San Diego, CA 92121 Re: Cannon Road Mitigation Monitoring Results - Week #2 (3-17-99) (lSE Report #99-009b) Dear Mr. Gettinger: MAR 19 1999 ENGINEERING DEPARTMENT Pursuant to U.S.F.W.S. permit approval requirements, Investigative Science and Engineering (ISE) has examined potential noise impacts to the npanan habitat along the proposed Cannon Road extension alignment located in Carlsbad, California. A field survey of the site was performed on March 17, 1999. The results of that survey are presented in this letter report. Introduction and Definitions Site Characterization The Cannon Road West Project is located in the City of Carlsbad in San Diego County, California (refer to Figure 1). This project will extend Cannon Road approximately 2 miles east from its terminus at 1-5 to Camino Real. The Cannon Road extension consists of two bridge crossings and traverses through and adjacent to habitat for the federally endangered/threatened least Bell's vireo, southwestern willow flycatcher, and California gnatcatcher. The predominate land use of the project area is undisturbed open space. Wetlands originating from the Agua Hedionda Lagoon and Agua Hedionda Creek are - located adjacent to the north and commercial developments are present to the west. Elevations for the project area have been altered due to construction activities; however, pre-construction elevations range from approximately 100 feet above mean sea level (MSL) along the terrace over looking Agua Hedionda Lagoon down to approximately 5 feet above MSL along the Agua Hedionda f-..',4 '541•'4.• 4'ç . • 5.:c ... '4 '' :' "4i '' ' "..''• '4", . 1 J ;- 2 ' F '4' F / -Ill'5 I 4454. 4L / / '44._4554 L'4 P;octAhgnmen 44 0 FL , .4, 4.4.4, I '44i :I '4 , • '555k I "• '44 4 , 544'4-I~' I/f'4)4., '4 '4' 4 '444 '4.' " •' .' 0111L 4 54' 1 1' t 1•_.t 4 '5 4,$ W. 4' '444 .4' . . 4... ',i '4.• .4 ',... • '.' •• 4 . . •5 .4 • Mr Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #2 (3-17-99) ISE Report #99-009b March 18, 1999 Page .2 - .4 4 . •4' -.5 Figure 1 Project Alignment Area Map (Thomas Guide Pages 1126, 1127, and 1107) ,,i_.i . Acoustical Definitions - f,, 4 •• ti . s- . ' '. '4 - * - •• r , - . . . - 'I i ,' -4 . • . S . .• Airborne' sound is a rapid fluctuation of air pressure above and below, - atmospheric levels The loudest sounds the human ear can hear conformably is -. - •- 4' .-. approximately. one trillion. (a one with 12 zeros following it) times the acoustic energy -. that the ear can barely detect. Because of this vast range, any attempt to represent the acoustic intensity of a particular sound on a linear scale becomes unwieldy. Because of this a logarithmic ratio known as the decibel (dB) is commonly employed. A sound level • - ." '.; of zero "0" dB is scaled such that it is defined as the threshold of human hearing and - - . would be barely audible to a human of normal hearing under extremely quiet listening . '4 conditions and would correspond to .a sound pressure level equal to the reference level ,' , - - • . - - . 5,. Most of the sounds we hear in the environment do not consist of a single .• ' - •' - - frequency, but rather a broad band of frequencies differing in sound level. The of each frequency add to generate the sound we hear. The method intensities ' • -- f'." -. commonly used -to quantify environmental sounds consists of determining all of the 'frequencies of a sound according to a weighting system- that reflects the ,nonlinear -'- - * response charactenstics of the human ear. This is called "A" weighting and the decibel - - - '4:lev6l measured is called the A-weighted sound level (or dBA). In practice, the level of a - - - - noise source is conveniently measured using a sound level meter that includes a filter 1 '4 corresponding to the dBA curve S * - •' •'0 - - - . . - . . - I .-' . . '._.. ---"St - -, Although the A-weighted sound level may adequately indicate the level of environmental noise at any instant in time, community noise levels vary continuously Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #2 (3-17-99) ISE Report #99-009b March 18, 1999 Page 3 Environmental noise includes a conglomeration of sounds from distant sources that create a relatively steady background noise in which no particular source is identifiable.. For this type of noise, a single descriptor called the Leq (or equivalent sound level) is used. Leq is the energy-mean A-weighted sound level during a measured time interval. It is the 'equivalent' constant sound level that would have to be produced by a given source to equal the' fluctuating level measured. To describe time-varying character of environmental noise, the statistical noise descriptors L10, L50, and L90 are commonly used. They are the noise levels equaled or exceeded during 10 percent, 50 percent, and 90 percent of a stated time. Sound levels associated with the LIO typically describe transient or short-term events, while levels associated with the L90 describe the steady state (or most prevalent) noise conditions. In addition, it is often desirable to know the acoustic range of the noise source being measured. This is accomplished through the maximum and minimum measured sound level (Lmax and Lmin) indicators. The Lmin value obtained for a particular monitoring location is often called the acoustic floor for that location. ES Applicable Significance Criteria Wildlife Habitat Regulations Construction and operational noise generated by this project is regulated by the United States Fish and Wildlife Service (U.S.F.W.S.) and the California Department of Fish and Game for its effect on federally endangered least Bell's vireo (Vireo be/Ill pusillus) and the southwestern willow flycatcher (Empidonax trail/fl extrimus) and the federally threatened California gnatcatcher (Polio ptila california). Resource agencies have theorized that elevated noise levels can potentially mask songs of the least Bell's vireo which are used to attract mates and defend territories. The San Diego Association of Governments (SANDAG) in a 1990 study entitled "Comprehensive Species Management Plan for the least Bell's vireo" theoretically estimated that {traffic} noise levels above 60 dBA Leq in vireo breeding areas may sufficiently mask the vireo's song and potentially reduce the reproductive success of this species during their breeding season that occurs from March 1 to September 1. Since sustained noise exposure (indicated by the L90 metric) produces greater masking effects than intermittent peak levels, this report will analyze both effects. The SANDAG report conclusions were unclear as to the specific time interval of the measurement, but it is typically taken as one hour. Although research is on going regarding similar noise impacts to the southwestern willow flycatcher and California gnatcatcher, in the absence of species-specific data, these same study results are applied by the Service to this bird species as well. Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #2 (3-17-99) ISE Report #99-009b March 18, 1999 Page EB Analysis Methodology Existing Conditions Field Survey Three Larson Davis Model 700 ANSI Type 2 integrating sound level meters were used as the data collection devices. The meters were positioned at the locations shown below in Figure 2 and the accompanying matrix. 1" tntorosa -7,Country CI 4g ua J /7. it / . ...• I 0 ____ .• ,' j IVIL #1 , rN/MN 1/2 1 MILE 1/13%' 1000 0 1000 2000 3000 4000 FEET - - Figure 2: Project Area Topography (USGS 7.5 San Luis Rey Quadrangle 1:12000) Monitor Sta. Eng. Sta. No. GPS Lat GPS Lon Description ML #1 102+00 330 08.780 N 1170 18.195 W Western end of alignment ML #2 113+00 330 08.826 N 1170 18.011 W Central point of alignment ML #3 n/a 330 08.952 N 1170 17.895 W Eastern end of alignment (ECR bridge crossing) ECR = El Camino Real Rd. EPE = Estimated Position Error = 49' Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #2 (3-17-99) ISE Report #99-009b March 18, 1999 Page The meters were mounted on tripods roughly 5 feet above the ground and were calibrated before and after each field deployment. Each station was programmed to record and log the following noise metrics each hour: Leq-h, Lmax, Lmin, L10, L50, and L90. Field Monitoring Results A field survey was performed to ascertain construction noise levels within the habitat area due to light grading and ancillary activities. No construction activities associated with the Cannon Road West Project were observed during the week #2 monitoring period; however, scrapers and dozers were operational at an unrelated project to the south. Testing conditions during the monitoring intervals were partly cloudy with an average barometric pressure reading of 29.85 in-Hg, an average westerly wind speed of 8 to 15 miles per hour (MPH), and an approximate mean temperature of 70 degrees Fahrenheit. The results of the sound level monitoring are shown below in Table 1. The values for the energy equivalent sound level (Leq), the maximum and minimum measured sound levels (Lmax and Lmin), and the statistical indicators L10, L50, and L90, are given for each monitoring location. Areas in excess of the 60-dBA Leq-h . impact threshold are underlined. . Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #2 (3-17-99) ISE Report #99-009b March 18, 1999 Page 6 Table 1: Measured Construction Levels - Cannon Road West Alignment -Hour Noise Level Descriptors in dBA Site Leq Lmax Lrnin LIO L50 L90 7:30 a.m. ML 1 50.0 71.5 37.0 51.5 44.0 40.5 ML 2 55.5 80.5 45.0 56.0 52.0 48.5 MI-3 58.5 68.5 44.5 61.0 58.0 52.5 8:30 a.m. ML 1 51.0 68.5 37.0 54.0 45.0 40.0 ML2 55.0 71.5 43.0 58.0 52.5 47.5 ML 3 55.5 68.5 44.0 58.0 54.5 50.0 9:30 a.m. ML 1 51.5 75.0 37.0 51.5 43.5 39.5 ML2 55.5 71.5 42.5 58.5 52.0 46.0 ML 3 57.0 68.0 45.0 59.5 55.5 51.5 10:30 a.m. ML 1 52.0 71.5 37.5 54.5 46.0 40.0 ML2 57.0 73.0 43.0 61.5 53.0 46.5 ML 3 55.5 67.0 44.5 58.0 54.5 50.5 11:30 a.m. ML 1 52.5 68.5 37.5 55.0 46.0 ' 39.5 ML2 57.0 72.5 41.0 61.5 52.5 44.5 ML3 56.5 70.0 45.0 59.0 55.5 51.0 12:30 p.m. ML 1 55.5 77.0 38.0 57.5 48.0 ' 41.5 ML2 57.5 74.5 42.0 60.5 51.5 45.5 MI-3 56.5 67.5 43.5 59.0 56.0 51.5 1:30 p.m. ML 1 54.0 72.5 39.0 56.5 48.0 42.5' ML2 58.5 77.5 43.5 62.0 54.5 48.5 ML 3 57.0 72.0 44.0 59.5 56.5 52.0 2:30 p.m. 60.5 67.0 49.0 63.5 59.5 54.5 ML2 67.5 77.0 54.5 74.0 61.5 56.5 ML 3 - - - - - - * 2:30 p.m. interval data unavailable for ML 3. Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #2 (3-17-99) ISE Report #99-009b March 18, 1999 Page 7 Measurements collected at monitoring locations ML I through ML 3 reflect typical sound levels associated with the community setting observed and the topography of the surrounding terrain. Two locations showed an exceedance of the 60 dBA impact threshold (during the 2:30 p.m. monitoring period). These locations were ML 1 and ML 2. This exceedance was due to grading activities associated with the adjacent property to the south and not project related. The duration of these activities was short enough such that the background noise level (1-90) was 56.5 dBA or less enabling vireo communication over 90% of the time. go Recommendations Monitoring Locations #1 and #2 were found to have an energy average sound level (Leq-h) in excess of 60 dBA. This exceedance was due to adjacent grading operations of an unrelated project south of the western Cannon Road extension. The mitigation measures proposed within monitoring report #1 are still applicable. Should you have any questions regarding the above conclusion, please do not hesitate to contact me at (619) 640-9379. Sincerely, /-, e-,- 61 ~ ;~—O e ~ ~ Rick Tavares, EIT, REA, INCE Project Principal Investigative Science and Engineering Cc: Sherri Howard, City of Carlsbad Glen Laube, ISE 017 CAL%! Investigative Science and Engineering 3511 Camino Del Rio South, Suite 302 Phone/Fax: 619-640-9379/619-640-0763 San Diego, CA 92108-4003 www.ise-advantage.com March 15, 1999 RECTD MAR 16 Mr. Doug Gettinger Ogden Environmental and Energy, Inc. ENC' 3 5510 Morehouse Drive DEPA1thJT San Diego, CA 92121 Re: Cannon Road Mitigation Monitoring Results - Week #1(3-10-99) (ISE Report #99-009a) Dear Mr. Gettinger: Pursuant to U.S.F.W.S. permit approval requirements, Investigative Science and Engineering (ISE) has examined potential noise impacts to the riparian habitat along the proposed Cannon Road extension alignment located in Carlsbad, California. A field survey of the site was performed on March 10, 1999. The results of that survey are presented in this letter report. Introduction and Definitions Site Characterization The Cannon Road West Project is located in the City of Carlsbad in San Diego County, California (refer to Figure 1). This project will extend Cannon Road approximately 2 miles east from its terminus at 1-5 to Camino Real. The Cannon Road extension consists of two bridge crossings and traverses through and adjacent to habitat for the federally endangered/threatened least Bell's vireo, southwestern willow flycatcher, and California gnatcatcher. The predominate land use of the' project area is undisturbed open space. Wetlands originating from the Agua Hedionda Lagoon and Agua Hedionda Creek are located adjacent to the north and commercial developments are present to the west. V Elevations for the project area have been altered due to construction activities; however, pre-construction elevations range from approximately 100 feet above mean sea level (MSL) along the terrace over looking Agua Hedionda Lagoon down to V approximately 5 feet above MSL along the Agua Hedionda V ' \ • , '—rs. .: S. . 1S. AN Mal •• BOX, JQ ProjeclAhgnmen At • k?;/I NOR 1. \S . t • • 'ys \4 I r & 1U 1 ri1 , .5' . ITi: 'S Figure 1: Project Alignment Area Map (Thomas Guide Pages 1126, 1127, and 1107) . Acoustical Definitions - . . • . • -. Airborne sound is a rapid fluctuation of air pressure above and below — atmospheric levels. The loudest sounds the human ear can hear conformably is :- - approximately one trillion (a one with 12 zeros'following it) times the acoustic energy".. , - that the ear can barely detect. Because of this vast range, any attempt to represent the acoustic intensity of a particular sound on a linear scale becomes unwieldy. Because of ' this, a logarithmic ratio known as the decibel (dB) is commonly employed. A sound level of zero "0" dB is scaled such that it is defined as the threshold of human hearing and - would be barely audible to a human of normal hearing under extremely quiet listening - I . conditions and would correspond to a sound pressure level equal to the reference level. 1. . . . . . Most of the sounds we hear in the environment do, not consist of a single.':- — - frequency, but rather a broad band of frequencies differing in sound level. The . . - intensities of each frequency add to generate the sound we hear. The method . .,. commonly used to quantify environmental sounds consists of determining all of the.,.. - •- . .i; - frequencies of a sound according to a weighting system that reflects the nonlinear .. .. . .. response characteristics of the human ear. This is called "A" weighting, and the decibel . 5 . level measured is called the A-weighted sound level (or dBA). In practice, the level of a noise source is conveniently measured using a sound level meter that includes a filter , . . . .5 corresponding to the dBA curve.' • . •' .5- . .•.. • . • . ' Although the A-weighted sound level may adequately indicate the level of environmental noise at any instant in time community noise levels vary continuously ', .,. . • ... . , . . ...- . . ,- • • • ..• :.. ---., . .i .5• . . . S Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #1(3-10-99) ISE Report #99-009a - March 15, 1999 Page 3 Environmental noise includes a conglomeration of sounds from distant sources that create a relatively steady background noise in which no particular source is identifiable. For this type of noise, a single descriptor called the Leq (or equivalent sound level) is used. Leq is the energy-mean A-weighted sound level during a measured time interval. It is the 'equivalent' constant sound level that would have to be produced by a given source to equal the fluctuating level measured. To describe time-varying character of environmental noise, the statistical noise descriptors L10, L50, and L90 are commonly used. They are the noise levels equaled or exceeded during 10 percent, 50 percent, and 90 percent of a stated time. Sound levels associated with the L10 typically describe transient or short-term events, while levels associated with the L90 describe the steady state (or most prevalent) noise conditions. In addition, it is often desirable to know the acoustic range of the noise source being measured. This is accomplished through the maximum and minimum measured sound level (Lmax and Lmin) indicators. The Lmin value obtained for a particular monitoring location is often called the acoustic floor for that location. Applicable Significance Criteria Wildlife Habitat Regulations Construction and operational noise generated by this project is regulated by the United States Fish and Wildlife Service (U.S.F.W.S.) and the California Department of Fish and Game for its effect on federally endangered least Bell's vireo (Vireo be/Ill push/us) and the southwestern willow flycatcher (Empidonax trail/ii extrimus) and the federally threatened California gnatcatcher (Poliop ti/a california). Resource agencies have theorized that elevated noise levels can potentially mask songs of the least Bell's vireo which are used to attract mates and defend temtones. The San Diego Association of Governments (SANDAG) in a 1990 study entitled "Comprehensive Species Management Plan for the least Be/I's vireo" theoretically estimated that {traffic} noise levels above 60 dBA Leq in vireo breeding areas may sufficiently mask the vireo's song and potentially reduce the reproductive success of this species during their breeding season that occurs from March 1 to September 1. Since sustained noise exposure (indicated by the L90 metric) produces greater masking effects than intermittent peak levels, this report will analyze both effects. The SANDAG report conclusions were unclear as to the specific time interval of the measurement, but it is typically taken as one hour. Although research is on going regarding similar noise impacts to the southwestern willow flycatcher and California gnatcatcher, in the absence of species-specific data, these same study results are applied by the Service to this bird species as well. Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results - Week #1(3-10-99) ISE Report #99-009a March 15, 1999 Page 4 ES Analysis Methodology Existing Conditions Field Survey Three Larson Davis Model 700 ANSI Type 2 integrating sound level meters were used as the data collection devices. The meters were positioned at the locations shown below in Figure 2 and the accompanying matrix. J ' 4 . . .. ..\ . - 'intorosa Country CI / 30 / /A9ua #21' 00 . • . .•. •. . - . 0 . . S 2 rNT,MN 0 1/2 1 MILE I 10 I 00 0 1000 2000 3000 4000 FEET f i4L ,.ttI Figure 2: Project Area Topography (USGS 7.5 San Luis Rey Quadrangle 1:12000) Monitor Sta. Eng. Sta. No. GPS Lat GPS Lon Description ML #1 102+00 330 08.780 N 1170 18.195W Western end of alignment ML #2 113+00 330 08.826 N 1170 18.011 W Central point of alignment ML #3 n/a 330 08.952 N 1170 17.895 W Eastern end of alignment (ECR bridge crossing) ECR = El Camino Real Rd. EPE = Estimated Position En-or = 49' Mr. Doug Gettinger Cannon Road.Mitigation Monitoring Results -Week #1(3-10-99) ISE Report #99-009a March 15, 1999 Page 5 The meters were mounted on tripods roughly 5 feet above the ground and were calibrated before and after each field deployment. Each station was programmed to record and log the following noise metrics each hour: Leq-h, Lmax, Lmin, LIO, L50, and L90. Field Monitoring Results A minimal field survey was performed to ascertain construction noise levels within the habitat area due to light grading and ancillary activities. Several graders and dozers were observed during the monitoring period principally adjusting the rough grade of the roadway alignment. Testing conditions during the monitoring intervals were partly cloudy with an average barometric pressure reading of 29.85 in-Hg, an average northerly wind speed of 3 to 5 miles per hour (MPH), and an approximate mean temperature of 68 degrees Fahrenheit. The results of the sound level monitoring are shown below in Table 1. The values for the energy equivalent sound level (Leq), the maximum and minimum measured sound levels (Lmax and Lmin), and the statistical indicators L10, L50, and L90, are given for each monitoring location. Areas in excess of the 60-dBA Leq-h impact threshold are underlined. Table 1: Measured Construction Levels - Cannon Road West Alignment I Site Leq 1-Hour Noise Level Descriptors Lmax Lmin LIO in dBA L50 L90 11:30 am. ML 1 54.0 77.5 41.0 57.0 44.0 42.5 M.L2 60.5 77.5 43.5 64.0 54.5 47.0 ML 3 56.5 73.0 44.0 58.5 55.5 50.5 12:30 p.m. ML 1 49.5 71.5 40.5 51.0 43.5 42.0 ML 64.0 85.0 45.0 64.5 57.0 50.5 ML 3 56.0 67.0 44.0 58.5 55.0 50.5 1:30 p.m. ML 1 54.5 70.0 41.5 56.5 45.5 43.0 69.0 87.0 46.5 70.0 59.5 53.5 ML 3 56.5 73.0 44.5 59.0 55.5 51.5 Mr. Doug Gettinger Cannon Road Mitigation Monitoring Results -Week #1(3-10-99) ISE Report #99-009a March 15, 1999 - Page Measurements collected at monitoring locations ML 1 through ML 3 reflect typical sound levels associated with the community setting observed and the topography of the surrounding terrain. The only location that showed an exceedance was ML #2. This exceedance was due to the relatively close pass-bys of the grader. The duration of each pass-by was short enough such that the background noise level (L90) was 53 dBA or less enabling vireo communication over 90% of the time. Recommendations Monitoring Location #2 was found to have an energy average sound level (Leq- h) in excess of 60 dBA. This exceedance was due to grading operations close to the habitat boundary. The following mitigation measures are required: Grading or other operations close to the habitat boundary should utilize equipment with shielded exhaust stacks (i.e., modified exhaust stacks that point away from the habitat area). A plywood shielding enclosure readily constructed on-site would suffice to this end. If Item #1 is not implementable (as would be the case for non-standard equipment) then a temporary plywood noise barrier should be constructed near the working area. Idling of equipment near habitat should be kept to a minimum. Should you have any questions regarding the above conclusion, please do not hesitate to contact me at (619) 640-9379. Sincerely, Rick Tavares, EIT, REA, INCE 9 No. 06 9 Project Principal Investigative Science and Engineering 0. 4OFcu_'o,,,. Cc: Shem Howard, City of Carlsbad . Glen Laube, ISE