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Home My WebLink AboutAppendix H - Paleo Resources AssessmentPALEONTOLOGICAL ASSESSMENT FOR THE SOUTHRIDGE PROJECT CITY OF FONTANA SAN BERNARDINO COUNTY, CALIFORNIA APNs 237-411-13 and -14 Prepared for: New Bridge Homes 500 Newport Center Drive, Suite 570 Newport Beach, California 92660 Submitted to: City of Fontana Community Development Department 8353 Sierra Avenue Fontana, California 92335 Prepared by: Brian F. Smith and Associates, Inc. 14010 Poway Road, Suite A Poway, California 92064 March 21, 2022 Paleontological Assessment for the Southridge Project _____________________________________________________________________________________________________________________ Paleontological Database Information Author: Todd A. Wirths, M.S., Senior Paleontologist, California Professional Geologist No. 7588 Consulting Firm: Brian F. Smith and Associates, Inc. 14010 Poway Road, Suite A Poway, California 92064 (858) 679-8218 Report Date: March 21, 2022 Report Title: Paleontological Assessment for the Southridge Project, Fontana, San Bernardino County, California (APNs 237-411-13 and -14) Prepared for: New Bridge Homes 500 Newport Center Drive, Suite 570 Newport Beach, California 92660 Submitted to: City of Fontana Community Development Department 8353 Sierra Avenue Fontana, California 92335 Prepared by: Brian F. Smith and Associates, Inc. 14010 Poway Road, Suite A Poway, California 92064 USGS Quadrangle: USGS Fontana, California (7.5-minute), Section 35, Township 1 South, Range 6 West, San Bernardino Baseline and Meridian. Study Area: 37.8 acres Key Words: Paleontological assessment; surficial alluvial fan deposits; no sensitivity; no monitoring recommended; City of Fontana. Paleontological Assessment for the Southridge Project _____________________________________________________________________________________________________________________ Table of Contents Section Page I. INTRODUCTION AND LOCATION .......................................................................1 II. REGULATORY SETTING .......................................................................................1 State of California .....................................................................................................1 City of Fontana ..........................................................................................................4 III. GEOLOGY .................................................................................................................5 IV. PALEONTOLOGICAL RESOURCES......................................................................7 Definition ....................................................................................................................7 Fossil Locality Search ................................................................................................7 Project Survey ............................................................................................................8 V. PALEONTOLOGICAL SENSITIVITY ....................................................................8 Overview .....................................................................................................................8 Professional Standards ..............................................................................................8 City Assessment of Paleontological Sensitivity .........................................................9 VI. CONCLUSION AND RECOMMENDATIONS .......................................................9 Paleontological MMRP............................................................................................10 VII. CERTIFICATION ....................................................................................................12 VIII. REFERENCES CITED ...........................................................................................12 Appendices Appendix A – Qualifications of Key Personnel List of Figures Figure Page Figure 1 General Location Map .................................................................................2 Figure 2 Project Location Map ...................................................................................3 Figure 3 Geologic Map...............................................................................................6 Paleontological Assessment for the Southridge Project _____________________________________________________________________________________________________________________ 1 I. INTRODUCTION AND LOCATION A paleontological resource assessment has been completed for the Southridge Project (“project”), located southeast of the intersection of Live Oak Avenue and Village Drive in the southwestern portion of the city of Fontana, San Bernardino County, California (Figures 1 and 2). The project occupies two parcels (Assessor’s Parcel Numbers 237-411-13 and -14) totaling 37.8 acres. On the U.S. Geological Survey 7.5-minute, 1:24,000-scale Fontana, California topographic quadrangle map, the project is located in Section 35, Township 1 South, Range 6 West, of the San Bernardino Baseline and Meridian (Figure 2). The project parcels are currently occupied as industrial and residential properties. The construction of a residential development with a trailhead park, associated landscaping, and infrastructure is proposed for the project. As the lead agency, the City of Fontana has required the preparation of a paleontological assessment to evaluate the project’s potential to yield paleontological resources. The paleontological assessment of the project included a review of paleontological literature and fossil locality records for a previous project in the area; a review of the underlying geology; and recommendations to mitigate impacts to potential paleontological resources. II. REGULATORY SETTING The California Environmental Quality Act (CEQA), which is patterned after the National Environmental Policy Act, is the overriding environmental regulation that sets the requirement for protecting California’s paleontological resources. CEQA mandates that governing permitting agencies (lead agencies) set their own guidelines for the protection of nonrenewable paleontological resources under their jurisdiction. State of California Under “Guidelines for Implementation of the California Environmental Quality Act,” as amended in December 2018 (California Code of Regulations [CCR] Title 14, Division 6, Chapter 3, Sections 15000 et seq.), procedures define the types of activities, persons, and public agencies required to comply with CEQA. Section 15063 of the CCR provides a process by which a lead agency may review a project’s potential impact to the environment, whether the impacts are significant, and provide recommendations, if necessary. Paleontological Assessment for the Southridge Project _____________________________________________________________________________________________________________________ 4 In CEQA’s Environmental Checklist Form, one of the questions to answer is, “Would the project directly or indirectly destroy a unique paleontological resource or site or unique geologic feature?” (Appendix G, Section VII, Part f). This is to ensure compliance with California Public Resources Code Section 5097.5, the law that protects nonrenewable resources including fossils, which is paraphrased below: a) A person shall not knowingly and willfully excavate upon, or remove, destroy, injure or deface any historic or prehistoric ruins, burial grounds, archaeological or vertebrate paleontological site, including fossilized footprints, inscriptions made by human agency, rock art, or any other archaeological, paleontological or historical feature, situated on public lands, except with the express permission of the public agency having jurisdiction over such lands. b) As used in this section, “public lands” means lands owned by, or under the jurisdiction of, the state, or any city, county, district, authority, or public corporation, or any agency thereof. c) A violation of this section is a misdemeanor. City of Fontana In the final Environmental Impact Report (EIR) of the City of Fontana General Plan Update 2015–2035, two paleontological resource mitigation measures are specified, MM-CUL-4 and MM-CUL-5. MM-CUL-4 must be implemented before construction starts, while MM-CUL- 5 must be implemented before, during, and after construction (City of Fontana 2018a). The measures are as follows: MM-CUL-4 A qualified paleontologist shall conduct a pre-construction field survey of any project site within the Specific Plan Update area that is underlain by older alluvium. The paleontologist shall submit a report of findings that provide specific recommendations regarding further mitigation measures (i.e., paleontological monitoring) that may be appropriate. MM-CUL-5 Should mitigation monitoring of paleontological resources be recommended for a specific project within the project site, the program shall include, but not be limited to, the following measures: • Assign a paleontological monitor, trained and equipped to allow the rapid removal of fossils with minimal construction delay, to the site full-time during the interval of earth-disturbing activities. • Should fossils be found within an area being cleared or graded, earth- Paleontological Assessment for the Southridge Project _____________________________________________________________________________________________________________________ 5 disturbing activities shall be diverted elsewhere until the monitor has completed salvage. If construction personnel make the discovery, the grading contractor shall immediately divert construction and notify the monitor of the find. • All recovered fossils shall be prepared, identified, and curated for documentation in the summary report and transferred to an appropriate depository (i.e., San Bernardino County Museum). A summary report shall be submitted to the City of Fontana. Collected specimens shall be transferred with [a] copy of [the] report to [the] San Bernardino County Museum (City of Fontana 2018a). III. GEOLOGY The project is located at the foot of the northwestern corner of the Jurupa Mountains. The Jurupa Mountains are a part of the Perris tectonic block and constitute the northern-most portion of the Peninsular Ranges (MacKevett 1951; Morton 2003). The Jurupa Mountains mainly consist of Cretaceous granitic and pre-Cretaceous metamorphic rocks, with the lower slopes mantled by a sedimentary detritus of Pleistocene-aged alluvial fan deposits. The promontory just east of the project is composed of tonalite, a type of granitic rock, and was the setting of the former Declezville Quarry. The eastern edge of the project includes exposed tonalite (pink areas labeled as “Kt” in Figure 3, after Morton 2003). At the project, the eastern portion is mapped as artificial fill deposits (brown areas labeled as “Qaf” in Figure 3), consisting of quarry tailings of waste rock and earthen materials derived from activities at the adjacent Declezville Quarry (MacKevett 1951; Morton 2003; Lump and Walker 2021). The Declezville Quarry was the site of the extensive extraction of tonalite for building purposes, mostly for projects in Los Angeles County, and included a rail line to transport the tonalite. The rail line can be seen in Figures 2 and 3, and terminates within the project boundaries. The quarry ceased production in 1950 (MacKevett 1951). In a geotechnical investigation conducted for the eastern portion of the project (i.e., east of the railroad tracks indicated on Figures 2 and 3), Lump and Walker (2021) indicated a thickness as much as 15 feet for the artificial fill deposits. The western portion of the project consists of Holocene and late Pleistocene (present day to approximately 120,000 years ago [Cohen and Gibbard 2011]) young alluvial fan deposits of the Lytle Creek fan (light yellow areas labeled “Qyfl” in Figure 3), consisting of unconsolidated, gray, cobbly and bouldery alluvium. These alluvial deposits also likely underlie most or all the mapped artificial fill materials at the project’s eastern portion. Older Pleistocene-aged alluvial fan deposits (“Qof2” and “Qof1” on Figure 3) may also be present beneath the artificial fill, also consisting of coarse, cobbly and bouldery materials (Morton 2003). Paleontological Assessment for the Southridge Project _____________________________________________________________________________________________________________________ 7 Lump and Walker (2021) estimated a thickness of five to 20 feet for the alluvial deposits. The lower contact of the alluvial deposits is as much as 28 feet deep. Weathered tonalite is present beneath the alluvium, but in some areas, artificial fill has been placed directly on tonalite. Lump and Walker (2021) also indicated that some areas, now buried under artificial fill, appear to have had alluvial deposits subsequently graded away during quarry operations. Lump and Walker (2021) provided earthwork recommendations for the eastern portion of the proposed project: complete removal of the quarry tailings (artificial fill), as these materials were deemed unsuitable for building purposes; and over-excavation of native soils (alluvium) to an approximate depth of three or four feet, or depending on observed conditions and further testing, for the placement of compacted fill for the slab-on-grade structures. IV. PALEONTOLOGICAL RESOURCES Definition Paleontological resources are the remains of prehistoric life that have been preserved in geologic strata. These remains are called fossils and include bones, shells, teeth, and plant remains (including their impressions, casts, and molds) in the sedimentary matrix, as well as trace fossils such as footprints and burrows. Fossils are considered older than 5,000 years of age (Society of Vertebrate Paleontology 2010) but may include younger remains (subfossils) when viewed in the context of local extinction of the organism or habitat, for example. Fossils are considered a nonrenewable resource under state and local guidelines (Section II of this report). Fossil Locality Search A paleontological literature review and collections and records search was performed for the project with collection and locality records searches using reports obtained for prior nearby projects from the Division of Geological Sciences at the San Bernardino County Museum (SBCM), the Los Angeles County Museum of Natural History (LACM), the Western Science Center (WSC), and finally with data from published and unpublished paleontological literature. The records searches indicated that the LACM and the WSC have no known fossil localities within the project boundaries or near the project. However, several Pleistocene fossil localities held by the SBCM are known near the project. The closest fossil locality is a partial skull from Smilodon, the saber-toothed cat, located less than a mile away in the Declezville neighborhood, south of (or below) Jurupa Avenue approximately between Live Oak Avenue and Citrus Avenue (SBCM locality [loc.] 5.1.11; Reynolds, in Aron et al. 2018). Seven localities (SBCM locs. 5.1.14 - 5.1.17 and 5.1.19 - 5.1.21) lie about one-and-a-half miles northwest of the current project. The bones of large and small Pleistocene-age mammals as well as terrestrial snails and freshwater clams were recovered from these localities, mostly from clayey, silty sands from depths ranging from five to 21 feet below the surface, when recorded. Mammals from these localities include three species of rodents, cottontail rabbit, bison, camel, horse, mastodon, and other unidentified large mammal remains. Paleontological Assessment for the Southridge Project _____________________________________________________________________________________________________________________ 8 Project Survey Staff personnel from Brain F. Smith and Associates, Inc., under the direction of Principal Investigator Todd A. Wirths conducted a pedestrian survey of the project on March 9, 2022. Aerial photographs, maps, and a compass permitted orientation and location of project boundaries. Where possible, narrow transect paths were employed to ensure maximum lot coverage. All exposed ground was inspected for paleontological materials. A survey form and photographs documented the survey work undertaken. The entire eastern half of the property has been cleared and dirt trails run throughout. The eastern portion of Southridge Park and the base of the foothills east of the park are within the western half of the project. The eastern half of the project contains highly impacted slopes and the bases of low-lying foothills. The bedrock present within the project has been excavated, manually broken, and pushed into piles along with the existing topsoil. Generally, the vegetation encountered during the survey consisted of non-native weeds and grasses with eucalyptus and pine trees present throughout the Southridge Park (western) portion of the project. No paleontological resources, or evidence suggesting the presence of paleontological resources, were observed during the survey. V. PALEONTOLOGICAL SENSITIVITY Overview The degree of paleontological sensitivity of any particular area is based on a number of factors, including the documented presence of fossiliferous resources on a site or in nearby areas, the presence of documented fossils within a particular geologic formation or lithostratigraphic unit, and whether or not the original depositional environment of the sediments is one that might have been conducive to the accumulation of organic remains that might have become fossilized over time. Holocene alluvium is generally considered to be geologically too young to contain significant nonrenewable paleontological resources (i.e., fossils) and is thus typically assigned a low paleontological sensitivity. Pleistocene (over 11,700 years old) alluvial and alluvial fan deposits in the Inland Empire, however, often yield important terrestrial vertebrate fossils, such as extinct mammoths, mastodons, giant ground sloths, extinct species of horse, bison, camel, saber-toothed cats, and others (Jefferson 1991). These Pleistocene sediments are thus accorded a High paleontological resource sensitivity. Professional Standards The Society of Vertebrate Paleontology (SVP 2010) has drafted guidelines that include four categories of paleontological sensitivity for geologic units (formations) that might be impacted by a proposed project, as listed below: Paleontological Assessment for the Southridge Project _____________________________________________________________________________________________________________________ 9 • High Potential: Rock units from which vertebrate or significant invertebrate, plant, or trace fossils have been recovered. • Undetermined Potential: Rock units for which little information is available concerning their paleontological content, geologic age, and depositional environment, and that further study is needed to determine the potential of the rock unit. • Low Potential: Rock units that are poorly represented by fossil specimens in institutional collections or based on a general scientific consensus that only preserve fossils in rare circumstances. • No Potential: Rock units that have no potential to contain significant paleontological resources, such as high-grade metamorphic rocks and plutonic igneous rocks. Using these criteria, despite the presence of significant, nearby fossil localities, the Holocene to late Pleistocene young alluvial fan deposits mapped at the project may be considered to have a low potential to yield significant paleontological resources. The coarse nature of the alluvium and the project’s proximity to the source of the deposits (the Jurupa Mountains) are usually prohibitive to the preservation of vertebrate fossils. The artificial fill and tonalite have no potential to yield fossils. City Assessment of Paleontological Sensitivity Section 5.4.1.5 of the City of Fontana’s draft EIR for the General Plan (City of Fontana 2018b) describes the paleontological sensitivity of the strata underlying the city. Based on Pleistocene vertebrate fossils recovered from the city’s southwestern area (SBCM locs. 5.1.11, 5.1.14 - 5.1.17, and 5.1.19 - 5.1.21), subsurface “older fan” Pleistocene deposits are considered by the City to have a high potential for yielding fossils. The overlying “younger fan” deposits at the surface are considered by the City as having no potential to yield significant paleontological resources. VI. CONCLUSIONS AND RECOMMENDATIONS The project is characterized as partly covered by an artificial deposit of quarry tailings (artificial fill) of variable thickness derived from rock quarry operations that took place during the early to mid-twentieth century. These artificial fill deposits overlie Holocene and late Pleistocene-aged young alluvial fan deposits, which are mapped at the surface on the west side of the project. Some areas of alluvium appear to have been graded away during quarry operations, prior to the placement of fill materials. In turn, the young alluvial deposits, when present, overlie weathered tonatitic bedrock, while in other areas, artificial fill has been placed on tonalite. Geotechnical recommendations for the project included the complete removal of the artificial fill and over-excavation of the alluvium by approximately three to four feet in proposed structure foundation areas, depending on actual conditions (Lump and Walker 2021). Paleontological Assessment for the Southridge Project _____________________________________________________________________________________________________________________ 10 Given the coarse nature and young age of the alluvium, the proximity of the alluvial deposits to the mountain source, the shallow depths proposed for construction, and an assignment of no paleontological potential for surficial young alluvial deposits by the City (City of Fontana 2018b), paleontological monitoring is not recommended during earth-disturbance activities at the project. Similarly, paleontological monitoring is not warranted for tonalite, artificial fill, or any disturbed soils. However, if fossils of any sort are discovered during grading and earthmoving activities, a paleontologist must be retained to develop a paleontological Mitigation Monitoring and Reporting Program (MMRP) consistent with the provisions of CEQA, those of the City of Fontana (2018a), and those of the guidelines of the SVP (2010). Implementation of the paleontological MMRP would mitigate any adverse impacts (loss or destruction) to potential nonrenewable paleontological resources, if present, to a level below significant. Paleontological MMRP The following paleontological MMRP guidelines, outlined below, are based on the findings stated above. Paleontological monitoring may be reduced on the observations and recommendations of the professional-level project paleontologist. The following MMRP, when implemented, would reduce potential impacts of paleontological resources to a level below significant: 1. If a fossil(s) is found, earth disturbance activities should be halted within a radius of 50 feet from the location of the fossil, and a project-level paleontologist shall be consulted to determine the significance of the fossilized remains. If the fossil is deemed significant by the project-level paleontologist, full-time monitoring should be initiated at the project 2. Monitoring of mass grading and excavation activities shall be performed by a qualified paleontologist or paleontological monitor. Monitoring shall be conducted in areas of grading or excavation in undisturbed sediments of alluvial fan deposits, at the discretion of the project paleontologist. 3. Paleontological monitors will be equipped to salvage fossils as they are unearthed to avoid construction delays. The monitor must be empowered to temporarily halt or divert equipment to allow removal of abundant or large specimens in a timely manner. Monitoring may be reduced if the potentially fossiliferous units are not present in the subsurface, or, if present, are determined on exposure and examination by qualified paleontological personnel to have low potential to contain fossil resources. The monitor shall notify the project paleontologist, who will then notify the concerned parties of the discovery. 4. Paleontological salvage during trenching and boring activities is typically from the generated spoils and does not delay the trenching or drilling activities. Fossils are Paleontological Assessment for the Southridge Project _____________________________________________________________________________________________________________________ 11 collected and placed in cardboard flats or plastic buckets and identified by field number, collector, and date collected. Notes are taken on the map location and stratigraphy of the site, which is photographed before it is vacated, and the fossils are removed to a safe place. On mass grading projects, discovered fossil sites are protected by flagging to prevent them from being overrun by earthmovers (scrapers) before salvage begins. Fossils are collected in a similar manner, with notes and photographs being taken before removing the fossils. Precise location of the site is determined with the use of handheld GPS units. If the site involves remains from a large terrestrial vertebrate, such as large bone(s) or a mammoth tusk, that is/are too large to be easily removed by a single monitor, a fossil recovery crew shall excavate around the find, encase the find within a plaster and burlap jacket, and remove it after the plaster is set. For large fossils, use of the contractor’s construction equipment may be solicited to help remove the jacket to a safe location. 5. Isolated fossils are collected by hand, wrapped in aluminum foil, and placed in temporary collecting flats or five-gallon buckets. Notes are taken on the map location and stratigraphy of the site, which is photographed before it is vacated, and the fossils are removed to a safe place. 6. Particularly small invertebrate fossils typically represent multiple specimens of a limited number of organisms, and a scientifically suitable sample can be obtained from one to several five-gallon buckets of fossiliferous sediment. If it is possible to dry screen the sediment in the field, a concentrated sample may consist of one or two buckets of material. For vertebrate fossils, the test is usually the observed presence of small pieces of bones within the sediments. If present, multiple five-gallon buckets of sediment can be collected and returned to a separate facility to wet-screen the sediment. 7. In accordance with the “Microfossil Salvage” section of the Society of Vertebrate Paleontology guidelines (2010:7), bulk sampling and screening of fine-grained sedimentary deposits (including carbonate-rich paleosols) must be performed if the deposits are identified to possess indications of producing fossil “microvertebrates” to test the feasibility of the deposit to yield fossil bones and teeth. 8. In the laboratory, individual fossils are cleaned of extraneous matrix, any breaks are repaired, and the specimen, if needed, is stabilized by soaking in an archivally approved acrylic hardener (e.g., a solution of acetone and Paraloid B-72). 9. Recovered specimens are prepared to a point of identification and permanent preservation (not display), including screen-washing sediments to recover small invertebrates and vertebrates. Preparation of individual vertebrate fossils is often more time-consuming than for accumulations of invertebrate fossils. 10. Identification and curation of specimens into a professional, accredited public museum repository with a commitment to archival conservation and permanent Paleontological Assessment for the Southridge Project _____________________________________________________________________________________________________________________ 13 meters. https://server.arcgisonline.com/ArcGIS/rest/services/Specialty/DeLorme_World _Base_Map/MapServer Jefferson, G.T. 1991. A catalogue of late Quaternary vertebrates from California: Part two, mammals. Natural History Museum of Los Angeles County, Technical Reports, no. 7: i-v + 1-129. Lump, E., and Walker, G.R. 2021. Feasibility/Due Diligence-Level Geotechnical Assessment, Live Oak Project, Undeveloped Land Southeast of Live Oak Drive and Village Drive, Assessor’s Parcel Number (APN) 0237-411-14, City of Fontana, San Bernardino County, California. Unpublished consulting report prepared for Newbridge Homes, Newport Beach, California, by Petra Geosciences, Temecula, California. MacKevett, E.M. 1951. Geology of the Jurupa Mountains, San Bernardino and Riverside Counties, California. Division of Mines Special Report No. 5, State of California Dept. of Natural Resources, San Francisco. Morton, D.M. 2003. Preliminary geologic map of the Fontana 7.5' Quadrangle, San Bernardino and Riverside Counties, California, Version 1.0: U. S. Geological Survey Open-File Report 03-418, scale 1:24,000. Reynolds, R.E. 2018. West Valley Connector, Geology and Paleontological Resources, in Aron, G., Richards, C., and Webster, B., Paleontological Identification Report and Evaluation Report, West Valley Connector Project. Unpublished consulting report prepared for the San Bernardino County Transportation Authority, by Paleo Solutions, Inc., Monrovia, California. Society of Vertebrate Paleontology. 2010. Standard procedures for the assessment and mitigation of adverse impacts to paleontological resources; by the SVP Impact Mitigation Guidelines Revision Committee: http://vertpaleo.org/Membership/Member-Ethics/SVP_Impact_ Mitigation_Guidelines.aspx. United States Geological Survey. 1980. Fontana, California (USGS 7.5´ quadrangle series). Paleontological Assessment for the Southridge Project _____________________________________________________________________________________________________________________ APPENDIX A Qualifications of Key Personnel To dd A. W ir ths , MS, PG No. 7588 Senior Paleontologist Brian F. Smith and Associates, Inc. 14010 Poway Road Suite A Phone: (858) 679-8218 Fax: (858) 679-9896 E-Mail: twirths@bfsa-ca.com Education Master of Science, Geological Sciences, San Diego State University, California 1995 Bachelor of Arts, Earth Sciences, University of California, Santa Cruz 1992 Professional Certifications California Professional Geologist #7588, 2003 Riverside County Approved Paleontologist San Diego County Qualified Paleontologist Orange County Certified Paleontologist OSHA HAZWOPER 40-hour trained; current 8-hour annual refresher Professional Memberships Board member, San Diego Geological Society San Diego Association of Geologists; past President (2012) and Vice President (2011) South Coast Geological Society Southern California Paleontological Society Experience Mr. Wirths has more than a dozen years of professional experience as a senior-level paleontologist throughout southern California. He is also a certified California Professional Geologist. At BFSA, Mr. Wirths conducts on-site paleontological monitoring, trains and supervises junior staff, and performs all research and reporting duties for locations throughout Los Angeles, Ventura, San Bernardino, Riverside, Orange, San Diego, and Imperial Counties. Mr. Wirths was formerly a senior project manager conducting environmental investigations and remediation projects for petroleum hydrocarbon- impacted sites across southern California. Selected Recent Reports 2019 Paleontological Assessment for the 10575 Foothill Boulevard Project, City of Rancho Cucamonga, San Bernardino County, California. Prepared for T&B Planning, Inc. Report on file at Brian F. Smith and Associates, Inc., Poway, California. 2019 Paleontological Assessment for the MorningStar Marguerite Project, Mission Viejo, Orange County, California. Prepared for T&B Planning. Report on file at Brian F. Smith and Associates, Inc., Poway, California. Brian F. Smith and Associates, Inc. 2 2019 Paleontological Monitoring Report for the Nimitz Crossing Project, City of San Diego. Prepared for Voltaire 24, LP. Report on file at Brian F. Smith and Associates, Inc., Poway, California. 2019 Paleontological Resource Impact Mitigation Program (PRIMP) for the Jack Rabbit Trail Logistics Center Project, City of Beaumont, Riverside County, California. Prepared for JRT BP 1, LLC. Report on file at Brian F. Smith and Associates, Inc., Poway, California. 2020 Paleontological Monitoring Report for the Oceanside Beachfront Resort Project, Oceanside, San California. Prepared for S.D. Malkin Properties. Report on file at Brian F. Smith and Associates, Inc., Poway, California. 2020 Paleontological Resource Impact Mitigation Program for the Nakase Project, Lake Forest, Orange County, San California. Prepared for Glenn Lukos Associates, Inc. Report on file at Brian F. Smith and Associates, Inc., Poway, California. 2020 Paleontological Resource Impact Mitigation Program for the Sunset Crossroads Project, Banning, Riverside County. Prepared for NP Banning Industrial, LLC. Report on file at Brian F. Smith and Associates, Inc., Poway, California. 2020 Paleontological Assessment for the Ortega Plaza Project, Lake Elsinore, Riverside County. Prepared for Empire Design Group. Report on file at Brian F. Smith and Associates, Inc., Poway, California. 2020 Paleontological Resource Record Search Update for the Green River Ranch III Project, Green River Ranch Specific Plan SP00-001, City of Corona, California. Prepared for Western Realco. Report on file at Brian F. Smith and Associates, Inc., Poway, California. 2020 Paleontological Assessment for the Cypress/Slover Industrial Center Project, City of Fontana, San Bernardino County, California. Prepared for T&B Planning, Inc. Report on file at Brian F. Smith and Associates, Inc., Poway, California. 2020 Paleontological Monitoring Report for the Imperial Landfill Expansion Project (Phase VI, Segment C-2), Imperial County, California. Prepared for Republic Services, Inc. Report on file at Brian F. Smith and Associates, Inc., Poway, California. 2021 Paleontological Assessment for the Manitou Court Logistics Center Project, City of Jurupa Valley, Riverside County, California. Prepared for Link Industrial. Report on file at Brian F. Smith and Associates, Inc., Poway, California. 2021 Paleontological Resource Impact Mitigation Program for the Del Oro (Tract 36852) Project, Menifee, Riverside County. Prepared for D.R. Horton. Report on file at Brian F. Smith and Associates, Inc., Poway, California. 2021 Paleontological Assessment for the Alessandro Corporate Center Project (Planning Case PR-2020- 000519), City of Riverside, Riverside County, California. Prepared for OZI Alessandro, LLC. Report on file at Brian F. Smith and Associates, Inc., Poway, California. 2021 Paleontological Monitoring Report for the Boardwalk Project, La Jolla, City of San Diego. Prepared for Project Management Advisors, Inc. Report on file at Brian F. Smith and Associates, Inc., Poway, California.