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CC SR 20171108 E - PVPLC 2016 Annual Report
RANCHO PALOS VERDES CITY COUNCIL AGENDA REPORT AGENDA DESCRIPTION: MEETING DATE: 11/08/2017 AGENDA HEADING: Consent Calendar Consideration and possible action to receive and file the 2016 Annual Report submitted by the Palos Verdes Peninsula Land Conservancy (PVPLC) regarding its management activities for the Palos Verdes Nature Preserve RECOMMENDED COUNCIL ACTION: (1) Receive and file the 2016 PVPLC Annual Report. FISCAL IMPACT: None Amount Budgeted: N/A Additional Appropriation: N/A Account Number(s): N/A ORIGINATED BY: Katie Lozano, Administrative Analyst/Open Space Manager, ' REVIEWED BY: Cory Linder, Director of Recreation and Parksf APPROVED BY: Doug Willmore, City Manager ATTACHED SUPPORTING DOCUMENTS: A. 2016 PVPLC Annual Report (page A-1) BACKGROUND AND DISCUSSION: The City's Draft Natural Communities Conservation Plan (NCCP) calls for the Palos Verdes Peninsula Land Conservancy (PVPLC) to serve as the City's habitat manager for the Palos Verdes Nature Preserve (Preserve). In this capacity, PVPLC is required by the draft NCCP to submit certain annual reports to the City and resource agencies (the California Department of Fish and Wildlife and the U.S. Fish and Wildlife Service). Specifically, PVPLC is required to submit a monitoring report on its habitat restoration areas in the Preserve and on its exotic plant removal efforts. Pursuant to the draft NCCP approved by the City Council in 2004 and the formal management agreement authorizing PVPLC to manage and restore Preserve habitat on behalf of the City, PVPLC has submitted, for the City Council's acceptance, the 2016 Annual Report summarizing the PVPLC's management activities pursuant to the management agreement in the Preserve (Attachment A). A link to an electronic copy of the 2016 Annual Report was provided to the City Council via email on October 23, 2017. 1 The PVPLC Annual Report covers the period between January 1, 2016, and December 31, 2016. The Annual Report describes PVPLC's habitat management activities relating to habitat enhancement and restoration; property maintenance and monitoring; vegetation and wildlife monitoring; trail management and monitoring; and volunteer involvement during the 2016 calendar year. The 2016 PVPLC Annual Report includes the following sub reports (see Attachment A): • Habitat Restoration Monitoring • Restoration Plans • 2016 Targeted Exotic Removal Program for Plants (TERPP) • Scientific Research and Wildlife Monitoring • Volunteer Involvement • Trail Management and Monitoring o Unauthorized Trail Closures (Appendix G) o Future Trails Project List (Appendix H) According to the cover letter from PVPLC Executive Director Andrea Vona, the Annual Report is consistent with the reporting requirements of the draft NCCP. Furthermore, the resource agencies have reviewed and accepted the Annual Report as presented. Staff has reviewed the Annual Report and agrees that it is consistent with PVPLC's Preserve habitat management responsibilities. As a means of notifying the public and interested parties regarding the 2016 Annual Report, on October 26, 2017, an email was sent to the subscribers of the Palos Verdes Nature Preserve listserv, announcing the availability of the 2016 Annual Report (with a link to view the document), and the November 8, 2017, City Council meeting at which it would be presented. On November 1, 2017, the document was posted on the City's website. Hard copies are also available at City Hall and Hesse Park for public review upon request. To date, no public comments have been submitted to the City. ALTERNATIVES: In addition to the Staff recommendation, the following alternative action is available for the City Council's consideration: Provide direction to Staff and/or PVPLC regarding City Council or community concerns about the 2016 Annual Report. 2 August 22, 2017 PRESERVING LAND AND RESTORING HABITAT FOR THE EDUCATION AND ENJOYMENT OF ALL Ara Mihranian Community Development Director City of Rancho Palos Verdes 30940 Hawthorne Boulevard Rancho Palos Verdes, CA 90275 Re: Palos Verdes Nature Preserve Annual Report for January 1, 2016 to December 31, 2016 for the Rancho Palos Verdes Draft Natural Community Conservation Plan and Habitat Conservation Plan Dear Mr. Mihranian, This letter is to confirm that 2016 Palos Verdes Nature Preserve Annual Report for the Rancho Palos Verdes Draft Natural Community Conservation Plan and Habitat Conservation Plan has been approved by the Wildlife Agencies. A copy of this report was delivered to Rancho Palos Verdes City Hall. An additional appendix needed in the Report, which the City of Rancho Palos Verdes should provide, is the habitat tracking matrix. Please contact me with any questions. Thank you! Ad i 1aI Adrienne Mohan Conservation Director Andrea Vona Executive Director 916 SILVER SPUR ROAD # 207. ROLLING HILLS ESTATES. CA 90274-3826 T 310.541.7613 WWW.PVPLC.ORG A-1 PALOS VERDES PENINSULA a r . I - a - PO Box 3427 Palos Verdes Peninsula, California 90274 T 310-541-7613 F 310-541-7623 www.pvpic.org January -- December 2016 PALOSVERDES NATURE PRESERVE ANNUAL REPORT FOR THE RANCHO PALOS VERDES NATURAL COMMUNITY CONSERVATION PLAN May 2017 A-2 Page Ji 2016 ANNUAL REPORT TABLE OF CONTENTS INTRODUCTION............................................................................................................................. AnnualSubmittals................................................................................... 2 SiteDescription................................................................................................................................ 2 2 HABITAT RESTORATION.......................................................................................................... 3 Portuguese Bend Reserve.............................................................................................................. 4 AltaVicente Reserve....................................................................................................................... 8 3 ADDITIONAL RESTORATION................................................................................................. 10 AbaloneCove.................................................................................................................................... 10 AguaAmarga..................................................................................................................................... 10 VicenteBluffs..................................................................................................................................... 10 PortugueseBend............................................................................................................................... 17 4 MONITORING.................................................................................................................................... 12 RestorationMonitoring................................................................................................................... 12 CoveredSpecies............................................................................................................................... 13 MonitoringCity Projects................................................................................................................ 13 5 UTILITY AND CONTRACTOR ACCESS........................................................................... 14 6 TARGETED EXOTIC REMOVAL PROGRAM FOR PLANTS .................................... 15 7 BRUSH CLEARANCE..................................................................................................................... 15 8 SCIENTIFIC RESEARCH AND CITIZEN SCIENCE ............................................ 15 9 TRAIL MANAGEMENT AND MONITORING................................................................... 16 Preserve Trails Plan......................................................................................................................... 16 TrailManagement............................................................................................................................. 16 Unauthorized Trail Closures......................................................................................................... 17 TrailRepair........................................................................................................................................ 17 TrailMonitoring................................................................................................................................ 18 VolunteerTrail Watch.................................................................................................................... 19 10 VOLUNTEER INVOLVEMENT............................................................................................... 19 Palos Verdes Peninsula Land Conservancy A-3 Page Iii ABILITY TO ACCOMPLISH MANAGEMENT GOALS .............................................. 19 12 FUNDING NEEDS........................................................................................................................ 20 13 OFFICERS AND STAFF.............................................................................................................. 22 TABLES 1. Reserve Names of the Palos Verdes Nature Preserve ..................................................... 3 2. Restoration Project Schedule for Portuguese Bend Reserve Phases 1-5 ..................... 6 3. Restoration Project Schedule for Alta Vicente Reserve Phases 3 and 4 ...................... 8 4. Restoration Project Schedule for Additional Restoration in Palos Verdes Nature Preserve...................................................................................................................................... 12 FIGURES I. Map of the Palos Verdes Nature Preserve with Associated Reserves Locations...... 5 2. Map of Restoration Areas at Portuguese Bend Reserve ................................................. 7 3. Map of Restoration Areas at Alta Vicente Reserve.......................................................... 9 4. Site Map for All Restoration Projects in the Palos Verdes Nature Preserve ............. I I 5. 2015 Unauthorized Trail Closures at Portuguese Bend ................................. 17 APPENDICES A. Restoration Monitoring B. Alta Vicente NCCP Restoration Plan C. All Restoration Projects D. 2016 Targeted Exotic Removal Program for Plants E. Research and Monitoring F. Volunteer Programs G. Unauthorized Trail Closures H. Future Trails Projects List I. PVNP Signage Designs J. Habitat Impacts K. Preserve Night Hikes Palos Verdes Peninsula Land Conservancy A-4 Page I i 1.0 INTRODUCTION The 2016 Palos Verdes Nature Preserve Report for the Rancho Palos Verdes Natural Community Conservation Plan provides annual submittal requirements by the Palos Verdes Peninsula Land Conservancy (PVPLC) for the Palos Verdes Nature Preserve (Preserve). Additionally this report details stewardship activities, research, funding, and community involvement in the Preserve during the period January I, 2016 through December 31, 2016. PVPLC provides habitat management for the Palos Verdes Nature Preserve (Preserve) for the City of Rancho Palos Verdes (RPV). The Preserve encompasses approximately 1,400 acres and is located on the southern side of the Palos Verdes Peninsula in the City of Rancho Palos Verdes, California. The Preserve was formed under a Draft Natural Community Conservation Plan (NCCP) to "maximize benefits to wildlife and vegetation communities while accommodating appropriate economic development within the City and region pursuant to the requirements of the NCCP Act and Section 10(a) of the ESA (URS 2004a)." As a primary component of the NCCP, a Preserve design was proposed to conserve regionally important habitat areas and provide habitat linkages in order to benefit sensitive plants and wildlife. PVPLC manages the habitat in the Preserve per the requirements of the draft NCCP and under a management agreement with the City. The primary focus of management for the Preserve is to maintain or restore habitat for the covered plant and animal species listed in the draft NCCP. A Habitat Management Plan was adopted in 2007 that outlines the restoration of 5 acres per year for a total of 15 acres over a three-year period. This plan also outlined the methodology for removal of exotic plant species, a predator control plan, and the monitoring of covered plant and animal species. The plan outlined restoration of 15 acres at Alta Vicente Reserve. However, after the 2009 fire at Portuguese Bend, restoration shifted focused to this reserve, and a restoration plan was developed for 25 acres at Portuguese Bend Reserve. The 25 acre Portuguese Bend project has been implemented and the remaining acreage at Alta Vicente Reserve will be completed in the coming years. PVPLC seeks additional funding when possible, to perform restoration on more than the minimum 5 acres per year required in the NCCP. Several opportunities of this nature occurred during the reporting period that enabled PVPLC to conduct additional restoration. PVPLC also facilitates scientific research and trail maintenance projects in the Preserve. Volunteers make up a large component of the management strategies for the Preserve. They assist in monitoring the properties, wildlife, and habitat as well as help restore habitat and maintain trails. Collaborating with regional high schools and colleges allows for scientific research that expands our understanding of the Preserve. Palos Verdes Peninsula Land Conservancy A-5 Page 1 z The NCCP Implementing Agreement has not been signed by the regulatory agencies, and therefore, the NCCP is technically not officially executed. However, because it is anticipated that this agreement and federal/state permits will be signed in the near future, this annual report is intended function as the framework management and monitoring plan for the upcoming federal/state NCCP and has been provided to satisfy the requirements the Management Agreement between PVPLC and the City. Annual reporting requirements for the Draft NCCP are detailed below and will be updated once the final NCCP is approved. Additionally, once every three years, a Comprehensive Report is required under the NCCP. To date, three Comprehensive Reports have been completed, covering the periods 2007 through 2009, 2010 through 2012, and 2013 through 2015. Annual Submittals (Included in This Report) I. A monitoring report on habitat restoration areas using standard monitoring protocol as detailed in the Preserve Habitat Restoration Plan 2. Report on Targeted Exotic Removal Program for Plants (TERPP) 3. Report on trail maintenance activities 4. Volunteer involvement and support 5. Scientific research Site Description The Preserve is located on the southern side of the Palos Verdes Peninsula in the City of Rancho Palos Verdes, California (Figure 1). The approximately 1,400 -acre Preserve has been divided into ten areas referred to as Reserves. The topography of the Preserve is diverse, ranging from relatively flat lowland areas above steep coastal bluffs in the south, to very steep slopes, ridgelines and gullies on the slopes to the north. Elevations range from approximately sea level along the coastal edges of Vicente Bluffs, Abalone Cove, and Ocean Trails to approximately 1,300 feet above mean sea level at the northern most parcel, vista del Norte. Adjacent land uses include single-family residences on most sides, open space associated with neutral lands on the Peninsula, the Pacific Ocean to the south and west, and the Los Verdes and Trump National golf courses near the western and eastern ends of the Preserve area. Palos Verdes Peninsula Land Conservancy A-6 ^ a Ali '� r'� % w• � i. �'� t � rr d. `u[1 n G,� �, i."u3t`Y ! �A•: � 31 94 i'� �7Li '1,'•A ��3 n t FL e - 1 t eh •, t ^ a Ali '� r'� % w• � i. �'� t � rr d. `u[1 n G,� �, i."u3t`Y ! �A•: � 31 94 i'� �7Li '1,'•A ��3 n t FL e Page 14 Table I Reserve Names of the Palos Verdes Nature Preserve. See Figure I for locations. Abalone Cove Reserve Portuguese Bend Reserve Agua Amarga Reserve San Ramon Reserve Alta Vicente Reserve Three Sisters Reserve Filiorum Reserve Vicente Bluffs Reserve Forrestal Reserve Vista del Norte Reserve Ocean Trails Reserve* *Not managed by PVPLC 2.0 HABITAT RESTORATION PLAN The initial Preserve Habitat Management Plan (PHMP) for the Draft NCCP was created in 2007. A component of the PHMP was the Habitat Restoration Plan for five acres per year for a total of 15 acres over the first three-year period. This plan was completed in April 2007 and concluded that Alta Vicente Reserve in the Preserve ranked the highest in terms of site suitability for an immediate restoration project. The Habitat Restoration Plan for Alta Vicente Reserve outlines appropriate revegetation locations and methodology to adequately comply with the Preserve Management requirements of the Rancho Palos Verdes NCCP. The Habitat Restoration Plan for Alta Vicente Reserve provides guidelines for the establishment of coastal sage scrub (CSS), coastal cactus scrub (CCS), and PVB butterfly habitat on a total of 15 acres during 3 consecutive years at the Alta Vicente Reserve. However, since a fire occurred at Portuguese Bend Reserve in August 2009, plans were adapted to focus immediate restoration at Portuguese Bend, and only Phase I and 2 (10 acres) were implemented at Alta Vicente. The Restoration Plan for Portuguese Bend covers restoration and monitoring of 25 acres over 5 years (20 10 to 2015). The following provides a brief description of work done to fulfill the NCCP during the reporting period. Table 2 provides the implementation schedule for Phase I through 5 at Portuguese Bend. In 2015, PVPLC developed new restoration plans to execute the final phases of the restoration at Alta Vicente, and were included in the 2015 Comprehensive Report. Phase 3 was initiated in 2016, Palos Verdes Peninsula Land Conservancy A-8 Page 15 with the installation of drip irrigation and coastal sage scrub vegetation species. Table 3 provides the implementation schedule for Phase 3 and 4 at Alta Vicente. 2.1 PORTUGUESE BEND RESERVE RESTORATION The restoration plan for Portuguese Bend is to complete 25 acres in five phases (Table 2, Figure 2). Site preparation at Portuguese Bend began in February 2010. Field staff weeded (hand/herbicide) the burn area in 2010. In February, 2011, goats were deployed to clear vegetation. Due to the high density of weeds, an additional year of weeding was implemented, and plants were installed on ten acres in fall 2012 (Phase I and Phase 2). PVPLC obtained permission from the City to irrigate to enable "grow and kill" prior to plant installation, and improve seed and plant survival after planting. Phases 1, 2 and 3 were irrigated with overhead sprinklers. Drip irrigation was installed for Phases 4 in fall 2014 and for Phase 5 in fall 2015, coinciding with the plant installation for those phases. Weed control is implemented in all phases for five years minimum after they are initiated. Palos Verdes Peninsula Land Conservancy A-9 Page 16 Table 2 Restoration Project Schedule for Portuguese Bend Reserve Phases I, 2, 3, 4 and 5, based on the Portuguese Bend Reserve Habitat Restoration Plan. N Task Date LU Begin site preparation, weed removal Fall 2010 Q Install irrigation Winter 2012 aFinal site preparation: weed and thatch removal Fall 2012 M Installation: Seeding and planting Fall 2012 -Early Winter 2013 N Maintenance weeding Winter 2013 -Spring 2014 W Q Fill-in planting, as needed Fall 2013 -Fall 2014 = 5 -year biological monitoring and maintenance Spring 2013 -Spring 2017 IL Phase one and two completion 2017, end of Year 5 Site preparation, weed removal Fall 2012 -Fall 2013 Final site preparation: weed and thatch removal Fall 2013 LU Installation: Seeding and planting Fall 2013 -Early Winter 2014 a Maintenance weeding Winter 2014 -Spring 2015 = a Remedial seeding, as needed Fall 2014 -Fall 2015 5 -year biological monitoring and maintenance Spring 2014 -Spring 2018 Phase three completion 2018, end of Year 5 Site preparation, weed removal Fall 2013 -Fall 2014 Final site preparation: weed and thatch removal Fall 2014 W Installation: Seeding and planting Fall 2014 -Early Winter 2015 a Maintenance weeding Winter 2015 -Spring 2016 = CL Remedial seeding, as needed Fall 2015 -Fall 2016 5 -year biological monitoring and maintenance Spring 2015 -Spring 2019 Phase 4 completion 2019, end of Year 5 Site preparation, weed removal Fall 2014 -Fall 2015 Final site preparation: weed and thatch removal Fall 2015 LU Installation: Seeding and planting Fall 2015 -Early Winter 2016 N Q Maintenance weeding Winter 2016 -Spring 2017 = a Remedial seeding, as needed Fall 2016 -Fall 2017 5 -year biological monitoring and maintenance Spring 2016 -Spring 2020 Phase 5 completion 2020, end of Year 5 Palos Verdes Peninsula Land Conservancy A-10 Page 17 Figure 2. Map of restoration areas at Portuguese Bend Reserve. z 16 'tT e� LO`I - Palos Verdes Peninsula Land Conservancy A-11 Page 18 2.2 ALTA VICENTE RESERVE RESTORATION The habitat restoration conducted at the Alta Vicente Reserve consists of four phases, with one phase initiated each year. The first five acres of restoration (Phase 1) began with site preparation during the fall of 2007 and 2008 to minimize weeds after planting (as per the timeline in the Alta Vicente Restoration Plan, Table 2). Phase I plants were installed and hydroseeded during the winter of 2009/2010. Site preparation for Phase 2 began in fall 2008. In December 2010, staff removed Acacia cyclops and completed planting and seeding in the Phase 2 area. Staff weeded and maintained Phase I and 2. Additional container plants were installed from 2012 to 2014 to fill in areas with low native plant cover. Phase 3 (Figure 3) was initiated in fall 2016 with the installation of drip irrigation system and container plants throughout the 5 acre area. Year I monitoring will begin in spring 2017. Table 3 Restoration Project Schedule for Alta Vicente Reserve, based on the Alta Vicente Reserve Habitat Restoration Plan. Palos Verdes Peninsula Land Conservancy A-12 Task Date Begin site preparation, weed removal Fall 2016 LU Install irrigation Fall 2016 a Planting Container Stock Fall and Early Winter 2016 = IL Seed application Fall and Early Winter 2017 Monitoring and Maintenance To begin after planting, Winter 2016 5 -year biological monitoring and maintenance Spring 2017 -Spring 2021 Begin site preparation, weed removal Summer 2017 Install irrigation Fall 2017 FA Planting Container Stock Fall and Early Winter 2017 a Seed application Fall and Early Winter 2017 IL Monitoring and Maintenance To begin after planting, Winter 2017 5 -year biological monitoring and maintenance Spring 2018 -Spring 2022 Palos Verdes Peninsula Land Conservancy A-12 Page 19 Figure 3. Map of 2016 restoration area at Alta Vicente Reserve (Phase 3 in yellow). Palos Verdes Peninsula Land Conservancy A-13 Page Iio 3.0 ADDITIONAL RESTORATION IN 2016 PVPLC seeks additional funding, to perform restoration on more than the minimum five acres per year required in the NCCP. Several opportunities occurred during the reporting period. Table 4 shows the timeline for each additional restoration project. Figure 4 provides a site map for each restoration project active in 2016, including the restoration at Alta Vicente and Portuguese Bend Reserves that fulfills the requirements of the NCCP Habitat Restoration Plan. A complete summary of all restoration work completed in the Preserve, along with maps of restoration sites, can be found in Appendix C. 3.1 ABALONE COVE Funding from the National Fish and Wildlife Foundation (NFWF), the Santa Monica Bay Restoration Commission, the Coastal Conservancy, the U.S. Fish and Wildlife Service Coastal Program, and the California Trails and Greenways Foundation provided funding to restore and enhance five acres of coastal sage scrub and coastal bluff scrub at Abalone Cove Reserve. Three acres were planted in 2013, and an additional two acres were restored and enhanced in 2014, 2015, and 2016. 3.2 AGUA AMARGA In September 2011, Los Angeles County Sanitation Districts (LACSD) provided funding to conduct 0.25 acre of riparian scrub restoration at the Lunada Canyon portion of the Agua Amarga Reserve as part of mitigation for one of their projects. A restoration plan was completed in 2011. In 2012, the PVPLC implemented weed and invasive plant removal (castor bean, ice plant, fennel). In Fall 2012, 362 container plants were installed. In Fall 2013, 2014 and 2015 additional plants were installed and maintained by volunteers. The project was monitored in 2016. In 2012, an additional mitigation project (D&M Eight LTD) funded the planting of 147 riparian plants at Lunada Canyon. The plants were installed in January 2014 and irrigated with a drip irrigation system. Severe rains in 2014 caused torrential stream flows that removed some of the installed plants. PVPLC installed replacement plants and monitored the site's recovery in 2015 and 2016. 3.3 VICENTE BLUFFS In June 2008, a grant agreement was signed with the State Coastal Conservancy to provide habitat restoration at Vicente Bluffs Reserve. PVPLC restored three acres of coastal bluff scrub and EI Segundo blue butterfly habitat by removing acacia, pampas grass and ice plant, and installing container plants with coastal bluff scrub and EI Segundo blue butterfly host plants. PVPLC added plants to this site in 2013, 2014 and 2015. Volunteers have continued to plant host plants and remove weeds through 2016 to expand habitat area for the EI Segundo blue butterfly. Palos Verdes Peninsula Land Conservancy A-14 Page Iii 3.4 PORTUGUESE BEND In 2012, PVPLC received funding from the Habitat Conservation Fund to create 0.55 acres of trail -side habitat consisting of coastal sage scrub and cactus scrub to close unauthorized trails. This work is ongoing through 2017. Figure 4. Site map for active 2016 restoration projects in the Palos Verdes Nature Preserve. Palos Verdes Peninsula Land Conservancy A-15 Page 112 Table 4 Restoration Project Schedule for Additional Restoration in Palos Verdes Nature Preserve. 4.0 MONITORING 4.1 RESTORATION MONITORING PVPLC's stewardship staff conducted surveys at the restoration sites throughout the preserves, including quantitative vegetation transects, qualitative vegetation assessments and photo point monitoring. Vegetation transect surveys were conducted using standardized methods (line intercept, CNPS Rapid Vegetation Assessment) that provide data on the cover of native and non-native plants in the habitat in order to evaluate success against criteria as determined by the NCCP. In 2016, restoration monitoring as per NCCP requirements was conducted at Alta Vicente and Portuguese Bend Reserves. Detailed monitoring reports are in Appendix A. At Alta Vicente, the plants in all phases of the restoration site are healthy and growing. The cactus scrub has met success criteria. The coastal sage scrub has nearly achieved success criteria of 50% native plant cover (46-49% observed). There remain gaps in native vegetation due to low seed germination, likely a result of prolonged drought conditions. PVPLC has Palos Verdes Peninsula Land Conservancy A-16 Task Date Remove invasive plants Spring 2013 -Fall 2013 Ln ofA Install native plants Fall 2013, 2014, 2015 C Q U 0 it Weed and maintain site Through August 2018 Remove invasive plants Spring — Fall 2011 W 4J u L. Install native plants Fall 2011 —Fall 2015 Ln Q Q o Weed, maintenance and monitoring Through spring 2017 Remove invasive plants Spring — Fall 2012 J Install native plants Fall 2012 a�wLn u 3 op v Weed and maintain site Through 2016 ( Remove invasive plants Spring — Fall 2012 3 4 Install native plants Fall 2012 t: c IL m C7 Weed and maintain site Through 2017 4.0 MONITORING 4.1 RESTORATION MONITORING PVPLC's stewardship staff conducted surveys at the restoration sites throughout the preserves, including quantitative vegetation transects, qualitative vegetation assessments and photo point monitoring. Vegetation transect surveys were conducted using standardized methods (line intercept, CNPS Rapid Vegetation Assessment) that provide data on the cover of native and non-native plants in the habitat in order to evaluate success against criteria as determined by the NCCP. In 2016, restoration monitoring as per NCCP requirements was conducted at Alta Vicente and Portuguese Bend Reserves. Detailed monitoring reports are in Appendix A. At Alta Vicente, the plants in all phases of the restoration site are healthy and growing. The cactus scrub has met success criteria. The coastal sage scrub has nearly achieved success criteria of 50% native plant cover (46-49% observed). There remain gaps in native vegetation due to low seed germination, likely a result of prolonged drought conditions. PVPLC has Palos Verdes Peninsula Land Conservancy A-16 Page 1 13 adapted by increasing plant density and utilizing drip irrigation instead of overhead sprinklers in subsequent restoration projects. The Palos Verdes blue butterfly habitat has not met the success criteria, due to low numbers of host plants along the transect. In 2017 staff will focus on controlling weeds on a regular basis to decrease competition and increase bare ground for seed germination. PVPLC will continue to observe and control weeds in Phase I and Phase 2 to observe the rate of restoration. At Portuguese Bend, Phase I and 2 were installed the same year (2012), to allow for an additional year of weed control at the site prior to planting. Therefore, they both represent Year 4 after plant installation for the 2016 monitoring. Plants were healthy, and recruitment from seed was observed at the site. The site is on track for meeting success criteria. At Portuguese Bend in Phase 3 (Year 3) native plant cover has achieved success criteria. Phase 4 (Year 2) has surpassed the success criteria for a more mature Year 5 restoration. Phase 5 (Year 1) is meeting the year -one goal for coastal sage scrub cover, however cactus cover has not yet met goals for the first year. Fill-in planting and weed control will take place in 2017 to bolster native vegetation in Phase 5. 4.2 COVERED SPECIES MONITORING The NCCP/HCP requires surveys for covered species on the Preserve every three years. The Comprehensive Management and Monitoring Report for 2013-2015 contains the latest report on the status of covered plant species, EI Segundo blue butterfly, California gnatcatcher and cactus. The next survey for covered plant species will be triggered by precipitation that totals 9.75 inches (75% of the annual average). The draft NCCP/HCP includes a total of six covered plant species. They are aphanisma (Aphanisma blitoides), south coast saltscale (Atriplex Pacifica), Catalina crossosoma (Crossosoma californicum), island green dudleya (Dudleya virens ssp. insularis), Santa Catalina Island desertthorn (Lycium brevipes var. hassei) and woolly seablite (Suaeda taxifolia). 4.3 MONITORING CITY PROJECTS PVPLC provided monitoring and consultation for four City projects in 2016 — the La Rontonda Drainage Repair Project at Ocean Trails, the ACLAD dewatering wells in Portuguese Bend Reserve, the CalWater pipeline rupture repairs on Burma Road Trail in Portuguese Bend Reserve, and the Toyon Trail remediation project in Portuguese Bend Reserve. A table of habitat impacts is shown in Appendix J. Palos Verdes Peninsula Land Conservancy A-17 Page 114 The La Rontonda Drainage Repair Project began in 2015 and repaired underground pipelines along the southern edge of Ocean Trails Reserve in the Shoreline Park area. The project occurred within the vicinity of known Atriplex Pacifica plant populations and CSS habitat. Staff flagged individual Atriplex plants near the roadsides, which were avoided during construction. The project was completed in early 2017, and our staff verified that no permanent damage incurred to CSS or the Atriplex vegetation. The Abalone Cove Landslide Abatement District (ACLAD) dewatering well project began summer 2016 and is still ongoing at the time of this report (April 2017). Four new well sites were drilled — two of Burma Road south of Water Tank Trail and two along Ishibashi Farm Trail. Approximately 0.1 acres of CSS was permanently removed and 0.1 acres of non-native annual grasses. Mitigation at a 2:1 ratio for the CSS impacts will be required for this project and has not yet been performed at the time of this report. In August 2016, a CalWater pipeline failure caused the emergency removal of habitat in Portuguese Bend Reserve in order to access and repair the underground pipeline. The location of the impacted areas are adjacent to Burma Road, south of the intersection of Eagles Nest trail. According to the draft NCCP, this impact requires restoration at a 2:1 ratio for coastal sage scrub (CSS) and 0.5:1 ration for non-native annual grassland (NNAG). The measured area of impact is 0.04 acres of CSS and 0.03 acres of NNAG, therefore the resulting restoration required is 0.08 acres of CSS and 650 sq. ft. of NNAG. The City has hired PVPLC to perform the restoration, where appropriate CSS species were planted and seeds dispersed in the affected areas. PVPLC will continue to maintain and monitor the restored areas through 2019. The Toyon Trail and Peppertree Trail in Portuguese Bend were accidently graded in October 2014 by a City contractor, impacting 0.3 acres of trailside CSS. The City and PVPLC coordinated repairs to the Toyon trail to restore its historic width in the impacted area by planting approximately 400 plants and installing post -and -rope and boulders to protect the plants from trampling. The City hired PVPLC to perform a site assessment in January 2017, which found that plant survival was low (about 25% survival rate) and weeds (namely Brassica) were encroaching into the restoration area. PVPLC recommends the City replant bare areas in fall 2017 to successfully remediate this damage. 5.0 UTILITY AND CONTRACTOR ACCESS Although some protocols are currently in place to ensure that utilities and contractors accessing the Preserve follow guidelines to remain on permitted trails and avoid damaging the habitat, PVPLC is collaborating with the City to create more effective protocols and outreach techniques. PVPLC and the City have created a protocol for ensuring oversight of projects Palos Verdes Peninsula Land Conservancy A-18 Page 115 within the Preserve and will develop a protocol for utilities to follow when they access the Preserve. 6.0 TARGETED EXOTIC REMOVAL PROGRAM FOR PLANTS The Targeted Exotic Removal Program for Plants (TERPP) is an element of the Preserve Habitat Management Plan for the Draft NCCP that requires the annual removal of exotic plant species of twenty individual populations or five acres in the Preserve. The TERPP provides a protocol for ranking the degree of threat to native vegetation, the feasibility of eradication, and the invasiveness of each exotic species found in the Preserve. Populations of exotic plant species are then targeted for removal based on the results of the ranking outcome. In 2016, PVPLC met the objectives for the TERPP program by treating 21 populations of invasive plants. PVPLC treated 18 populations of the highly invasive Euphorbia terracina. Euphorbia seeds can persist in the soil for 3 to 5 years, and treatment needs to be repeated for several years to successfully control this species on the Preserve. Euphorbia is a very serious invasive, and PVPLC believes its expansion in the Preserve must be controlled. Therefore, many of the TERPP sites are the same as in the previous years. At Abalone Cove, an Arundo donax that had previously been treated was retreated. And a population of Coronilla valentina that had previously been treated experienced some new germination and was retreated. Maps and detailed reports of the TERPP program are found in Appendix D. 7.0 BRUSH CLEARANCE Brush clearance is the clearing or minimizing of vegetation in areas that occur immediately adjacent to residential structures and roads. RPV is responsible for brush clearance within the Preserve, to provide an appropriate level of fire protection, emphasizing the protection of life, public safety, and property values in the urban -wildlife interface areas while minimizing environmental impacts of fire suppression and control. PVPLC has collaborated with RPV to develop clear protocols to ensure that all Best Management Practices associated with fuel modification activities are consistently followed. In 2015, RPV staff successfully collaborated with PVPLC to ensure that bird surveys were completed prior to fuel modification activities. A portion of the Agua Amarga Reserve is owned by PVPLC and falls under our responsibilities to maintain brush clearance requirements. All of these requirements were met in May and June 2015. No other fuel modification areas within the Preserve fall under the responsibility of PVPLC. Palos Verdes Peninsula Land Conservancy A-19 Page 116 8.0 SCIENTIFIC RESEARCH AND CITIZEN SCIENCE The Preserve is an ideal setting for an outdoor laboratory, because it provides scientists and students with access to a variety of habitat and wildlife. Student research topics are often chosen to answer questions informing improved restoration practices and to better understand the local ecology. Citizen Science volunteer programs assist the Land Conservancy with annual monitoring of the presence and abundance of cactus wren and mesopreditors (coyote, grey fox and red fox). A report of 2016 research projects and citizen science monitoring programs is located in Appendix E. 9.0 TRAIL MANAGEMENT AND MONITORING 9.1 PRESERVE TRAILS PLAN The Preserve Trails Plan is a part of the City's Public Use Master Plan (PUMP), which is a NCCP-covered activity, and must follow certain avoidance measures and guidelines to protect covered species. The RPV City Council approved the latest version updates of PUMP in March 2013 after the designation of trails in Filiorum Reserve. 9.2 TRAIL MANAGEMENT PVPLC continues to update trail maps, print and place map brochures at major trailheads, and post them on PVPLC's website. PVPLC regularly refreshes carsonite signs and decals in the Preserve to better delineate trails. A full-time PVPLC field operations technician focuses on unauthorized trail closure, trail delineation and graffiti removal. The following represent the accomplishments in 2016 for trail management: Area Closed Signs Installed Decals Replaced Graffiti Removed 15 signs 119 decals 32 removed New Carsonite Trail Markers 7 markers Trail Maintenance Projects 23 projects New Spur Trail Closures 101 closures Repaired/Fortified Spur Closures 137 closures Brush Trimming/Weed clearance 48 projects Repaired Signage/Trail Markers 23 signs Trail Crew Events (Maintenance Projects) I I events, 450 volunteer hours Rapid Response Volunteer Days 50+ events, 1050 volunteer hours Palos Verdes Peninsula Land Conservancy A-20 Page 1 17 With support of grants from Habitat Conservation Fund, PVPLC worked with the City of Rancho Palos Verdes to design a master plan for Preserve signage to include designs for primary trailhead markers, interpretive panels and regulatory signage (Appendix 1). The signage plan was approved by City Council in July 2016. Some remaining grant funding is available to produce and install signage in limited locations, and both the City and PVPLC are seeking additional funding to implement the entire signage plan. 9.3 UNAUTHORIZED TRAIL CLOSURES Implementing the Preserve Trails Plan involves closing many trails that were previously in use and are no longer authorized. PVPLC's priorities are to close newly created unauthorized trails before they become established and damage habitat. PVPLC has also developed techniques to reduce trail widening, particularly at trail intersections. Maintaining trail closures is intensive work, which requires continuously reinforcing and replacing trail closures when signage, branches, and plants are removed. Rapid Response Team volunteers assist in maintaining closures by reclosing sections on a regular basis. Additionally, the Volunteer Trail Watch watered cactus pads during the summer to help maintain trail closures. Unauthorized trail closures were assisted by funds from the Habitat Conservation Fund, the Los Angeles County Grants, the National Fish and Wildlife Foundation, Coastal Conservancy and Santa Monica Bay Restoration Commission. In 2016, focal areas were Filiorum (Jack's Hat Trail, Rattlesnake Trail, Eucalyptus Trail, Gary's Gulch Trail, Kelvin Canyon Trail and the canyon that connects to Three Sisters); Portuguese Bend (Ishibashi Trail, Toyon Trail, Rim Trail, Sandbox Trail, Barn Owl Trail and Ishibashi Farm Trail); Forrestal (Flying Mane Trail, Quarry Trail, Vista Trail, Dauntless Trail, Cactus Trail and Exultant Trail); and Abalone Cove Reserves (Sea Dahlia Trail, Smuggler's Trail and Olmsted Trail) (Appendix G). 9.4 TRAIL REPAIR The PVPLC volunteer Trail Crew assists in much of the trail work on the Preserve. A complete summary of the PVPLC Volunteer Trail Crew Program can be found in the Community Involvement section of the report (Appendix F). PVPLC staff or RPV staff including Open Space Management, Recreation and Parks, and Public Works personnel were also involved in trail enhancements. The following lists the trail projects that the PVPLC Volunteer Trail Crew conducted in 2016: Palos Verdes Peninsula Land Conservancy A-21 Page 1 18 Abalone Cove Repaired rock steps on Sea Dahlia Trail (June) Filiorum Installed retaining wall on Kelvin Canyon Trail to reestablish trail bed (January and August) Cleared boulders and debris from canyon crossing on Zotes Cutacross (January) Tread repair, outsloping and installed check dam in canyon crossing on Zotes Cutacross (March and July) Reestablish canyon crossing on Ford Trail (October) Forrestal Repaired grade dips on Pirate Trail (May) Repair Mariposa Trail bridge and adjacent tread repair (December) Portuguese Bend Realign segment of Toyon Trail and assist City of RPV with narrowing graded trail segments (February) Three Sisters Re-establish trail tread in switchback section of Sunshine Trail (April) Vista del Norte Establish trail connection to Sol Y Mar development's trail system (September) Future Trail Projects Trail projects that may be completed in the future, based on funding, are listed in Appendix H. 9.5 TRAIL MONITORING PVPLC stewardship staff and volunteers from the Keeping an Extra Eye on the Preserve for Environmental Review and Stewardship (Keepers) Program and the Volunteer Trail Watch (VTW) Program conducted all trail monitoring during the reporting period. The Keepers program and VTW program are described in detail in the Volunteer Involvement section of the report (Appendix F). Palos Verdes Peninsula Land Conservancy A-22 Page dig The City of RPV grants permission for night hikes in the Preserve. A listing of night hikes is found in Appendix K. 9.6 VOLUNTEER TRAIL WATCH The PVPLC and City initiated the Volunteer Trail Watch Program in 2013 to help educate trail users about appropriate trail use and monitor preserve misuse. The mission of the Palos Verdes Nature Preserve Volunteer Trail Watch Program is to serve as eyes and ears of the City and the Palos Verdes Peninsula Land Conservancy with a view to 1) protect the natural resources of the Palos Verdes Nature Preserve, including the flora and fauna as well as the geology, topography and scenic landscape, and 2) enhance the safety of, and promote an enjoyable experience for all Preserve visitors. Volunteers educate the public about Preserve rules and etiquette; and enter observations of infractions into a web portal (i.e. dogs off leash, off -trail activity, user on non -designated trail, etc.) to allow enforcement personnel and Preserve managers to track time and location of these activities. Eleven new volunteers completed the fourth training workshop for the Volunteer Trail Watch, which took place in January. The VTW also meets every quarter to provide additional training and information to share with Preserve visitors. 10.0 VOLUNTEER INVOLVEMENT PVPLC is a non-profit organization that relies heavily on the support of community involvement to perform many of the tasks necessary to manage the Preserve. In 2016, volunteers contributed over 16,140 hours of service in support of conservation, restoration, education and management of the Palos Verdes Nature Preserve. The 2016 Volunteer Annual Report detailing the volunteer programs is located in Appendix F. 11.0 ABILITY TO ACCOMPLISH RESOURCE MANAGEMENT GOALS PVPLC, City staff and Wildlife Agency representatives have been working diligently to update figures and finalize the language in the draft NCCP. However, this belabored process is delaying the finalization of the Plan and has presented problems for the City who would like to implement projects in the Preserve for which they do not have take permit authorization. The completion of the NCCP must remain a priority for staff so that operations and projects may commence. PVPLC has been successful at completing restoration under the NCCP, monitoring NCCP covered species, and meeting the goals for targeted invasive plant removal. However, because Palos Verdes Peninsula Land Conservancy A-23 Page 1 ao Euphorbia terracina has been difficult to eradicate, and has required treatment over several years, many of the same areas have been treated through the TERPP program since 2009. Additionally, the prolonged drought from 2013 to 2016 put great stress on habitat, restoration projects and covered species, as observed in our monitoring efforts. Concerns about habitat management in the future include the ability to successfully close unauthorized trails, and to prevent new trails from being created. Closing unauthorized trails is time consuming and expensive because of continuous vandalism, drought, and increasing use of the Preserve. PVPLC is taking information collected by staff and the VTW to coordinate with City of RPV staff and the Lomita Sheriffs assigned to patrol the Preserve to help determine which areas need more enforcement and maintenance attention. 12.0 FUNDING NEEDS PVPLC would benefit from continued funding to control highly invasive species on the Preserve and continually battle back against unauthorized and widening trails that damage habitat. PVPLC continues to apply for funding from federal, state and private sources to increase the amount of acreage restored for the species listed under the plan. 13.0 BOARD AND STAFF 2016 Officers Cassie Jones, President Amy Friend, Exec. Vice President Susan McKenna, Secretary John Spielman, Treasurer 2016 Board of Directors Bill Ailor, President Emeritus Scott Ammons Diana Bailey Bob Ford Allen Franz Randy Harwood Rob Kautz Mike Kilroy Joe Platnick Ken Swenson Rick Wallace Palos Verdes Peninsula Land Conservancy A-24 2016 Staff (as of December 2016) Executive Director Andrea Vona Office Administration Jill Wittman, Administrative Assistant Sue Cody, Accountant Education Program Siegrun Storer, Education Director Holly Gray, Education Program Manager Neil Uelman, Naturalist Johnny Perez, Naturalist Page tai Land Stewardship Adrienne Mohan, Conservation Director Cristian Sarabia, Stewardship Manager Josh Weinick, Stewardship Associate Megan Roy, Stewardship Associate Brittany Goldsmith, Volunteer Program Manager Damian Morando, Field Operations Technician Hugo Morales, Stewardship Technician Humberto Calderon, Stewardship Technician Neli Gonzalez, Nursery Technician Development Susan Wilcox, Development Director Louise Olfarnes, Communications Manager Laura Lohnes, Development Associate Palos Verdes Peninsula Land Conservancy A-25 APPENDIX A RESTORATION MONITORING A-26 In 2016 vegetation surveys were conducted at restoration sites within Alta Vicente and Portuguese Bend reserves to estimate percent cover of native and non-native plants, litter, and bare ground. These data are used to measure the success of restoration based on the goals determined in each site-specific restoration plan. 1.0 ALTA VICENTE SURVEY METHODS Restored habitat areas were surveyed through qualitative, quantitative, and photographic vegetative assessment techniques along 50m permanent transect lines (location of transects: Appendix Al and A2, Figure I and Figure 2) within three habitat types (coastal sage scrub, cactus scrub, and Palos Verdes Blue butterfly habitat). Success criteria was assessed using qualitative methodology (CNPS Rapid Vegetation Assessment Method) in monitoring Years I and Year 2 and with quantitative methodology (point -intercept method) in Years 3 and 5. Photopoints were collected in all monitoring years. Qualitative measurements of percent cover for native, non-native, species-specific, and bare/litter categories were collected through use of an adapted form of the CNPS Rapid Vegetation Assessment Method. Quantitative measurements of percent cover and plant size (height and width) were collected using the point -intercept method on a 50m transect to evaluate restoration success based on set criteria for the 3rd year following initial restoration activities and continued in the 5th year if success criteria measures were not met. Photopoints were taken at either end of permanent monitoring transects to aid in the assessment of plant health and establishment. Transects not meeting success criteria by Year 5 (end of required monitoring period) were monitored using at minimum qualitative measures to assess progress toward success criteria goals. 1.1 ALTA VICENTE PHASE I SURVEY RESULTS (YEAR 7) Monitoring transects (AV I — AV6) in Alta Vicente did not meet success criteria by the fifth year of monitoring (Year 5 reached in 2014 for Phase I and 2015 for Phase 2). These transects were monitored after their fifth year since they did not meet success measures last report. Coastal Sage Scrub (CSS) One monitoring transect (AV I) was surveyed within the CSS of Phase I restoration. Quantitative methods (point -intercept method) were used to identify the presence of 11 individual native plants, four native species, a total native plant cover of 32%, non-native cover of 56%, and bare ground/litter cover of 28% (Table 2). Native plant species with the highest percent cover at this transect included Artemisia californica (18%), Eriogonum cinereum (6%), Eriogonum parvifolium (2%), and Opuntia littoralis (6%) (Table 2). Average shrub height ranged from 7cm to 66.8cm (Table 4). Qualitative survey methods (CNPS Rapid Vegetation Assessment) found percent cover by native plant species to be 49% (Table 5). Photopoints show that many plants have increased in size and appear to be in good health (Appendix Al). Palos Verdes Peninsula Land Conservancy A-27 Quantitative measurements continue to describe this transect as below success criteria goals, although qualitative and photographic assessment indicate that habitat along AV I is healthy and within I % of meeting success goals for native plant cover (50% in Year 5). Palos Verdes Blue Butterfly Habitat (PVB) One monitoring transect (AV2) was originally intended to be aligned within the PVB habitat of Phase I restoration. AV2 is currently located in an area of PVB restored habitat within Phase 2 restoration although it is unclear if the transect was deliberately relocated or mistakenly placed when established. Monitoring of AV2 is reported in PVB Phase 2 restoration (Section 1.2 below). 1.2 ALTA VICENTE PHASE 2 (YEAR 6) Cactus Scrub One monitoring transect (AV3) was surveyed within the cactus scrub of Phase 2 restoration. Quantitative methods (point -intercept method) were used to identify the presence of 24 native plants, four native species, a total native plant cover of 48%, non-native cover of 4%, and bare ground/litter cover of 48 (Table 2). The native plant species with the highest percent cover at this transect were Eriogonum cinereum (22%) and Encelia californica (16%). Average shrub height ranged from 12.6cm to 33.5cm (Table 4). Qualitative survey methods (CNPS Rapid Vegetation Assessment Method) found percent cover of native plant species to be 37% with 9% cactus cover (Table 5). Photo points indicate that cactus is growing, with three to five pads on each individual (Appendix Al). Quantitative methods describe AV3 as being within 2% of achieving success criteria goals for native plant cover. Although cactus species were not detected in quantitative analysis, qualitative methods identified cactus cover as 9% at AV3, within I% of the Year 5 success goal (10% cactus cover goal). PVB Butterfly Habitat Two monitoring transect (AV2 and AV5) were surveyed within the PVB butterfly habitat of Phase 2 restored areas. At AV5, quantitative methods (point -intercept method) were used to identify the presence of three native plants, three native species, a total native plant cover of 6%, non-native cover of 76%, and bare ground/litter cover of 28% (Table 2). Average shrub height ranged from 18cm to 35cm (Table 4). Qualitative survey methods (CNPS Rapid Vegetation Assessment Method) found percent cover by native plant species to be 27% (Table 5). Photo points show that native plants are present, but remain small (Appendix Al) and document the colonization of the bare ground at the site by the Crystalline Iceplant (Mesembryanthemum crystallinum). Quantitative measurements continue to describe this transect as below success criteria goals for native and host plant cover, although qualitative assessments indicate that habitat along AV5 is healthy and nearing success goals for native cover (30-60% in Palos Verdes Peninsula Land Conservancy A-28 Year 5). Qualitative assessments captured the presence (I% cover) of the host plant Astragalus tricopodus, although host plant cover remains below success criteria goals (10% in year 5). AV2 was surveyed within the PVB habitat of Phase 2 restoration following a relocation from Phase 1. Quantitative methods (point -intercept method) were used to identify the presence of ten individual native plants, four native species, total native plant cover of 24%, non-native cover of 62%, and bare ground/litter cover of 38% (Table 2). The native plant species with the highest percent cover at this transect was Artemisia californica (12%). No PVB host plants (Acmispon glaber or Astragalus trichopodus) were detected along AV2. Average shrub height ranged from 22cm to 82.2cm (Table 4). Qualitative survey methods (CNPS Rapid Vegetation Assessment Method) found percent cover by native plant species to be 49% (Table 5). Photopoints indicate that many plants have increased in size and appear to be in good health (Appendix Al). Native plant cover is within the success criteria range for Year 5 goals (Table 11), but PVB host plants were not detected. Monitoring may need to occur earlier (March/April) to accurately capture host plant presence at the site. Coastal Sage Scrub (CSS) Transect (AV6) in Phase 2 restoration at Alta Vicente was incorrectly aligned since 2014. The correction was made post -monitoring in 2016. Future monitoring will use the correct alignment of AV6. Quantitative methods (point -intercept method) were used to identify the presence of 16 individual native plants, two native species, total native plant cover of 32%, non-native plant 34%, bare ground/litter cover of 36%. Native species with the highest percent cover at this transect was Encelia californica (24%) and Eriogonum cinereum (8%) (Table 2). Shrub height ranged from 31.2cm to 31.8cm (Table 4). Qualitative survey methods (CNPS Rapid Vegetation Assessment Method) found percent cover of native species to be 45% (Table 5). Photo points indicate that the transect was placed at a different location from the previous year (Appendix A I). In 2016, CSS cover was lower than the success goals for Year 5 (> 50% native cover). However, the percent cover of native CSS species is approaching the success criteria goal. 1.3 ALTA VICENTE PLANT INVENTORY The native plant inventory identified through the monitoring of five permanent transects in Alta Vicente totaled 22 species 1.4 ALTA VICENTE CONCLUSIONS AND RECOMMENDATIONS All monitoring transects surveyed in 2016 did not succeed in meeting success criteria standards. Despite this shortcoming, three transects (AV I, AV3, and AV6) were within 5% of meeting those goals and are expected to achieve success criteria in the next year of monitoring (2017). Perennial species such as Artemisia californica, Encelia californica, and Eriogonum fasciculatum appear to be well Palos Verdes Peninsula Land Conservancy A-29 established and in good health. Prolonged drought conditions may have inhibited the growth of these established plants and prevented the achievement of success criteria standards. The lack of PVB host plant within restored areas monitored at transects AV2 and AVS may not only be attributed to drought conditions, but also to the colonization of restored PVB habitat by the aggressive non-native Crystalline Iceplant (Mesembryanthemum crystallinum) and survey scheduling. M. crystallinum was observed to have a strong presence in PVB habitat and may represent a significant competitive challenge to PVB host plants (Astragalus tricopodus and Acmispon glaber). Low detection of PVB host plants could also have been influenced by plant dormancy or senescence in May. Monitoring PVB habitat could benefit from monitoring earlier in the season prior to the onset of PVB host plant dormancy. 2.0 PORTUGUESE BEND SURVEY METHODS (PHASE I, 2 AND 3) Restored habitat areas were surveyed through qualitative, quantitative, and photographic vegetative assessment techniques. Qualitative measurements of percent cover for native, non- native, species-specific, and bare/litter were collected through use of an adapted form of the CNPS Rapid Vegetation Assessment Method across nine transects (PBI -PB9). Quantitative measurements of percent cover and plant size (height and width) were collected through use of the point -intercept method across two transects in their third year of establishment (PB4 and P135). Photopoint documentation of all restored areas continued, and typically included a photograph being taken at the beginning and end of each monitoring transect. Monitoring surveys were conducted on April 14 and April 18, 2016. Locations of monitoring transects and photo points can be found in Appendix A2, Figure 2. 2.1 PORTUGUESE BEND SURVEY RESULTS (PHASE I AND 2) YEAR 4 South -facing Coastal Sage Scrub (CSS) Two monitoring transects (PB I and P132) were surveyed within the south -facing CSS of Phase I and 2 restoration, although PBI and P132 were not under success criteria evaluation using quantitative point -intercept methods in 2016. At PBI, qualitative methods (CNPS Rapid Vegetation Assessment Method) were used to identify the presence of ten native plant species, a total native plant cover of 27%, and a non-native plant cover of 16% (Table 10). Native plant species with the highest percent cover at this transect included Artemisia californica (8%), Heteromeles arbuti folia (5%), and Eriogonum fasciculatum (4%) (Table 10). PBI is not expected to meet the five year success criteria evaluation in 2017. At the second monitoring transect (P132) qualitative methods identified 18 native species, a total native cover of 47%, and non-native cover of 9% (Table 10). Natives with the highest percent cover at this transect included Palos Verdes Peninsula Land Conservancy A-30 Artemesia Cali fornica (12%), Eriogonum fasciculatum (6%), and Encelia call fornica (4%) (Table 10). P132 is expected to meet the final success criteria for native plant cover (>50%) and non-native plant cover (<25%) in Year 5 (2017). North -facing Coastal Sage Scrub (CSS) One monitoring transect (PB3) was surveyed within the north -facing CSS of Phase I and 2 restoration, although PB3 was not under quantitative success criteria evaluation in 2016. Qualitative methods (CNPS Rapid Vegetation Assessment Method) were used to identify the presence of ten native plant species, a total native plant cover of 39%, and a non-native plant cover of 21% at PB3 (Table 10). Native plant species with the highest percent cover at this transect included Baccharis pilularis (11%), Heteromeles arbuti folia (7%), and Rhus integri folia (5%) (Table 10). PB3 is expected to meet the final success criteria for native plant cover (>50%) and non-native plant cover (25%) in Year 5 (2017). Cactus Scrub One monitoring transect was surveyed within the Cactus Scrub of Phase I and 2 restored areas (P136), although P136 was not under quantitative success criteria evaluation in 2016. Qualitative methods (CNPS Rapid Vegetation Assessment Method) were used to identify the presence of ten native plant species, a total native plant cover of 40%, and non-native plant cover of 9% at P136 (Table 10). Native species with the highest percent cover were Encelia call fornica (7%), Opuntia litoralis (11%), and Cylindropuntia proli fera (5%) (Table 10). Large gaps observed in the vegetation in 2015 (litter and bare ground 63%) were planted in winter 2016 and thus reduced to 51 % (Table 10). P136 is expected to meet final success criteria for native plant cover (>40%), cactus cover (>_ 10%), and non-native plant cover (<25%) in Year 5 (2017). 2.2 PORTUGUESE BEND SURVEY RESULTS (PHASE 3) YEAR 3 South -facing Coastal Sage Scrub (CSS) Two monitoring transects (P134 and P135) were surveyed within the south -facing CSS of Phase 3 restoration. At P134, quantitative methods (point -intercept method) were used to identify the presence of seven native plants, a total native plant cover of 24%, non-native cover of 26%, and bare ground/litter cover of 66% (Table 6 and 7). Native species with the highest percent cover were Salvia mellifera (8%), Baccharis pilularis (4%), and Stipa pulchra (4%) (Table 7). Year 3 success criteria goals at P134 were not met for native (30%) or non-native plant cover (25%), although non-native plant cover was within I % of success criteria goals (Table 11). Quantitative methods (point -intercept method) were used to identify the presence of I I native plants, four native species, a total native plant cover of 14%, non-native cover of 8%, and bare ground/litter cover of 86% (Table 6 and 7). Native species with the highest percent cover were Acmispon glaber (4%), Eriogonum fasciculatum (4%), and Salvia mellifera (4%) (Table 7). Year 3 success criteria goals at P135 were not met for native or non-native plant cover (Table 11). Palos Verdes Peninsula Land Conservancy A-31 2.3 PORTUGUESE BEND SURVEY RESULTS (PHASE 4) YEAR 2 North -facing Coastal Sage Scrub (CSS) One monitoring transect (PB7) was surveyed within north -facing CSS of Phase 4 restored areas, although PB7 was not under quantitative success criteria evaluation in 2016. Qualitative methods (CNPS Rapid Vegetation Assessment Method) were used to identify the presence of 18 native plant species, a total native cover of 54%, and a non-native plant cover of 30%. Native species with the highest percent cover were Artemisia californica (20%), Eschscholzia californica (5%), and the PVB host plant, Astragalus tricopodus (5%). Native vegetation at PB7 has already surpassed Year 5 success criteria goals. 2.4 PORTUGUESE BEND SURVEY RESULTS (PHASE 5) YEAR I South -facing Coastal Sage Scrub (CSS) One monitoring transect (PB8) was surveyed within the south -facing CSS of Phase 5 restoration, although PB8 was not under success criteria evaluation in 2016. Qualitative methods (CNPS Rapid Vegetation Assessment Method) were used to identify the presence of 12 native plant species, a total native cover of 24%, and a non-native plant cover of 38% (Table 10). Native species with the highest percent cover were Artemisia californica (4%), Eschscholzia californica (4%), the PVB host plant Astragalus tricopodus (4%), and Malacothrix saxatilis (3%). Native vegetation is expected to achieve success criteria goals in Year 3 monitoring (2017). Cactus Scrub One monitoring transect (PB9) was surveyed within the cactus scrub of Phase 5 restoration. Qualitative methods (CNPS Rapid Vegetation Assessment Method) were used to identify the presence of 18 native plant species, a total native cover of 38%, and a non-native plant cover of 8% (Table 10). Native species with the highest percent cover were Encelia californica (I S%) and Saliva leucophylla (3%), with Opuntia littoralis at 1% cover. Native cover at PB9 is on track for meeting success criteria goals, however cactus maturity cover is low, with cactus cover likely to fall short of Year 3 goals (5% cactus cover). 2.5 PORTUGUESE BEND PLANT INVENTORY The native plant inventory identified through the monitoring of nine permanent transects in Portuguese Bend totaled 43 species (Table 10). Palos Verdes Peninsula Land Conservancy A-32 2.6 PORTUGUESE BEND CONCLUSIONS AND RECOMMENDATIONS Monitoring transects (PB 4 and PB 5) under Year 3 quantitative success criteria evaluation did not succeed in meeting or exceeding standards for percent cover measures. However, PB4 is on track to meet non-native plant cover measures (<25%) in Year 5 monitoring and PB 5 is showing strong presence (4% cover) of Acmispon glaber, an early successional coastal sage species which may facilitate the recruitment of later successional coastal sage species. PB5 also was found to have 86% cover of litter, describing the transect as having low living vegetative cover. Supplemental planting at PB5 could help infill the ground currently under high litter cover and improve native vegetative cover at the site. Of the transects not currently under success criteria evaluation, two transects (PB3 and PB7) are progressing toward future success criteria goals. Native cover at PB3 fell short by I% in meeting the criteria goals (>40%) but did meet similar criteria for percent cover of native perennial species (>_30%). PB7, within north -facing CSS habitat, has outperformed all other restoration sites, exceeding native cover success criteria goals in only the second year of monitoring. Both transects (PB3 and P137) are expected to meet success criteria evaluation next year. Two transects (PB I and PB 9) are not expected to meet success criteria goals in the next year of evaluation, although adaptive management activities could aid in success criteria achievement. In south -facing CSS, native plant cover at transect PB I was low (27% out of 50%) despite also having relatively low percent cover measures for non-native species (16%). This may indicate that competition from non-native species is not an overly prohibiting factor and the introduction of additional plant material or more growing time may be required to achieve >50% native plant cover at PB 1. Although PB9 will not be under evaluation until 2018, supplemental management over the next few years could aid in reaching desired cactus cover. P139 is located within cactus scrub habitat and has already met Year 3 native cover goals, but was found to have low cactus cover (1%) in 2016. Slow growth rates of Opuntia littoralis may not allow the on-site plant material to achieve 5% cover by 2018. Additional cactus plantings could be added over the course of two years to help achieve adequate cactus cover at this transect. Palos Verdes Peninsula Land Conservancy A-33 Table 1: Alta Vicente Number of plants per 50m transect with line intercept method, I m intervals. Artemisia call fornica 5 4 4 1 0 14 Elymus condensatus 4 2 0 0 Encelia coli fornica 2 Encelia call fornica 16 2 8 1 12 21 Eriogonum cinereum 3 2 11 1 4 21 Opuntia littoralis I Opuntia littoralis 1 0 0 2 Peritoma arborea 2 0 4 0 0 2 Salvia mellifera 32 2 48 6 32 2 Total Native Plants I 1 10 24 3 16 64 NNAG 7 9 26 14 4 34 NNP 1 18 21 2 24 13 78 Total Non-native Plants Bare 25 10 30 5 2 21 38 13 17 15 112 64 Litter 2 14 1 3 1 3 1 23 Total Bare and Litter 12 19 24 14 18 87 Total Plant Cover 1 36 40 26 1 41 33 176 Table 2: Alta Vicente Percent cover along 50m line transects with point -intercept method, I m intervals. Artemisia coli fornica 18 12 8 2 0 Elymus condensatus 0 4 0 0 0 Encelia coli fornica 0 0 16 2 24 Eriogonum cinereum 6 4 22 2 8 Eriogonum parvi folium 2 0 2 0 0 Opuntia littoralis 6 0 0 0 0 Salvia mellifera 0 4 0 0 0 Total Native Plants 32 24 48 6 32 NNAG 16 18 0 28 8 NNP 40 44 4 48 26 Total Non-native Plants 56 62 4 76 34 Bare 20 10 42 26 30 Litter 8 28 6 2 6 Total Bare and Litter 28 38 48 28 36 Total Plant Cover 88 86 52 82 66 Palos Verdes Peninsula Land Conservancy A-34 Table 3: Alta Vicente Relative percent cover along 50m line transects with line intercept method, I m intervals. Artemisia tali fornica 20 14 15 2 0 Elymus condensatus 0 5 0 0 0 Encelia californica 0 0 31 2 36 Eriogonum cinereum 7 5 42 2 12 Eriogonum parvi folium 2 0 4 0 0 Opuntia littoralis 7 0 0 0 0 Salvia mellifera 0 5 0 0 0 Total Native Plants 36 28 92 7 48 NNAG 18 21 0 34 12 NNP 1 45 1 51 8 1 59 39 Total Non-native Plants 1 64 1 72 8 1 93 52 Table 4: Alta Vicente Average plant height (ft) at each transect. Artemisia californica 66.8 82.2 22.5 35.0 Elymus condensatus 22.0 Encelia tali fornica 12.6 29.0 31.2 Eriogonum cinereum 42.3 23.0 33.5 18.0 31.8 Opuntia littoralis 7.0 19.0 Peritoma arbores 56.7 Salvia mellifera 46.5 Polos Verdes Peninsula Land Conservancy A-35 Table 5: Alta Vicente Vegetation percent cover based on CNPS Rapid Vegetation Assessment Method. Species Artemisia call fornica 13 8 8 6 10 Astragalus trichopodus Cylindropuntia prolifera 1 1 2 1 1 Deinandra paniculata Elymus condensatus 1 2 Encelia tali fornica 9 6 13 Eriogonum cinereum 8 4 9 3 8 Eriogonum fasciculatum I Eriogonum parvi folium 1 1 2 Heteromeles arbuti folia 2 1 Isocoma menziesii var. sedoides I I Lupinus succulentus I Malosma lourina 5 1 Marah macrocarpa I Mirabilis californica I Opuntia littoralis 2 3 7 1 5 Peritoma arborea 2 2 1 1 Rhus integri folia 7 2 1 2 2 Ricinus communis I Salvia leucophylla 3 3 2 1 Salvia mellifera 2 2 1 Stipa pulchra Total Native Cover 49 31 37 27 45 NNAG 2 4 2 5 1 NNP 19 34 24 31 22 Total Non-native Cover 21 38 26 36 23 Bare 17 24 36 40 35 Litter 13 7 1 1 1 Total Bare and Litter 1 30 1 31 1 37 41 36 Total Plant Cover 1 70 1 69 1 63 63 68 Polos Verdes Peninsula Land Conservancy A-36 Table 6. Number of individual plants counted along 50-m transects. Species PIB4 PBS Total Acmispon glaber 0 2 2 Baccharis pilularis 2 4 2 Eriogonum fasciculatum 1 2 3 Isocoma menzieseii var. sedoides 1 1 2 Salvia leucophylla 1 0 1 Salvia mellifera 2 2 4 Stipa pulchra 2 0 2 Stipa SP. 1 0 1 Stipa SPP 1 0 1 Total Native Plants 11 7 18 NNAG 4 0 4 NNP 0 0 0 Total Non-native Plants 4 0 4 Bare 4 0 4 Litter 29 42 71 Total Bare and Litter 33 42 75 Total Plant Cover 15 7 22 Table 7. Percent cover for each species observed along the 50m transects. Species PB4 PBS Acmispon glaber 0 4 Baccharis pilularis 4 0 Encelia tali fornica 2 0 Eriogonum fasciculatum 2 4 Isocoma menziesii var. sedoides 2 2 Salvia leucophylla 2 0 Salvia mellifera 8 4 Stipa pulchra 4 0 Total Native Plants 24 14 NNAG 8 0 NNP 18 4 Total Non-native Plants 26 4 Bare 8 0 Litter 58 86 Total Bare and Litter 66 86 Total Plant Cover 50 18 Polos Verdes Peninsula Land Conservancy A-37 Table 8. Relative percent coverage among all species along the 50m transects. Species PB4 PBS Acmispon glaber 0 22 Baccharis pilularis 8 0 Encelia call fornica 4 0 Eriogonum fasciculatum 4 22 Isocoma menziesii var. sedoides 4 11 Salvia leucophylla 4 0 Salvia mellifera 16 22 Stipa pulchra 8 0 Total Native Plants 48 78 NNAG 16 0 NNP 36 22 Total Non-native Plants 52 22 Table 9. Average plant height (cm) by transect. f Species PB4 Acmispon glaber 0 PBS 8.0 Baccharis pilularis 0 67.0 Encelia tali fornica 0 50.5 Eriogonum fasciculatum 44.0 39.0 Isocoma menzeiesii var sedoides 38 0 Salvia leucophylla 0 60.0 Salvia mellifera 58.5 0 Stipa pulchra 0 61.0 Stipa spp 0 7.0 Polos Verdes Peninsula Land Conservancy • Table 10. Portuguese Bend Vegetation percent cover based on CNPS Rapid Vegetation Assessment Method Acmispon glaber 2 2 1 3 3 Alium angustifolium 1 Artemisia call fornica 8 12 7 8 6 20 4 2 Asclepias fascicularis 1 2 2 Astragalus trichopodus 5 4 Baccharis pilularis 2 3 11 3 1 Baccharis salici folia 1 1 Calystegia macrostegia 1 Cylindropuntia proli fera 5 Deinandra fasciculate 1 Dichelostemma capitatum 1 Elymus condensatus 2 1 Encelia tali fornica 1 4 16 4 7 2 15 Eriogonum cinereum 2 Eriogonum fasciculatum 4 6 4 3 1 4 1 1 Eriogonum parvifolium 1 1 Eschscholzia call fornica 1 5 1 1 Hazardia squarrosa 1 Heteromeles arbutifolia 5 3 7 4 2 2 1 Isocoma menziesii var. sedoides 1 1 2 2 1 2 1 Lupinus succulentus 1 Malacothrix saxatilis 1 1 3 1 Marah macrocarpa 3 1 Melica imperfecta 1 2 1 Mirabilis coli fornica 2 Opuntia littoralis 11 1 Phacelia cicutaria 1 1 Plantago sp. 2 2 Pseudognaphalium biolettii 1 Pseudognaphalium californicum 1 Pseudognaphalium sp 1 Rhus integrifolia 1 1 5 3 1 Salivia mellifera 3 Salix gooddingii 1 Salvia leucophylla 1 2 1 5 1 2 3 3 Salvia mellifera 2 3 3 2 Sambucus nigra 3 1 1 Sisyrinchium bellum 1 Stipa lepida 4 1 Polos Verdes Peninsula Land Conservancy A-39 Stipa pulchra Year 2 Cover of Native Species M Cactus Scrub' PVB 3 2 Year 1 * 1 10% 1 Unidentified No I 1 1 Year 2* 20% 20% 20% Alta Total Native Cover 27 47 39 43 26 40 54 24 38 NNAG 9 2 18 31 7 3 27 5 1 NNP 7 7 3 5 2 6 3 33 7 Total Non-native Cover 16 9 21 36 9 9 30 38 8 Bare 29 27 1 3 5 33 6 16 37 Litter 29 23 39 20 60 18 10 24 19 Total Bare and Litter 58 50 40 23 65 1 51 16 40 56 Total Plant Cover 43 56 60 79 35 1 49 84 62 46 Table 11. Alta Vicente and Portuguese Bend success criteria measures. Preserve Year CSS Cover of Native Species M Cactus Scrub' PVB Percent Cover of Non- native Species (%) Scrub'Percent CSS Cactus Year 1 * 10% 10% 10% Year 2* 20% 20% 20% Alta Year 3 >40% >30% 30%-60% Vicente max Year 5 >50% >40% 30%-60% max >40% >30% Year 3 (>_30% (>_20% perennial perennial) and 5% cactus) Portuguese <25% (<5% <25% (<5% Bend >40� perennials w/ perennials w/ Year 5 >50% (>_ 10% cactus) no CAL -IPC no CAL -IPC List A except List A except NNAG) NNAG) * Percentage based on visual estimates. Percentage coverage of cactus species should be at least I % for Year I, 3% for year 2, 5% for Year 3, and 10% for Year 5. 2 From Year 3 on, there should be at least 10% coverage from Acmispon glaber and/or Astragalus tricopodus and the woody shrubs should be maintained at 10-20%. CAL -IPC = California Invasive Plant Council NNAG = non-native annual grass Palos Verdes Peninsula Land Conservancy A-40 Palos Verdes Peninsula Land Conservancy Alta Vicente Monitoring Transects Legend f i'.. ButterflyHabitat Restoration IBM } A `4i/ Coastal Sage Scrub Restoration Southern Cactus Scrub Restoration 50m Transect 1 15 30 .1 Meters .`• ` ." 'tet. a - 0 0.0075 o.015 ;,:, Phase 5 P , E PB5/ Phase 3 F" �� a 101 Phase 1 and 2 Legend = Cactus Scrub F� = Coastal Sage Scrub - North -facing Slopes 7, = Coastal Sage Scrub - South to West -facing Slopes 50m Transect A-42 APPENDIX B ALTA VICENTE RESTORATION PLAN A-43 I Habitat Restoration Plan for the Alta Vicente Ecological Reserve in the Portuguese Bend Nature Preserve 4 _� AW FEBRUARY 2016 - a Irwn M114.zMOCIM U Palos Verdes Peninsula LAND CONMRYANLY Land Conservancy 916 Silver Spur Road, Suite 207 Rolling Hills Estates, CA 90274 and Dudek 605 Third Street Encinitas. CA 92024 A-45 HABITAT RESTORATION PLAN for the Alta Vicente Reserve in the Palos Verdes Nature Preserve Prepared for: Palos Verdes Peninsula Land Conservancy 916 Silver Spur Road, Suite 207 Rolling Hills Estates, California 90274 Contact: Danielle LeFer Prepared by: DUDLK 605 Third Street Encinitas, California 92024 Contact: Andy Thomson 760.479.4282 FEBRUARY 2016 Printed on 30% post -consumer recycled material. A-47 Habitat Restoration Plan for the Alta Vicente Reserve in the Palos Verdes Nature Preserve TABLE OF CONTENTS Section Page No. 1 INTRODUCTION..............................................................................................................1 2 EXISTING CONDITIONS...............................................................................................7 2.1 Site Description....................................................................................................... 7 2.2 Vegetation Communities........................................................................................ 7 4.1.2 2.2.1 Non-native Grassland.................................................................................. 7 31 2.2.2 Disturbed Coastal Sage Scrub..................................................................... 7 Erosion Control......................................................................................... 2.2.3 Disturbed Saltbrush Scrub.......................................................................... 8 2.2.4 Exotic Woodland........................................................................................ 8 2.3 Geology and Soils................................................................................................... 8 2.4 Special -Status Species............................................................................................ 9 2.5 Non -Native Invasive Species................................................................................ 10 2.6 Additional Considerations.................................................................................... 11 3 RESTORATION PROGRAM........................................................................................15 3.1 Restoration Site Goals and Objectives.................................................................. 15 3.2 Habitats to be Established..................................................................................... 16 4.1.2 3.2.1 Coastal Sage Scrub................................................................................... 21 31 3.2.2 Cactus Scrub............................................................................................. 22 Erosion Control......................................................................................... 3.2.3 Palos Verdes Blue Butterfly Habitat......................................................... 23 3.2.4 Wildflower Field....................................................................................... 25 3.3 Revegetation Materials......................................................................................... 26 3.4 Target Functions and Values................................................................................ 27 3.5 Time Lapse............................................................................................................ 27 4 RATIONALE FOR EXPECTING SUCCESS..............................................................29 4.1 Preliminary Schedule............................................................................................ 29 4.1.1 Site Preparation......................................................................................... 30 4.1.2 Supplemental Watering System................................................................ 31 4.1.3 Erosion Control......................................................................................... 32 4.1.4 Plant Installation....................................................................................... 32 4.1.5 Seed Application....................................................................................... 32 5 MAINTENANCE PLAN.................................................................................................33 5.1 Maintenance Activities......................................................................................... 33 5.2 General Habitat Maintenance Guidelines............................................................. 34 5.2.1 Weed Control............................................................................................ 34 9085 D U D E K i February 2016 A-48 Habitat Restoration Plan for the Alta Vicente Reserve in the Palos Verdes Nature Preserve TABLE OF CONTENTS (CONTINUED) Section Page No. 5.2.2 Supplemental Watering System................................................................ 35 5.2.3 Clearing and Trash Removal.................................................................... 35 5.3 Schedule of Maintenance Inspections................................................................... 35 6 MONITORING PLAN....................................................................................................37 6.1 Performance Standards......................................................................................... 37 6.2 Monitoring Methods and Schedule....................................................................... 38 6.3 Monitoring Reports............................................................................................... 39 7 REFERENCES.................................................................................................................41 FIGURES 1 Regional Map.......................................................................................................................3 2 Vicinity Map........................................................................................................................5 3 Existing Conditions............................................................................................................13 4 Site Photographs................................................................................................................17 5 Alta Vicente Restoration Area...........................................................................................19 TABLES 1 Non -Native Plant Species and Associated Cal -IPC Ratings..............................................10 2 Proposed Coastal Sage Scrub Planting Palette (Approximately 10.4 Acres) ....................21 3 Proposed Cactus Scrub Planting Palette (1.0 Acre)...........................................................23 4 Proposed Palos Verdes Blue Butterfly Habitat Planting Palette (1.0 Acre) ......................24 5 Proposed wildflower field Planting Palette (Approximately 0.5 Acre) .............................25 6 Preliminary Restoration Project Schedule.........................................................................29 7 Performance Standards......................................................................................................38 APPENDIX A Soil Test Results 9085 D U D E K ii February 2016 A-49 Habitat Restoration Plan for the Alta Vicente Reserve in the Palos Verdes Nature Preserve 1 INTRODUCTION This Habitat Restoration Plan (HRP) was prepared for the Alta Vicente Reserve within the Palos Verdes Nature Preserve (PVNP) located in the City of Rancho Palos Verdes, California (Figures 1 and 2). The Alta Vicente Reserve is one of ten ecological reserves within the approximately 1,400 -acre PVNP. The PVNP is owned by the City of Rancho Palos Verdes while habitat and conservation protection is managed by the Palos Verdes Peninsula Land Conservancy (PVPLC). This HRP discusses implementing approximately 12.9 acres of restoration, consisting of 10.4 acres of coastal sage scrub, 1.0 acre of cactus scrub, 1.0 acre of Palos Verdes blue butterfly habitat, and 0.5 acre of wildflower field in a disturbed area of the Alta Vicente Reserve currently dominated by non-native plant species. The HRP addresses restoration design, planting recommendations, installation procedures, maintenance requirements, monitoring methodology, and performance standards. 9085 D U D E I< 1 February 2016 A-50 Habitat Restoration Plan for the Alta Vicente Reserve in the Palos Verdes Nature Preserve INTENTIONALLY LEFT BLANK 9085 D U D E K 2 February 2016 A-51 Malibu Los Angeles Monica Gle Acton Vernon Altadena Pasadena San Marino EI Segundo Hawthorne Manhattan Beach Gardena Compton m Bell Redondo Beach Tor rance� Carson Palos Q Verdes Estates Rancho Palos Verdes Project Site P a c i f i c O c e a n e 0 110 'I Miles DUDEK 9085 Habitat Restoration Plan for the Alta Vicente Ecological Reserve in the Portuguese Bend Nature Preserve ® '1-4 Monrovia Duarte Glendora A-- Covina lacienda `H',eights Indust Walnut ry amo Rowland i gar \La Habra Heights HeighsAngel Cou Fe South j -r - rang County igs Whittier Habra—Brea ,La MiradaFullerton Chino Placentia Yorbe Linda m Anaheim ® Orange o Garden .Grove---' Iminster Santa Foothills Intain Ana Tustin Valley��® r'—fU\ Irvine El T\ oro R Santa Laguna Hills Mission Aliso Viejo Viejo Laguna Niguel San Juan Capistrano FIGURE 1 Regional Map A-52 Santa Clarita Simi -j -- Valley _— I San Fernando j Valley /Agoura I ,n, Malibu Los Angeles Monica Gle Acton Vernon Altadena Pasadena San Marino EI Segundo Hawthorne Manhattan Beach Gardena Compton m Bell Redondo Beach Tor rance� Carson Palos Q Verdes Estates Rancho Palos Verdes Project Site P a c i f i c O c e a n e 0 110 'I Miles DUDEK 9085 Habitat Restoration Plan for the Alta Vicente Ecological Reserve in the Portuguese Bend Nature Preserve ® '1-4 Monrovia Duarte Glendora A-- Covina lacienda `H',eights Indust Walnut ry amo Rowland i gar \La Habra Heights HeighsAngel Cou Fe South j -r - rang County igs Whittier Habra—Brea ,La MiradaFullerton Chino Placentia Yorbe Linda m Anaheim ® Orange o Garden .Grove---' Iminster Santa Foothills Intain Ana Tustin Valley��® r'—fU\ Irvine El T\ oro R Santa Laguna Hills Mission Aliso Viejo Viejo Laguna Niguel San Juan Capistrano FIGURE 1 Regional Map A-52 Habitat Restoration Plan for the Alta Vicente Reserve in the Palos Verdes Nature Preserve INTENTIONALLY LEFT BLANK 9085 D U D E K 4 February 2016 A-53 " w� O 6 s r 1 _ ` ,` •� = f Rollinlc Hills ' L a ; � •. r � t- f„ Project Site b� Li�M1thpu .- ._ �o4nt Vfeenta - � rs ;�„ WIIFI^[ TAia 3 6 � Lon({ Ppmt ® 0 1,000 2,000 Feet D U D E K SOURCE: USGS 7.5 -Minute Redondo Beach, San Pedro Series Quadrangles. Alta Vicente Restoration Site Preserve Boundary (2014) FIGURE 2 Vicinity Map 77,s Habitat Restoration Plan for the Alta Vicente Ecological Reserve in the Portuguese Bend Nature Preserve A-54 Habitat Restoration Plan for the Alta Vicente Reserve in the Palos Verdes Nature Preserve INTENTIONALLY LEFT BLANK 9085 D U D E K 6 February 2016 A-55 Habitat Restoration Plan for the Alta Vicente Reserve in the Palos Verdes Nature Preserve 2 EXISTING CONDITIONS 2.1 Site Description The Alta Vicente Reserve is located on the southwestern portion of the Palos Verdes Peninsula near the Rancho Palos Verdes City Administration building (City Hall). The entire Alta Vicente Reserve is approximately 55 acres and is located along the coast of the peninsula. The Reserve is north and east of Palos Verdes Drive West opposite from the Point Vicente Lighthouse. The proposed restoration area is located just north of the City Hall, bounded on the west by Palos Verdes Drive West and on the east by Hawthorn Boulevard (Figures 1 and 2). 2.2 Vegetation Communities Plant communities and land covers within the Alta Vicente Reserve are typical of plant communities found in this region, exhibiting some level of prior disturbance, but containing some relictual elements of the native plant communities. Vegetation mapping of the reserve was prepared by PVPLC and the California Native Plant Society (CNPS) (PVPLC and CNPS 2010). According to the vegetation mapping conducted by PVPLC and CNPS, the proposed restoration area consists of non-native grassland, disturbed coastal sage scrub, disturbed Saltbush scrub, and exotic woodland. The existing vegetation communities present in the restoration area are described further below. 2.2.1 Non-native Grassland Non-native grasslands, which were mapped by CNPS as fennel stands, Avena (A. barbata, A. fatua) stands, Bromus (B. diandrus, B. hordeaceus) stands, and California annual and perennial grassland macrogroup dominate the grassland habitat at Alta Vicente Reserve (PVPLC and CNPS 2010). Annual, non-native grassland generally occurs on fine -textured loam or clay soils that are moist or even waterlogged during the winter rainy season and very dry during the summer and fall. This plant community is characterized by dense to sparse cover of annual grasses, often with a combination of native and non-native annual forbs (Holland, 1986). Annual grassland is a disturbance related community that may have replaced native grassland or coastal sage scrub in many localities. On site, grassland habitats generally consist of brome grasses (Bromus diandrus, B. hordeaceus, B. rubens), wild oat (Avena fatua, A. barbata), fennel (Foeniculum vulgare) and other annual grasses (PVPLC and CNPS 2010). 2.2.2 Disturbed Coastal Sage Scrub Disturbed coastal sage scrub within the Alta Vicente restoration area was mapped by CNPS as Non-native/naturalized Mediterranean scrub vegetation, and Artemisia californica association 9085 D U D E I< 7 February 2016 A-56 Habitat Restoration Plan for the Alta Vicente Reserve in the Palos Verdes Nature Preserve (PVPLC and CNPS 2010). Coastal Sage Scrub is composed of low, subshrubs approximately 1 meter (3 feet) high, many of which are drought -deciduous (Holland, 1986). Dominant shrub type varies across this vegetation type, depending on localized factors and levels of disturbance, but often includes California Sagebrush (Artemisia californica) and California Brittlebush (Encelia californica). In this community the shrub layer primarily forms a continuous canopy, but it contains areas with an open canopy and a fairly well-developed understory. 2.2.3 Disturbed Saltbrush Scrub Saltbrush scrub is dominated by quailbush (Atriplex lentiformis). Shrubs are less than 3 meters (10 feet) tall with closed to open canopies (Sawyer and Keeler -Wolf, 1995). The saltbrush scrub on site, mapped by CNPS as Atriplex lentiformis alliance, has an open canopy and an understory consisting primarily of non-native annuals (PVPLC and CNPS 2010). 2.2.4 Exotic Woodland The exotic woodland in the restoration area is composed of non-native, and in some cases invasive, tree species. CNPS mapped these areas as acacia cyclops, but they include the additional exotic species Brazilian pepper (Schinus terebinthifolius), gum tree (Eucalyptus sp.), and Phoenix palm (Phoenix canariensis) among others (PVPLC and CNPS 2010). 2.3 Geology and Soils The Palos Verdes Peninsula is primarily an old marine terrace with relatively steep eroded canyons which drain southwesterly into the Pacific Ocean. The underlying geologic material consists of marine sedimentary and basaltic rocks. The area is seismically active, with active Palos Verdes and San Pedro fault zones that have caused the peninsula to uplift relative to the adjacent Los Angeles Basin and the offshore bedrock. According to the Report and General Soil Map for Los Angeles County (USDA 1969), the soils within the Alta Vicente Reserve are composed of the Altamont -Diablo association (30- 50% slopes) and the Diablo -Altamont association (2%-9% slopes). Soils of the Altamont - Diablo association occur on gently sloping to rolling foothills throughout the Los Angeles basin as far north as Point Dume. Altamont soils are described to be 24-36 inches deep, are well drained, and have slow subsoil permeability. Diablo soils are described to be 22-52 inches deep, are well drained, and have slow subsoil permeability. They have dark brown, neutral, clay surface layers about 12 inches thick underlain by a brown, calcareous clay subsoil. The Altamont -Diablo association is comprised of approximately 60% Altamont soils and 30% Diablo soils, while the Diablo -Altamont association is composed of approximately 60% Diablo soils and 30% Altamont soils. 9085 D U D E I< 8 February 2016 A-57 Habitat Restoration Plan for the Alta Vicente Reserve in the Palos Verdes Nature Preserve Three site specific soil samples were collected from the proposed restoration area (Figure 5). The soil samples consisted of composite samples representative of the general soil conditions at various locations on site. The composite samples were submitted to Wallace Laboratories for analysis of standard soil constituents, agricultural suitability, texture, and cation exchange capacity. Based on the results of the analysis, the soils are clay, with a slow infiltration rate and fair organic matter (Appendix A). The soils on site are slightly alkaline (pH = 7.87 - 7.95) and the salinity is low (ECe = 0.40 — 0.55 mho/cm). However, sodium is very high at soil sample site 1 with 536 mg/kg soil. The sodium adsorption ratio (SAR) is also high (6.8) at soil sample site 1 (increasing problems start at 3) but low at soil sample sites 2 and 3 (2.0 — 2.4). Additionally, major nutrients (nitrogen and phosphorus) are low. The soil chemistry found in the restoration site is generally what is expected given the location and site characteristics. The soils appear to be suitable for establishment of the target habitats without soil remediation or extensive soil amendments. Seed germination may be limited by elevated sodium and the moderately high SAR at sample site 1, but many species of native plants should be able to tolerate the elevated sodium if planted as container plants. While the soils on site pose no significant problems to establishment of native habitat, as native soils they have low levels of major nutrients. Native species are adapted to lower nutrient soils, but will benefit from some supplemental nutrient augmentation during planting to initiate establishment (e.g., slow-release fertilizer packet). 2.4 Special -Status Species Two special -status wildlife species have been documented within the Alta Vicente Reserve, though not in the specific area identified for restoration. Coastal California gnatcatcher (Polioptila californica californica) (CAGN) has been observed just south of the restoration area (Dudek and PVPLC 2007). Additionally, cactus wren (Campylorhynchus brunneicapillus) (CAWR) has been observed south of the restoration area (PVPLC 2012) (Figure 3). Additionally, Catalina mariposa lily (Calochortus catalinae), which is included on the CNPS Inventory of Rare and Endangered Plants list as a rank 4.2 species, exists on the boundaries (south and east) of the proposed restoration area (CNPS 2015; PVPLC and CNPS 2010) (Figure 3). In addition to special -status species, the host plant coastal buckwheat (Eriogonum parvifolium) for the federally listed, endangered, El Segundo blue butterfly (Euphilotes battoides allyni) is known to occur in the vicinity of the proposed restoration area and was observed at Alta Vicente in 2015 (A. Dalkey [PVPLC] personal communication). The host plant, locoweed (Astragalus trichopodus var. lonchus) for the federally listed, endangered, Palos Verdes blue butterfly (Glaucopsyche lygdamus palosverdesensis) also occurs within the Alta Vicente Reserve. 9085 D U D E I< 9 February 2016 A-58 Habitat Restoration Plan for the Alta Vicente Reserve in the Palos Verdes Nature Preserve 2.5 Non -Native Invasive Species Non-native species are abundant within the areas identified for restoration, and compose the majority of the existing vegetative cover. Controlling non-native species during the plant establishment phase will present a significant challenge, and should be prioritized as the most critical aspect of the maintenance program. The most predominant non-native species include non-native annual grasses, coastal wattle (Acacia cyclops), and fennel. These species, as well as additional non-native species observed or expected on site, are provided in Table 1 with their associated rating in the California Invasive Plant Council's (Cal -IPC) Inventory of Invasive Plant Species (2015). Table 1 Non -Native Plant Species and Associated Cal -IPC Ratings High Bromus madritensis ssp. madritensis—compact brome Carpobrotus edulis—hottentot fig Foeniculum vulgare—fennel Moderate Atriplex semibaccata—Australian saltbush Avena barbata—slender oat Brachypodium distachyon – false brome Brassica nigra – black mustard Bromus diandrus—ripgut brome Centaurea melitensis—Maltese star -thistle Euphorbia terracina—Geraldton carnation weed Glebionis coronaria—crowndaisy Hordeum murinum—mouse barley Mesembryanthemum crystallinum—common iceplant Myoporum laetum—myoporum Pennisetum setaceum—crimson fountaingrass Limited Bromus hordeaceus—soft brome **Eucalyptus spp. – red gum, blue gum Erodium cicutarium—redstem stork's bill Helminthotheca echioides – bristly ox -tongue Marrubium vulgare—horehound Olea europaea—olive **Phoenix canariensis—Phoenix palm Ricinus communis—castorbean Salsola tragus—prickly Russian thistle Schinus terebinthifolius—Brazilian peppertree 9085 D U D E K 10 February 2016 A-59 Habitat Restoration Plan for the Alta Vicente Reserve in the Palos Verdes Nature Preserve Table 1 Non -Native Plant Species and Associated Cal -IPC Ratings None *Acacia cyclops—coastal wattle *Malva parviflora—cheeseweed mallow *Melilotus indicus—annual yellow sweetclover **Pinus sp.—pine *Tropaeolum majus—nasturtium * Note that while there are several species on the list that do not have a Cal -IPC rating for the state of California, that some of these species can be locally invasive. Species with an asterisk are considered to be moderately invasive within the region and should be aggressively controlled. The Targeted Exotic Removal Program for Plants (TERPP) provides additional target invasive species (PVPLC 2013) that may occur on site ** Note that some of these mature non-native omamental trees that are not presenting a significant threat of invasion will be left in place and not removed in order to retain avian habitat and the general character of the site. Seedlings and young saplings less than 5 feet tall will be removed. 2.6 Additional Considerations A fifteen foot wide sewer easement currently bisects the restoration area, from north to south, along the visible access road (Alta Vicente Trail). The City of Rancho Palos Verdes granted a perpetual easement to the County Sanitation District No. 5 of Los Angeles County, allowing right-of-way for sewer purposes, with the requirement to repair and replace the surface of the ground and its improvements if damaged during operation. No buffers for restoration are required but it is suggested that restoration activities do not impede access to the man holes along the access road. In addition, one or more electric utility poles intersect the restoration area on the southwestern border. Restoration activities should allow a 15 -foot buffer around utility poles, with these areas being monitored and managed for only particularly weeds identified as highly invasive by Cal IPC, that threaten to spread into the restoration areas. Fuel modification areas on the periphery of the reserve, adjacent to built areas, will be managed in a similar manner. 9085 D U D E I< 11 February 2016 A-60 Habitat Restoration Plan for the Alta Vicente Reserve in the Palos Verdes Nature Preserve INTENTIONALLY LEFT BLANK 9085 D U D E K 12 February 2016 A-61 A-62 Habitat Restoration Plan for the Alta Vicente Reserve in the Palos Verdes Nature Preserve INTENTIONALLY LEFT BLANK 9085 D U D E K 14 February 2016 A-63 Habitat Restoration Plan for the Alta Vicente Reserve in the Palos Verdes Nature Preserve 3 RESTORATION PROGRAM This HRP outlines the restoration implementation strategy for upland habitat at the Alta Vicente Reserve and proposes to provide for the restoration of approximately 12.9 acres of habitat restoration. The approach to restoration in this HRP is to assist the recovery of the degraded ecosystem through planting and seeding in order to re-establish or enhance biological functions and services within portions of the Alta Vicente Reserve. 3.1 Restoration Site Goals and Objectives The disturbed habitat that exists in the proposed restoration location has limited wildlife value and provides opportunity for the spread and establishment of invasive weed species to native habitat and previously restored areas within the Alta Vicente Reserve. The planting of native habitat is intended to improve habitat contiguity and provide increased nesting, cover, and foraging opportunities for wildlife. In particular, the overarching goal of this restoration plan is to provide habitat for coastal California gnatcatcher, coastal cactus wren and the Palos Verdes blue butterfly. The habitat restoration program will focus on the establishment of habitat for the covered species listed in the NCCP/HCP with the objective of increasing the overall habitat carrying capacity for the target species populations. Coastal scrub restoration is intended to provide improved foraging habitat for resident and migrating wildlife species, and potential nesting and foraging habitat for target species such as the coastal California gnatcatcher, southern California rufous -crowned sparrow, and other sensitive wildlife species. Palos Verdes blue butterfly habitat restoration is meant to provide improved habitat and increased numbers of larval host plants for the Palos Verdes blue butterfly. Cactus scrub restoration is meant to provide habitat for the coastal cactus wren. Achievement of the performance standards described herein would create suitable habitat for these species. However, occupation of the site by these species is not a requirement for successful project completion. In addition to these broad goals, the following site-specific objectives for the Alta Vicente Reserve restoration site have been incorporated into this HRP in the interest of minimizing adverse impacts to biological resources: Avoid additional or unplanned disturbance to existing native habitats during implementation of the project construction and long-term maintenance activities; Prevent any impacts to sensitive plant or wildlife species during implementation of the project construction and long-term maintenance activities; 9085 D U D E I< 15 February 2016 A-64 Habitat Restoration Plan for the Alta Vicente Reserve in the Palos Verdes Nature Preserve Control non-native invasive weed species considered to be highly or moderately invasive on the Cal -IPC Invasive Plant Inventory (2015), and others identified by PVPLC as locally invasive (PVPLC 2013); Utilize erosion control measures in the form of "Best Management Practices" (BMPs) on the site as conditions necessitate; Reintroduce special -status plant species listed in the NCCP/HCP as components of the planting plans where feasible and as appropriate. 3.2 Habitats to be Established The habitat restoration program consists of site preparation (primarily non-native plant species removal), native planting, seeding, supplemental watering, maintenance, and monitoring. Proposed planting for the target habitat types will focus primarily on the installation of container plants to achieve the project goals. A native seed mix will also be applied as a supplemental measure to increase cover and diversity. The habitat restoration area is currently dominated by non-native species. The existing grasslands in the western and central portions of the restoration area are composed largely of non-native annual herbs, including fennel, brome grasses, Russian thistle, and wild oat grasses (Figure 4). A number of non-native perennials, such as coastal wattle, Phoenix palm, and Brazilian pepper are also common within the restoration area. Coastal sage scrub habitat will make up the majority of the restored habitat within the restoration area (Figure 5). Additionally, cactus scrub is planned for the slope immediately west of Hawthorne Boulevard and Palos Verdes blue butterfly habitat is planned for the gently sloping area in the eastern portion of the restoration site. A wildflower field to provide habitat for pollinators has also been planned for an approximately 0.5 -acre area in the northwestern portion of the restoration area near Palos Verdes Drive West. Each specific habitat type to be restored is described below. It is expected that all planting will be installed to mimic the natural distribution and vegetation mosaic of adjacent healthy habitats. 9085 D U D E I< 16 February 2016 A-65 N Photo 1: Representative view of lower restoration area (facing north) Photo 4: Northern border of the restoration area (facing south-west) DUDEK 9085 Photo 2: Non-native plants in the lower restoration area (black mustard, brome grasses, coastal wattle) Photo 5: Invasive perennial weeds in the eastern section of the restoration area (Coastal wattle, Phoenix palm) Habitat Restoration Plan for the Alta Vicente Ecological Reserve in the Palos Verdes Nature Preserve MM T f V _JS - l - .0, Photo 3: Trail on the southern side of the restoration area Photo 6: Invasive annual weeds in the restoration site (Fennel, black mustard, wild oat) FIGURE 4 Site Photographs Habitat Restoration Plan for the Alta Vicente Reserve in the Palos Verdes Nature Preserve INTENTIONALLY LEFT BLANK 9085 D U D E K 18 February 2016 A-67 Point Vicente Park W, ie Ven Vie Al. Vol Now- E� 6 E3 —.r, 4, 0 0 (D 110 Point Vio N 0awthome Habitat Restoration Plan for the Alta Vicente Reserve in the Palos Verdes Nature Preserve INTENTIONALLY LEFT BLANK 9085 D U D E K 20 February 2016 A-69 Habitat Restoration Plan for the Alta Vicente Reserve in the Palos Verdes Nature Preserve 3.2.1 Coastal Sage Scrub The restoration strategy for coastal sage scrub habitat on the Alta Vicente Reserve restoration site includes reintroducing locally appropriate native coastal sage scrub species that are currently present in adjacent native habitats. The plant palette includes a container plant and seed mix composition (Table 2) that has been designed to replicate the native composition of a healthy coastal sage scrub plant community similar to existing coastal sage scrub habitat present on the Alta Vicente Reserve site, and with the specific intent to provide habitat suitable for occupation by coastal California gnatcatcher. The planting palette has thus been designed to contain a composition of shrub species that are dominant in coastal sage scrub habitat occupied by coastal California gnatcatcher (Atwood et al. 1994). On the Palos Verdes Peninsula, the primary coastal sage scrub dominants include California sagebrush, California brittlebush, and coastal buckwheat, with coast goldenbush, common deerweed, lemonadeberry, California buckwheat, sages, bladderpod, coast prickly -pear, and wishbone bush as common constituents. The plant palette assumes 100% coverage of container plants. The seed mix is provided for erosion control and species diversity, and will be applied as a supplemental measure as needed, and as determined by PVPLC. Table 2 Proposed Coastal Sage Scrub Planting Palette (Approximately 10.4 Acres) Botanical Name Common Name Container Size Spacing on center) Group Size Quantity (per acre) Total # Plants Container Plants Artemisia californica California sagebrush D40 5 5 659 6,852 Astragalus trichopodus var. lonchus Ocean locoweed D40 2 7 54 566 Brickellia californica California bricklebush D40 5 3 87 906 Corethrogyne filaginifolia Common sandaster D40 3 3 24 252 Cylindropuntia prolifera** Coastal cholla 1 -gallon 4 5 27 283 *Dudleya lanceolata Lanceleaf liveforever 1 -gallon 2 3 11 113 Elymus condensatus Giant wildrye D40 5 3 42 435 Encelia californica California brittlebush D40 4 5 350 3,640 Eriogonum cinereum Coastal buckwheat D40 5 5 87 906 Eriogonum fasciculatum California buckwheat D40 5 5 232 2412 Eriophyllum confertiflorum Golden yarrow D40 2 3 54 566 Heteromeles arbutifolia Toyon D40 8 1 14 142 Isocoma menziesii Coast goldenbush D40 5 3 87 906 Mirabilis laevis var. crassifolia Wishbone bush D40 4 5 82 849 Opuntia littoralis/oricola" Prickly -pear cactus 1 -gallon 6 3 12 126 Peritoma arborea Bladderpod D40 6 5 36 378 9085 D U D E I< 21 February 2016 A-70 Habitat Restoration Plan for the Alta Vicente Reserve in the Palos Verdes Nature Preserve Table 2 Proposed Coastal Sage Scrub Planting Palette (Approximately 10.4 Acres) Botanical Name Common Name Container Spacing Group Size (on center) Size Quantity (per acre) Total # Plants Rhus integrifolia Lemonadeberry D40 12 1 3 31 Salvia leucophylla Purple sage D40 6 5 61 629 Salvia mellifera Black sage D40 5 1 3 87 906 Total Container Plants 2,009 20,898 Seed Mix Botanical Name Common Name Pure Live Seed Lbs. Per Acre Total Lbs. Asclepias fascicularis narrow leaved milkweed 50 1.0 10.4 Castilleja exserta purple owl's clover 25 0.5 5.2 Clarkia purpurea winecup clarkia 80 0.5 5.2 Deinandra fasciculata fascicled tarplant 3 1.0 10.4 Eschscholzia californica var maritima California poppy 74 2.0 20.8 Lupinus bicolor pygmy lupine 78 2.0 20.8 Lupinus succulentus arroyo lupine 81 4.0 41.6 Melica imperfecta coast melic grass 54 0.5 5.2 Pseudognaphalium californicum California everlasting 3 0.5 5.2 Stipa lepida foothill needlegrass 54 2.0 20.8 Stipa pulchra Purple needlegrass 42 8.0 83.2 Total Lbs. 22.0 228.8 Lanceleaf liveforever (Dudleya lanceolata) should be planted in rock outcrops. ** Larger (5 or 10 gallon) container size plants will be installed as available. 3.2.2 Cactus Scrub The restoration strategy for cactus scrub is comparable to that described for coastal sage scrub, except that the composition of species has been modified to allow coast prickly -pear cactus (Opuntia littoralis) and coast cholla (Cylindropuntia prolifera) to dominate. The plant palette includes a container plant and seed mix composition (Table 3) that has been designed to replicate the native composition of a healthy cactus scrub plant community, and with the specific intent to provide habitat suitable for occupation by cactus wren. 9085 D U D E K 22 February 2016 A-71 Habitat Restoration Plan for the Alta Vicente Reserve in the Palos Verdes Nature Preserve Table 3 Proposed Cactus Scrub Planting Palette (1.0 Acre) Botanical Name Common Name Container Size Spacing (on center) Group Size Quantity (per acre) Total # Plants Container Plants Artemisia californica California sagebrush D40 5 5 313 313 Astragalus trichopodus var. Ocean locoweed D40 3 7 lonchus 24 24 Baccharis pilularis Coyote brush D40 6 5 12 12 Brickellia californica California bricklebush D40 5 5 17 17 Corethrogyne filaginifolia Common sandaster D40 3 3 24 24 Cylindropuntia prolifera" Coastal cholla 1 -gallon 4 1 10 408 408 Encelia californica California brittlebush D40 5 3 87 87 Eriogonum fasciculatum California buckwheat D40 5 5 174 174 Isocoma menziesh Coast goldenbush D40 5 5 17 17 Mirabilis laevis var. crassifolia Wishbone bush D40 4 5 27 27 Opuntia littoralis/oricola" Coast prickly -pear 1 -gallon 6 25 523 523 Peritoma arborea Bladderpod D40 6 5 12 12 Rhus integrifolia Lemonadeberry D40 15 1 2 2 Salvia mellifera Black sage D40 5 3 87 87 Total Container Plants 1,727 1,727 Seed Mix Botanical Name Common Name Pure Live Seed Lbs. Per Acre Total Lbs. Eschscholzia californica var. maritima California poppy 74 3.0 3.0 Lupinus bicolor Miniature lupine 78 2.0 2.0 Phacelia cicutaria Caterpillar phacelia 80 1.0 1.0 Salvia columbariae Chia 54 1.0 1.0 Stipa lepida Foothill needlegrass 54 2.0 2.0 Stipa pulchra Purple needle -grass 42 8.0 8.0 Total Lbs. Per Acre 17.0 17.0 ** Larger (5 or 10 gallon) container size plants will be installed as available. 3.2.3 Palos Verdes Blue Butterfly Habitat The restoration strategy for Palos Verdes blue butterfly habitat is comparable to that described for coastal sage scrub, except that the composition of species was modified to be dominated by locoweed, the Palos Verdes blue butterfly host plant that was historically present at the site (Table 4). This plant species is considered early successional and is often found in the open areas of coastal sage scrub communities. 9085 D U D E I< 23 February 2016 A-72 Habitat Restoration Plan for the Alta Vicente Reserve in the Palos Verdes Nature Preserve Historically this host plant species was associated with natural occurrences such as fire, landslides, and animal burrowing. With the introduction of human intervention, this natural cycle of disturbance and growth has changed. Humans have introduced many highly adaptable annual exotic grasses that flourish in these same open areas inhabited by ocean locoweed and out -compete the native species for both water and nutrients. In addition, fire suppression has resulted in the establishment of continuous bands of mature coastal sage scrub communities, whereby not only is species diversity decreased, but open areas required for the establishment and development of species such as ocean locoweed are decreased as well. To maximize the potential for the continued presence of the two Palos Verdes blue butterfly host plant species, restoration efforts must follow a two -fold approach. First, is the establishment of additional Palos Verdes Blue butterfly habitat to provide the necessary resources to support the blue butterfly. In addition, newly established habitat must be maintained on a continuous basis to ensure the continued existence of gaps which provide the open areas necessary for the host plant to persist. Since fire, in the form of controlled burns, is not an option at the Alta Vicente site, open areas may require regular through mechanical means. The shrub spacing provided in the planting palette is slightly greater than in the CSS restoration areas and the planting palette is designed for only 50% coverage (including 30% coverage of ocean locoweed and 20% coverage of other shrubs) to allow for more openings in the habitat. Table 4 Proposed Palos Verdes Blue Butterfly Habitat Planting Palette (1.0 Acre) Botanical Name Common Name Container Size Spacing (on center) Group Size Quantity (per acre) Total # Plants Container Plants Artemisia californica California sagebrush D40 6 5 61 61 Astragalus trichopodus var. lonchus Ocean locoweed D40 2 7 1,634 1,634 Corethrogyne filaginifolia Common sandaster D40 3 3 145 145 *Dudleya lanceolata Lanceleaf liveforever 1 -gallon 2 3 54 54 Elymus condensatus Giant wildrye D40 6 3 6 6 Encelia californica California brittlebush D40 6 3 12 12 Eriogonum fasciculatum California buckwheat D40 6 5 24 24 Eriogonum parvifolium Coast buckwheat D40 6 5 12 12 Eriophyllum confertiflorum Golden yarrow D40 3 3 97 97 Mirabilis laevis var. crassifolia Wishbone bush D40 4 5 54 54 Peritoma arbores Bladderpod D40 6 5 12 12 Salvia leucophylla Purple sage D40 6 5 12 12 Salvia mellifera Black sage D40 6 3 12 12 Total Container Plants 2,135 2,135 9085 D U D E I< 24 February 2016 A-73 Habitat Restoration Plan for the Alta Vicente Reserve in the Palos Verdes Nature Preserve Table 4 Proposed Palos Verdes Blue Butterfly Habitat Planting Palette (1.0 Acre) Seed Mix Botanical Name Common Name Pure Live Seed Lbs. Per Acre Total Lbs. Asclepias fascicularis narrow leaved milkweed 50 1.0 1.0 Castilleja exserta purple owl clover 25 0.5 0.5 Clarkia purpurea winecup clarkia 80 0.5 0.5 Deinandra fasciculata fascicled tarplant 3 1.0 1.0 Eschscholzia californica var. maritima California poppy 74 2.0 2.0 Lasthenia californica California goldfields 30 1.0 1.0 Layia platyglossa tidy tips 60 1.0 1.0 Lupinus bicolor pygmy lupine 78 2.0 2.0 Lupinus succulentus arroyo lupine 1 81 4.0 4.0 Stipa lepida foothill needlegrass 54 2.0 2.0 Stipa pulchra purple needlegrass 42 8.0 8.0 Total Lbs. 23.0 23.0 Lanceleaf liveforever (Dudleya lanceolafa) should be planted in rock outcrops. 3.2.4 Wildflower Field The wildflower field planting is included in the HRP by request of the Palos Verdes Peninsula Land Conservancy. The location for the wildflower field was selected because the high clay content soil creates favorable conditions for the establishment of annual wildflower habitat (Table 5). Showy native wildflower species have been selected for this planting area. Additionally, a few shrubs have been included in the planting palette to develop a patchy structure to the planting, and provide for perimeter perennial plants along the roadway. A few bulb species are also included in the planting palette to be incorporated by PVPLC as available. Table 5 Proposed wildflower field Planting Palette (Approximately 0.5 Acre) 9085 D U D E I< 25 February 2016 A-74 Spacing Container (on Group Quantity Total # Botanical Name Common Name Size center) Size (per acre) Plants Container Plants Bloomeria croceal Goldenstar Bulb 1 1 as TBD available Brodiaea jolonensis' Jolon brodiaea Bulb 1 1 as TBD available Calochortus catalinael Catalina mariposa Bulb 1 1 as TBD lily available 9085 D U D E I< 25 February 2016 A-74 Habitat Restoration Plan for the Alta Vicente Reserve in the Palos Verdes Nature Preserve Table 5 Proposed wildflower field Planting Palette (Approximately 0.5 Acre) Botanical Name Common Name Container Size Spacing (on center) Group Size Quantity (per acre) Total # Plants Dichelostemma capitatum' Blue Dicks Bulb 1 1 as available TBD Dudleya virens Bright green dudleya D40 2 3 218 109 Epilobium canum California fuchsia D40 3 5 145 73 Eriophyllum confertiflorum Golden yarrow D40 2 3 327 163 Eschscholzia cafifornica var. madtima California poppy D40 2 5 545 272 Mirabilis laevis var. crassifolia Wishbone bush D40 4 3 163 82 Verbena lasiostachys Western vervain D40 4 1 3 82 41 Total Container Plants 1,480 740 Seed Mix Botanical Name Common Name Pure Live Seed Lbs. Per Acre Total Lbs. Amsinckia intermedia Common Fiddleneck 49 1.0 0.5 Antirrhinum nuttallianum Purple Snapdragon 10 0.5 0.25 Asclepias fascicularis Narrowleaf milkweed 50 1.0 0.5 Castilleja exserta Purple owl's clover 25 0.5 0.25 Clarkia purpurea Winecup clarkia 80 0.5 0.25 Corethrogyne filaginifolia California -aster 80 2.0 1.0 Deinandra fasciculata fascicled tarplant 0.1 1.0 0.5 Emmenanthe penduliflora Whispering Bells 3 0.5 0.25 Eschscholzia californica var. maritima California poppy 50 2.0 1.0 Lasthenia californica California goldfields 74 0.5 0.25 Layia platyglossa Tidy tips 30 1.0 0.5 Lupinus bicolor Miniature lupine 60 2.0 1.0 Lupinus succulentus Arroyo lupine 78 6.0 3.0 Nemophila menziesii Baby blue eyes 81 0.5 0.25 Phacelia cicutaria Caterpillar phacelia 83 0.5 0.25 Phacelia ramosissima Branching phacelia 80 0.5 0.25 Salvia columbariae Chia 80 1.0 0.5 Sisyrinchium bellum Blue-eyed grass 54 3.0 1.5 Stipa lepida Foothill needlegrass 71 2.0 1.0 Stipa pulchra Purple needlegrass 54 8.0 4.0 Total Lbs. Per Acre 34.0 17.0 The PVPLC has propagated limited numbers of these species TBD = To be determined 3.3 Revegetation Materials Plant materials for the restoration planting area will include container stock and seed of coastal scrub and species, as indicated in the plant palettes provided in Tables 2-5. As much as feasible, 9085 D U D E K 26 February 2016 A-75 Habitat Restoration Plan for the Alta Vicente Reserve in the Palos Verdes Nature Preserve the container plant materials will be grown at the PVPLC nursery from native seed collected on the Palos Verdes Peninsula. The nursery will grow the plants in D40 Deepots. Additionally, for the seed mixes, PVPLC will collect available seed from the peninsula for application at the restoration site. If some species cannot be grown as container stock at the PVPLC nursery, or local seed is not available for collection, the planting palettes may be adjusted, or another source may be used for acquiring locally sourced plant materials. 3.4 Target Functions and Values The primary functional goal of restoring coastal sage scrub, cactus scrub, Palos Verdes blue butterfly habitat, and wildflower field habitat is to restore vegetation that contains a diversity of native coastal scrub plant species and that provides habitat value for sensitive wildlife species, particularly the coastal California gnatcatcher, coastal cactus wren and Palos Verdes blue butterfly. Additionally, a secondary consideration is to create contiguous and intact habitat which can resist the re-establishment of invasive plant species. 3.5 Time Lapse The length of time to develop high quality habitat depends on a variety of factors including weather, soil conditions, herbivory, weed competition, and maintenance quality. Under optimal conditions, coastal sage scrub may take approximately three years from the application of seed and installation of container plants to develop the appropriate structure to provide the functions and values needed for habitation of wildlife, including suitable nesting habitat for California gnatcatcher and other coastal scrub species. In an unirrigated setting, and with drought conditions, scrub development may take longer than three years to mature enough to be suitable for nesting. As a hedge against drought, the addition of supplemental watering will increase plant survival, improve establishment, and hasten habitat development. 9085 D U D E I< 27 February 2016 A-76 Habitat Restoration Plan for the Alta Vicente Reserve in the Palos Verdes Nature Preserve INTENTIONALLY LEFT BLANK 9085 D U D E K 28 February 2016 A-77 Habitat Restoration Plan for the Alta Vicente Reserve in the Palos Verdes Nature Preserve 4 RATIONALE FOR EXPECTING SUCCESS The identified locations for restoration on the Alta Vicente Reserve are directly adjacent to viable and self-sustaining target habitats, indicating appropriate environmental conditions to support the intended upland habitats. This HRP includes a provision for supplemental watering to promote establishment and survival of native species included in the plant palette. The HRP also includes a 5 -year maintenance plan, wherein invasive non-native weeds within the restoration site will be controlled to aid native plant establishment. Additionally, native plant materials will be grown or collected from sources on the Palos Verdes Peninsula, thus preserving genetic integrity and increasing the potential for long-term success. 4.1 Preliminary Schedule Appropriate timing of planting and seeding will minimize the need for supplemental watering and will increase the survival rate of the installed plants. For unirrigated restoration sites, or sites with limitations on irrigation systems, the best survival rates are achieved when container plants and seed are installed at the onset of the rainy season or soon thereafter (November through January). Planting and seeding at the site should be timed to take advantage of seasonal rainfall patterns and most appropriate growing season temperatures (see Charts 1-2 and Table 6). Seed application will occur only after container plants have had a full year to become established, and will be used to increase species density and diversity as needed. Table 6 Preliminary Restoration Project Schedule a Site clearing ; Fall 2015 Invasive weed species control and grow -kill cycles Winter and Spring 2016 Installation of supplemental watering system* Summer 2016 Planting container stock Fall and Early Winter 2016 Seed application Fall and Early Winter 2017 Monitoring and maintenance To begin upon successful installation of container plants * Supplemental watering system may not be installed if supplemental watering is to be conducted using a watering truck. 9085 D U D E I< 29 February 2016 A-78 3.50 3.00 2.50 2.00 w m t U C 1.50 1.00 0.50 0.00 ooC� Z, °oVI 0. Habitat Restoration Plan for the Alta Vicente Reserve in the Palos Verdes Nature Preserve Chart 1 Average Monthly Precipitation for the Portuguese Bend Nature Preserve 80.OD 70.OD 60.00 50.00 LL_ d 3 i� 40.OD CLd E 30.OD 20.OD 10.00 0.00 Month Chart 2 Average Monthly Temperatures for the Portuguese Bend Nature Preserve G°���t�yo Month 9085 D U D E I< 30 February 2016 A-79 Habitat Restoration Plan for the Alta Vicente Reserve in the Palos Verdes Nature Preserve 4.1.1 Site Preparation Site preparation includes control of invasive weed species and soil preparation in the restoration area. If any clearing of weeds is planned to be performed during the migratory bird nesting season (February 15—September 15), a nesting bird survey should be conducted by a qualified wildlife biologist within 72 hours prior to vegetation removal in accordance with the Migratory Bird Treaty Act (16 U.S.G. 703-712). During site preparation, all invasive weed species, particularly non-native annual grasses, black mustard, fennel, and castor bean should be killed and removed from the restoration area. Invasive species control should also include exotic trees and shrubs such as Brazilian pepper, acacia, and palms as directed by PVPLC staff. The initial weed control effort will involve a combination of chemical and mechanical treatment. Prior to the installation of native plant materials, "grow and kill" weed removal treatments should be conducted by allowing non-native seedling emergence in the winter and spring. When weeds have begun to grow, and before they begin to develop flowers or flowering structures, a foliar application of an appropriate systemic herbicide should be applied to kill target weeds. If adequate rainfall has occurred during this period, multiple grow -kill cycles should be repeated. The restoration ecologist will provide weed control recommendations to the restoration maintenance staff that are specific to the target weed species identified for control. Any use of herbicides shall be in accordance with label instructions, following the recommendations of a licensed Pest Control Advisor, and any application shall be applied under the direction of a state - certified Qualified Applicator. 4.1.2 Supplemental Watering System The planned method of providing supplemental watering at the proposed restoration area is with a temporary above -ground drip irrigation system. This will help ensure that native container plants and seed installed on site will become adequately established. The supplemental watering system would only be used until the plants are established such that they can survive on their own between periods of rainfall. It is expected that, depending upon the level of plant establishment, the watering system would be removed after two to three years of use. Watering on site will gradually be decreased prior to the removal of the system so the plants can become acclimated to the site's natural conditions. The PVPLC may establish temporary on -grade mainlines leading from the point of connection at City Hall, which was established for a previous restoration project within the Alta Vicente Reserve. The system should be designed by a landscape architect to ensure that 9085 D U D E I< 31 February 2016 A-80 Habitat Restoration Plan for the Alta Vicente Reserve in the Palos Verdes Nature Preserve the system has adequate water pressure and provides good coverage. The supplemental watering system would be installed as an above -ground system, so that irrigation equipment may be removed once the system has been decommissioned, and the container plants planted on site have become established. 4.1.3 Erosion Control Where needed, erosion control measures, such as the installation of sandbags, fiber rolls, silt fencing, and/or erosion -control matting may be necessary to control erosion until target vegetation is established. At a minimum, silt fencing should be installed at the toe of slopes that are unvegetated after removing non-native species. No erosion control devices should be used that contain seed from non-native plants. The need and location of erosion control will be determined in the field by the project's restoration ecologist. 4.1.4 Plant Installation Standard planting procedures will be employed for installing container stock. Planting holes shall be approximately twice the width of the rootball, and as deep. If dry soil conditions exist at the time of plant installation, planting holes will be filled with water and allowed to drain immediately prior to planting. A fertilizer packet with controlled -release fertilizer (e.g., Best Paks 20-10-5) will be placed in the bottom of each hole prior to planting. 4.1.5 Seed Application Seed shall be broadcast throughout the restoration site using hydroseed equipment or other method as recommended by the restoration ecologist. If the seed is applied through hydroseeding, seed will be mixed uniformly in a slurry composed of water and virgin wood fiber mulch at the following rates: Seed mixture at indicated lbs. per acre. 100 percent Virgin wood fiber mulch at 2,500 Lbs. per acre. The seed mix can also be hand broadcast, as the seed mix is primarily a supplemental feature to increase diversity and will not occur until the second year of the Restoration Program. If hand broadcast, the seeding sites should be prepared by removing weedy vegetation to expose the soil surface. The seed should be raked into the soil so there is good seed -soil contact. Seeding should be timed to occur prior to or early in the rainy season. 9085 D U D E I< 32 February 2016 A-81 Habitat Restoration Plan for the Alta Vicente Reserve in the Palos Verdes Nature Preserve 5 MAINTENANCE PLAN The purpose of the maintenance plan is to provide guidelines for long-term maintenance of the restoration site during the establishment period. Maintenance activities will be initiated during the weed reduction period (i.e., grow -kill cycles), and will occur at the direction of the project's restoration ecologist on an as -needed basis. The maintenance period will intensify after the installation of the container plants. Maintenance will be necessary until the habitats are fully established, which is estimated to take approximately five years. Because the goal of this project is to establish a natural system that can support itself with little or no maintenance, the primary focus of the maintenance plan is concentrated in the first few seasons of plant growth following the revegetation effort, at a time when weeds can easily out -compete native plants. The intensity of the maintenance activity is expected to subside each year as the native plants become established, and local competition from non-native plants for resources is minimized through direct removal and treatment of non- native plants. 5.1 Maintenance Activities Maintenance activities will be primarily related to non-native invasive plant species control. Supplemental watering, supplemental planting, trash removal, and erosion control will also be conducted, as necessary. Non-native plant species should be controlled as soon as they begin to establish. Recommended control methods should be tailored to each specific weed species and should include the most effective control measures for the species and time of year. Control methods may include a combination of manual, mechanical, and chemical control. Container plants should be watered when natural rainfall is not adequate to sustain the establishing plants. The project's restoration ecologist will be responsible for scheduling the supplemental watering to promote plant establishment. Supplemental watering should be conducted as deep, soaking watering to promote deep rooting. Generally, the site will not be fertilized during the maintenance period unless determined to be necessary by the project's restoration ecologist as a remedial measure to correct soil nutrient deficiencies. Deadwood and leaf litter of native vegetation should not be removed. Deadwood and leaf litter provide valuable microhabitats for invertebrates, reptiles, small mammals, and birds. Non-organic trash and debris should be removed from the revegetation area on a regular basis. 9085 D U D E I< 33 February 2016 A-82 Habitat Restoration Plan for the Alta Vicente Reserve in the Palos Verdes Nature Preserve Erosion control materials should be maintained in working order until they are deemed no longer necessary by the project's restoration ecologist. Maintenance of erosion control materials may include repairing or replacing dilapidated, damaged, or ineffective materials. 5.2 General Habitat Maintenance Guidelines 5.2.1 Weed Control Weeds are expected to be the primary pest problem in the restoration area during the first several years of the maintenance period. Weeds should be controlled so they do not prevent the establishment of the native species or invade adjacent areas. A combination of physical removal, mechanical treatments (weed whipping) and appropriate herbicide treatments should be used to control the non-native/invasive plant species. Weeds should be controlled prior to setting seed, and should be removed from the site if they become large enough to block sunlight to developing native plants. Re-establishment of non-native plants onto the site can be adequately minimized by regular and timely maintenance visits with implementation of effective weed control measures. Weed control will require constant diligence by the maintenance personnel. Invasive plant species, such as those listed in Table 1 should be controlled wherever possible within the restoration area. Mature invasive tree species will be retained at the discretion of the PVPLC and the Wildlife Agencies, though the majority of individuals should considered for removal so the source of weed propagules is diminished. Removal of weeds by hand where practicable and effective is the most desirable method of control and should be done around individual plantings and native seedlings to avoid inadvertent damage to the native species. However, several of the invasive species may be more effectively controlled with herbicide due to their tenacious and spreading root systems, their size, or their ability to re -sprout from root fragments. All herbicides shall be used in accordance with label instructions, following the recommendations of a licensed Pest Control Advisor, and any application shall be applied under the direction of a state -certified Qualified Applicator. The project's restoration ecologist should monitor control efforts to ensure that the target weed species are being adequately addressed without impacting the native plants. The non-native Bagrada bug (Bagrada hilaris) has been documented on the Palos Verdes Peninsula, and is known to cause substantial damage to plant species from the mustard family (Brassicaceae) (County of Los Angeles 2013; University of California, Riverside 2013). As black mustard is one of the predominant species within the proposed restoration site, the Bagrada bug may occur; however, it is expected that the damage caused by this insect would be to non - 9085 D U D E I< 34 February 2016 A-83 Habitat Restoration Plan for the Alta Vicente Reserve in the Palos Verdes Nature Preserve native mustard species, and not native plants. However, if this species becomes problematic as a pest species on the native plants, then the restoration ecologist will evaluate whether or not control measures are necessary. Similarly, if other deleterious pests (e.g., beetles on bladderpod) become so problematic as to cause container plant mortality, the restoration ecologist may recommend measures to minimize pests and promote healthy plant establishment. 5.2.2 Supplemental Watering System Supplemental watering will be provided for two to three years after planting to help the container plants become established. Supplemental watering will likely be provided through a drip irrigation system. Supplemental watering would likely be necessary every 3-4 weeks during the dry season, and more frequently immediately after installation if natural rainfall does not provide adequate moisture. If a temporary, on -grade supplemental watering system is installed, it would need to be maintained and repaired as necessary. The watering system shall be checked regularly to ensure proper operation and adequate coverage of the restoration areas. Problems with the watering system shall be repaired immediately to reduce potential plant mortality or erosion. The frequency and duration of irrigation applications shall be adjusted seasonally in coordination with the project's restoration ecologist to meet habitat needs. Supplemental watering will be terminated when the plants are well established, as deemed appropriate by the project's restoration ecologist. All above -ground components of the watering system should be removed from the site at the successful completion of the project. The timing for cessation and removal of the irrigation system shall be determined by the project's restoration ecologist. 5.2.3 Clearing and Trash Removal Trash consists of all man-made materials, equipment, or debris dumped, thrown, washed into, or left within the restoration area. Pruning or clearing of native vegetation is not anticipated to be necessary within the restoration area, unless extensive growth is causing a maintenance problem for a utility or for an area outside of the restoration area. Any pruning or clearing of native vegetation should be approved by the project's restoration ecologist. Deadwood and leaf litter of native vegetation will be left in place to replenish soil nutrients and organic matter. 5.3 Schedule of Maintenance Inspections The project's restoration ecologist will perform quarterly maintenance/monitoring inspections during the scheduled maintenance and monitoring period. Recommendations for maintenance 9085 D U D E I< 35 February 2016 A-84 Habitat Restoration Plan for the Alta Vicente Reserve in the Palos Verdes Nature Preserve efforts will be based upon these site observation visits. Weed control shall be conducted as needed to ensure adequate control to promote healthy establishment of the target habitat types. It is anticipated that weed control will be necessary on a monthly basis during the winter and early spring when weeds are vigorously growing. Weed control during other times of the year will likely be diminished, but conducted as necessary, and as directed 9085 D U D E K 36 February 2016 A-85 Habitat Restoration Plan for the Alta Vicente Reserve in the Palos Verdes Nature Preserve 6 MONITORING PLAN Monitoring of the restoration site has a two -fold purpose: (1) To monitor the progress of the Alta Vicente Reserve restoration area by assessing native habitat establishment relative to the established performance standards; and (2) To direct and monitor the maintenance activities and determine remedial actions in a manner that ensures that appropriate maintenance occurs in a timely manner. The monitoring will be performed by the project's restoration ecologist. The project's restoration ecologist will be responsible for monitoring activities of all the work crews during preparation of the restoration area including site clearing and soil preparation, weed control, container plant and seed application, and quarterly monitoring for the duration of the 5 - year maintenance and monitoring period. Reports will be prepared for the restoration areas for five years after the installation is complete. Each report will include qualitative data, photo documentation, and future recommendations for site maintenance as described below. 6.1 Performance Standards Performance standards have been established for the habitat restoration area based on the guidelines in the draft NCCP and on expected vegetative development relative to undisturbed habitat of the same type (Table 7). The following performance standards apply to the Alta Vicente restoration site: 1. Soil at the site is stable and shows no significant erosion. 2. After five years, non-native plant cover is less than 25% with less than 15% cover of invasive perennial species. After five years, there will be no presence of species on Cal - IPC List A with the possible exception of Cal -IPC List A non-native annual grasses. 3. Native plant cover after three years in the CSS community should be greater than 40% with at least 30% cover from perennial species. At five years, total native cover should be greater than 50% percent with appropriate species diversity. 4. Native plant cover after three years in the cactus scrub community should be greater than 30% with at least 20% cover from perennial species and 5% cover from cactus species. Native plant cover after five years in the cactus scrub community should be greater than 40% with at least 10% cover from cactus. 5. Native plant cover after three years in Palos Verdes blue butterfly habitat should be greater than 30%, but not more than 70%. The remainder should be bare ground. 9085 D U D E I< 37 February 2016 A-86 Habitat Restoration Plan for the Alta Vicente Reserve in the Palos Verdes Nature Preserve Perennial (shrub) species should be maintained at between 10% and 50% cover. Ocean locoweed (Astragalus trichopodus var. lonchus) should constitute at least 10% cover. 6. Native plant cover after three years in the wildflower field should be greater than 30%. Native plant cover after five years should be greater than 40%. Table 7 Performance Standards ' The NCCP success criteria allow an exception to the requirement for 0% Cal -IPC List A for non-native annual grasses. In other words, Cal -IPC List A grass species would not count toward the 0% criteria, but would count toward the 25% criteria for total non-native species cover. The Year 3 performance standards will be utilized to assess the annual progress of the restoration area, and are regarded as interim project objectives designed to reach the final Year 5 goals. Fulfillment of these standards will indicate that the restoration area on the project site is progressing toward the habitat type and functions that constitute the long-term goals of the plan. If the restoration efforts fail to meet the performance standards in any year, the project's restoration ecologist may recommend remedial action to be implemented the following year with the intent to enhance the vegetation to a level of conformance with the original standard. These remedial actions may include re -seeding, re -planting, applying soil amendments, additional weed control measures, erosion control, or adjustments to the watering and maintenance practices. 6.2 Monitoring Methods and Schedule Annual qualitative assessments will be conducted through visual analysis of the coastal sage scrub, cactus scrub, butterfly habitat and wildflower field to assess vegetation development, weed presence, and plant establishment. Qualitative monitoring will include reviewing the health and vigor of container plants and seed plantings, assessing survival/mortality, checking for the presence of pests and disease, soil moisture content, and the effectiveness of the supplemental watering, erosion problems, invasion of weeds, and the occurrence of trash 9085 D U D E I< 38 February 2016 A-87 Percent Cover of Native Species (%) Non-native Cover (for all habitat types) Coastal Cactus PV Blue Invasive Perennial Species Total Non-native Year Sage Scrub Scrub Butterfly Habitat Wildflower Cover Species Cover Year 3 >40% >30% 30%-70% native >30% <15% (0% of Cal -IPC List A)" <25% (>30% (>20% cover; 10%-50% perennial) perennial max. shrub and >5% cover; >10% cacti) host plant cover Year 5 >50% >40% 30%-70% native >40% <15% (0% of Cal -IPC List A)` <25% (>10% cover; 10%-50% cacti) max. shrub cover; >10% host plant cover ' The NCCP success criteria allow an exception to the requirement for 0% Cal -IPC List A for non-native annual grasses. In other words, Cal -IPC List A grass species would not count toward the 0% criteria, but would count toward the 25% criteria for total non-native species cover. The Year 3 performance standards will be utilized to assess the annual progress of the restoration area, and are regarded as interim project objectives designed to reach the final Year 5 goals. Fulfillment of these standards will indicate that the restoration area on the project site is progressing toward the habitat type and functions that constitute the long-term goals of the plan. If the restoration efforts fail to meet the performance standards in any year, the project's restoration ecologist may recommend remedial action to be implemented the following year with the intent to enhance the vegetation to a level of conformance with the original standard. These remedial actions may include re -seeding, re -planting, applying soil amendments, additional weed control measures, erosion control, or adjustments to the watering and maintenance practices. 6.2 Monitoring Methods and Schedule Annual qualitative assessments will be conducted through visual analysis of the coastal sage scrub, cactus scrub, butterfly habitat and wildflower field to assess vegetation development, weed presence, and plant establishment. Qualitative monitoring will include reviewing the health and vigor of container plants and seed plantings, assessing survival/mortality, checking for the presence of pests and disease, soil moisture content, and the effectiveness of the supplemental watering, erosion problems, invasion of weeds, and the occurrence of trash 9085 D U D E I< 38 February 2016 A-87 Habitat Restoration Plan for the Alta Vicente Reserve in the Palos Verdes Nature Preserve and/or vandalism. Representative photographs of the restoration site from stationary photo points will be taken annually. Permanent vegetation sampling sites will be established within the coastal sage scrub, cactus scrub and the butterfly habitat restoration areas at randomized representative locations. A minimum of one transect shall be established for each two acres of restoration area, and at least one transect for each habitat type. No transects will be established in the wildflower field. Transect data will be collected in Years 3 and 5 from the restoration sites in the spring and will be used to determine compliance and achievement of the restoration performance standards. Transect data will be collected using the point -intercept method to determine percent target vegetation cover and weed cover. If the restoration project is in compliance with the Year 5 performance standards in an earlier monitoring period, then qualitative assessments may be substituted for the quantitative monitoring until the end of the 5 -year restoration program. If the restoration site is performing below the interim performance standards, the project's restoration ecologist will determine if remedial measures are necessary. Each monitoring visit will be followed by a summary of observations, recommendations, and conclusions. Results from the annual monitoring will be used to evaluate the progress of each habitat toward the ultimate goals of the project, and to recommend appropriate management actions. 6.3 Monitoring Reports The PVPLC will monitor and report on the restoration work underway in the Alta Vicente Reserve. The restoration area will be monitored for five years, with reports prepared annually. Monitoring reports should provide concise, meaningful summaries of the restoration progress and provide direction and maintenance recommendations for future work. Annual reports will include the following: 1. A description of the restoration and maintenance activities (e.g., seeding, irrigation, weed control, trash removal) conducted on the site during the previous year including the dates the activities were conducted. 2. A description of existing conditions within the restoration site, including descriptions of vegetation composition, weed species, and erosion problems, if any. 3. Qualitative and quantitative monitoring data related to proposed target goals including a comparative analysis of data over the years the project has been monitored. 4. Recommendations for remedial measures to correct problems or deficiencies, if any. 5. Representative photographs of notable observations on site and from fixed photo viewpoints. 9085 D U D E I< 39 February 2016 A-88 Habitat Restoration Plan for the Alta Vicente Reserve in the Palos Verdes Nature Preserve INTENTIONALLY LEFT BLANK 9085 D U D E K 40 February 2016 A-89 Habitat Restoration Plan for the Alta Vicente Reserve in the Palos Verdes Nature Preserve 7 REFERENCES Atwood J.L., M.R. Fugagli, J.C. Luttrell, and N.C. Nicolai. 1994. California gnatcatchers, cactus wrens, and conservation of coastal sage scrub on the Palos Verdes Peninsula: progress report no. (1993). Unpublished technical report, Manomet Observatory for Conservation Sciences, Manomet, Massachusetts. 52 pp. plus appendices. County of Los Angeles. 2013. California Department of Food and Agriculture. Bagrada Bug. Accessed online at http://www.cdfa.ca.gov/plant/PPD/PDF/Bagrada_hilaris.pd£ May 6, 2013. University of California, Riverside. 2013. Center for Invasive Species Research. Bagrada Bug. Accessed online at http://cisr.ucr.eduibagrada_bug.html. May 6, 2013. California Invasive Plant Inventory. 2015. Invasive Plant Inventory. Accessed online at: http://www.cal-ipc.org/paf. California Invasive Plant Council: Berkeley, California. California Native Plant Society (CNPS). 2015. Inventory of Rare and Endangered Plants of California. Accessed online at http://www.rareplants.cnps.org. Dudek and Palos Verdes Peninsula Land Conservancy. 2007. 2007 Habitat Restoration Plan for the Alta Vicente Ecological Reserve in the Portuguese Bend Nature Preserve for the Rancho Palos Verdes Natural Community Conservation Plan and Habitat Conservation Plan. Prepared for the City of Rancho Palos Verdes. Holland, R.F. 1986. Preliminary Descriptions of the Terrestrial Natural Communities of California. Nongame-Heritage Program, California Department of Fish and Game. October 1986. Palos Verdes Peninsula Land Conservancy and the California Native Plant Society 2010. Vegetation Mapping of the Rancho Palos Verdes NCCP Preserve: Vegetation Map and Classification Report. January. 83 pp. Palos Verdes Peninsula Land Conservancy. 2012. 2012 Palos Verdes Nature Preserve Report for the Rancho Palos Verdes Natural Community Conservation Plan. Prepared by the Palos Verdes Peninsula Land Conservancy. Palos Verdes Peninsula Land Conservancy. 2013. Cumulative Report for the Targeted Exotic Removal Program for Plants (TERPP). Prepared by the Palos Verdes Peninsula Land Conservancy. August. 9085 D U D E I< 41 February 2016 A-90 Habitat Restoration Plan for the Alta Vicente Reserve in the Palos Verdes Nature Preserve Sawyer, J.O. and T. Keeler -Wolf. 1995. A Manual of California Vegetation. California Native Plant Society. 471 pp. United States Department of Agriculture (USDA) Natural Resource Conservation Service. 1969. Report and General Soil Map, Los Angeles County, California. 9085 D U D E K 42 February 2016 A-91 APPENDIX A Soil Test Results A-93 WALLACE LABS ISOILS REPORT Print Date July 17, 2015 365 Coral Circle Location Palos Verdes Peninsula, Job No. 9085 El Segundo, CA 90245 Requester Andy Thomson and Jake Marcon, Dudek (310) 615-0116 graphic interpretation: * very low, ** low, *** moderate * * * * high, * * * * * very high moisture content of soil ammonium bicarbonate/DTPA gravel over 2 mm 15-198-01 1 44.0% extractable - mg/kg soil Sample to Number Interpretation of data Sample Description AV #1 295.01 *** low medium high elements graphic 192.61 *** 0-7 8-15 over 15 phosphorus 1.77 0.05 *** 0-60 60-120 121-180 potassium 154.88 **** n 0-4 4 - 10 over 10 iron 2.36 3.41 ** 0-0.5 0.6-1 over 1 manganese 1.44 **** n 0 - 1 1 -1.5 over 1.5 zinc 0.86 ** 2.01 ** 0-0.2 0.3- 0.5 over 0.5 copper 4.44 ***** n 0-0.2 0.2- 0.5 over 1 boron 0.30 *** 201.11 *** n calcium 0.45 magnesium 520.68 ***** 0.77 * 1.29 ** sodium 536.41 ***** sulfur 9.32 molybdenum n d nickel 0.60 n d The following trace aluminum elements may be toxic arsenic 0.05 The degree of toxicity barium 2.62 depends upon the pH of cadmium 0.23 the soil, soil texture, chromium n d organic matter, and the cobalt 0.04 concentrations of the lead 1.63 ** individual elements as lithium 0.30 * well as to their interactions. mercury 0.11 * selenium n d * The pH optimum depends silver n d * upon soil organic strontium 0.50 * matter and clay content- tin n d * for clay and loam soils: vanadium 1.31 ** under 5.2 is too acidic 6.5 to 7 is ideal ISaturation Extract over 8.0 is too alkaline pH value 7.91 **** 0.55 ** The ECe is a measure of ECe (milli- the soil salinity: mho/cm) millieq/1 1-2 affects a few plants calcium 6.8 0.3 24 affects some plants, magnesium 2.0 0.2 > 4 affects many plants. sodium 78.5 3.4 potassium -0.9 0.0 cation sum 3.9 problems over 150 ppm chloride 70 2.0 good 20 - 30 ppm nitrate as N 3 0.2 phosphorus as P 0.2 0.0 toxic over 800 sulfate as S 8.7 0.5 anion sum 2.7 toxic over 1 for many plants boron as B 0.21 ** 6.8 **** 181 increasing problems start at 3 SAR est. gypsum requirement-lbs./1000 sq. ft. relative infiltration rate slow sand - 9.8% soil texture clay silt - 29.2% time (calcium carbonate) yes clay - 61.0% organic matter fair 2.13 moisture content of soil 12.5% gravel over 2 mm half saturation percentage 1 44.0% 0.4% Elements are expressed as mg/kg dry soil or mg/I for saturation extract. pH and ECe are measured in a saturation paste extract. nd means not detected Sand, silt, clay and mineral content based on fraction passing a 2 mm screen. Receive Date 7/16/15 15-198-02 15-198-03 AV #2 AV #3 graphic graphic 3.28 ** 2.64 111.48 *** 139.59 **** 2.54 ** 2.13 2.18 **** 1.30 **** 0.81 ** 0.87 ** 2.83 **** 3.85 ***** 0.21 *** 0.23 *** 189.13 *** 295.01 *** 247.46 ***** 393.25 ***** 141.94 *** 192.61 *** 10.83 * 11.04 0.03 *** 0.05 *** 1.74 ** 1.59 ** n * n n d * 0.03 1.86 * 3.41 ** 0.24 * 0.39 n * n 0.03 * 0.08 0.93 * 2.01 ** 0.26 * 0.40 n * n n * n n * n 0.34 * 0.45 n * n 0.77 * 1.29 ** 7.95 **** 1.4 2 7.87 **** 0.47 ** 0.0 7.6 0.40 ** clay millieq/1 0.41 *** 18.6 0.9 24 18.6 6.3 0.5 clay 6.5 47.8 2.1 fair 39.6 0.7 0.0 40.7% -0.8 50 1.4 2 0.1 0.2 0.0 7.6 0.5 clay 2.0 0.41 *** 2.4 ** 24 gravel over 2 mm slow sand - 16.8% clay silt - 35.6% high clay - 47.7% fair 10.7% gravel over 2 turn 40.7% 12.1% 26 5 0.0 6.6 0.9 0.5 1.7 0.0 0.7 0.4 0.0 0.4 1.5 0.15 2.0 ** 80 slow sand - 16.5% clay silt - 37.1% slight clay - 46.5% fair 12.6% gravel over 2 mm 39.3% 1.7% F O A A-95 APPENDIX C ALL RESTORATION PROJECTS APPENDIX C. PALOS VERDES NATURE PRESERVE RESTORATION PROJECTS THROUGH 2016 A-97 Funding source Location Habitat Type I Acres Istatus IStart Date IlEnd Date NCCP Alta Vicente NCCP NCCP Phase 1 Phase 1 CSS PVB habitat 4.5 0.5 completed completed 2007 2007 2014 2014 Alta Vicente Alta Vicente NCCP Phase 2 CSS 4 active 2008 2015 Alta Vicente NCCP Phase 2 cactus scrub 0.5 active 2008 2015 Alta Vicente NCCP Phase 2 PVB habitat 0.5 active 2008 2015 Alta Vicente NCCP/LA County Grant Phase 3 CSS 4.5 active 2016 2021 Alta Vicente NCCP/LA County Grant Phase 3 wildlflowers 0.5 active 2016 2021 Portuguese Bend NCCP Phase 1 and 2 CSS 8 active 2010 2017 Portuguese Bend NCCP Phase 1 and 2 cactus scrub 2 active 2010 2017 Portuguese Bend NCCP Phase 3 CSS 5 active 2012 2018 Portuguese Bend NCCP Phase 4 CSS 5 active 2013 2019 Portuguese Bend NCCP Phase 5 CSS 4 active 2014 2020 Portuguese Bend NCCP Phase 5 cactus scrub 1 active 2014 2020 Additional Projects Coastal Conservancy, NFWF, SMBRC, USFWS CSS 5 active 2013 2016 Abalone Cove Agua Amarga USFWS CSS 2 completed 2001 2003 Agua Amarga USFWS riparian 0.5 completed 2004 2005 Agua Amarga LACSD riparian 0.25 completed 2011 2016 Agua Amarga D&M riparian 0.2 active 2012 2017 Portuguese Bend EI Segundo Mitigation Ishibashi CSS and grassland 9.5 completed 2010 2015 Portuguese Bend HCF grant Ishibashi CSS 0.25 completed 2012 2015 Portuguese Bend HCF grant Peppertree CSS 0.5 completed 2012 2015 Portuguese Bend Local Assistance Grant cactus scrub 3 completed 2010 2011 Three Sisters LAWA CSS 13.3 1completed 2007 2013 Three Sisters I LAWA I 1grassland 1 7.7 1completed 12007 12013 A-97 Three Sisters/McCarrell's Canyon Coastal Conservancy riparian 0.5 completed 2009 2012 Three Sisters/McCarrell's Canyon Coastal Conservancy CSS 2 completed 2009 2012 Vicente Bluffs Coastal Conservancy coastal scrub 2 completed 2009 2014 Vicente Bluffs jPVPLC Adpot-a-Plot I ESB habitat 1 0.1 1 active 12016 JTBD TOTAL 86.8 • ee ONO Iq r t 7� " IL Aw = r IP OAOJ o `a r k " I .t ION - a .4o Nib ON -f Rester^rla io�, Sites Current a d Completed) r f �' - •� Rr.4 IPS _- _ ✓ , ' , �. . � _ � .` L Mi s ♦ ` .AP 00 \ \ \ 1 ♦ '.0 • 1 - II 10 Restoration Sites (Current and Completed) '`,, '- �'�Rj �'„�r ��a�, 1� A�t ti� _�l�"�C_..�'�- c _�. '-�i Y 9 :�1.�:�`� • �. �'f `� N2+"�'•�;i, �-"'"��, �' •.1 `- � Er� ter �r j �� � y `��,, `° I � � �-' ' �. �,`'�,\\�� •+.'•H �' '�'f � ���; � -�, Y• •� _ ' � n ^ ; �a� ` `• a • ` 1 ' � Stet. ,+� - ~t%.' f f �.� r �� .,.�� � e. •Y ,j�, �`� ` ..�.� e, �-. _. } ter rY ♦�+F" 31 I 1 I so 14 XIt 1 I I.. 1, ♦, ♦ ♦ 11 14 II _ 10 oo ♦ A ' 41* r I ♦ ` =�f _ + _� ♦ J dei { -44 r ! **4 - ��. •Qrp , ♦ 1r ` , IL a 00 r_ ��-A , - :T{ /, ,r'�6♦�d� fir` 1 . ` -1 .r _ fir♦ • � . � !;4 ♦ 1► Restoration Sites (Current and Completed) '4`� - 77 lb R A 00 I I 10 �!.'. ♦ f Xis - 40 T • 40 t �► 'ol ►. �. -f Rest ra io�, Sites Current a d Com leted r f �' - •� Rr.4 IPS -- _ , ' , �. . � _ � .` L Mi s ♦ ` .AP ♦ ♦ ; I 0 \ \ \ \ 1 ♦ '.0 • 1 - II 10 Restoration Sites (Current and Completed)'- �'�Rj �'„�r ��a�, 1� A�t ti� _�l�"�C_..�'�- c _�. '-�i Y 9 :�1.�:�`� • �. �'f `� N2+"�'•�;i, �-"'"��, �' •.1 `- � Er� ter �r j �� � y `��,, `° I � � �-' ' �. �,`'�,\\�� •+.'•H �' '�'f � ���; � -�, Y• •� _ ' � n ^ ; �a� ` `• a • ` 1 ' � Stet. ,+� - ~t%.' f f �.� r �� .,.�� � e. •Y ,j�, �`� ` ..�.� e, �-. _. } ter rY ♦�+F" 31 I 1 I so 14 XIt 1 I I.. 1, ♦, ♦ ♦ 11 14 II _ 10 oo ♦ A ' 41* r I ♦ ` =�f _ + _� ♦ J dei { -44 r ! **4 - ��. •Qrp , ♦ 1r ` , IL a 00 r_ ��-A , - :T{ /, ,r'�6♦�d� fir` 1 . ` -1 .r _ fir♦ • � . � !;4 ♦ 1► Restoration Sites (Current and Completed) '4`� APPENDIX D 2016 TARGETED EXOTIC REMOVAL PROGRAM FOR PLANTS A-105 Di 1.0 INTRODUCTION The Palos Verdes Peninsula Land Conservancy (PVPLC), as manager of the Palos Verdes Nature Preserve (PVNP), conducts strategic weed control activities throughout the year as part of the Targeted Exotic Plant Removal Plan for Plants (TEPRP). As directed in the draft Rancho Palos Verdes Natural Communities Conservation Plan (NCCP), PVPLC selects five acres or 20 small sites of invasive plants for removal each year. The overall goal of this program is to systematically target invasive species throughout the PVNP to increase the success of native plant growth and create greater habitat opportunities for wildlife. The TERPP is an element of the NCCP that includes a specific protocol for ranking exotic species populations and strategically removing those species over time (Appendix D I -D7). The 2016 TEPRP Report documents PVPLC's effort over the past year to remove exotic plant species that threaten native vegetation in the PVNP. It details the methods of assessing the threat of individual exotic species to native vegetation, field methods for removal and provides site-specific documentation related to every completed removal site. 2.0 SITE ASSESSMENT Invasive species control is included in PVPLC's annual conservation planning strategy where Stewardship staff prioritize potential TERPP sites and assess best practice methods for removal. PVPLC staff locate TERPP sites to target for the calendar year, assess the best method for eradication, photo document and map the population/s, and conduct weed removal accordingly. The PVPLC weighs potential areas for exotic species control based on several criteria: 1. Threat to native vegetation, particularly populations of NCCP-covered species; 2. Feasibility of eradication, which includes limiting disturbance to native habitat and ease of access, and; 3. Invasiveness of exotic species, using a synthesized rating system drawn from plant invasiveness rankings from both the California Invasive Plant Council (Cal -IPC) and the California Department of Food and Agriculture (CDFA). Through regular property reviews and viewing fine scale imagery through the Geographic Information System (GIS), ArcGIS, PVPLC plans for invasive species control across the entire Preserve area. A sample of the TERPP field data collection form is in Appendix D 1. The forms provide basic information about the species targeted, including site identification number and property, approximate location, removal methods used, and general comments related to the removal A-106 Da activities. PVPLC also includes photo documentation: staff photographs the sites before work takes place and after the removal of the individual or population of exotic species. Photo documentation not only confirms completion of the work, but also provides a snapshot of the surrounding environment at the time of the TERPP-related activities. This record helps to create a historical record of the presence of non-native plant species on the sites, which may inform future restoration efforts. Each TERPP site is tracked via GIS, a tool that aids planning and monitoring efforts. PVPLC has treated 112 individual TERPP sites since 2006. As Euphorbia terracina is a high priority invasive and may take multiple treatments to control, these populations are treated in numerous years. In 2016, 23 TERPP sites were treated. These include 17 Euphorbia terracina populations as well as previously treated sites of Arundo donax, Acaia cyclops, Cephalophyllum alstonii, Coronilla valentina, and Mesembryanthuem crystallinum (Table 1). 3.0 FIELD METHODS PVPLC staff uses best practice, the most effective and least intrusive, methods at all times when conducting TERPP-related activities. High priority areas may occur near rare or endangered biological populations. Care is taken to minimize soil erosion, fire risk, disturbance to surrounding native vegetation and further dispersal of the exotic species. PVPLC utilizes a combination of methods to conduct exotic species removal, generally limited to the following: Mechanical removal - staff may use tools with motorized blades to fell larger species; Hand removal - staff conduct most removals by hand pulling and/or with small hand tools for pruning and cutting; Chemical control - trained staff applies herbicides at the appropriate phase of vegetative growth; Growth and seed maturation, and; Disposal - City of Rancho Palos Verdes staff coordinate with waste companies to supply green waste and trash containers. Qualified Licensed Applicator(s) develop all recommendations for chemical pest control and senior staff supervises field staff and contractors in sensitive areas. Additionally, field staff has an integral role in the TERPP and often have crucial, site-specific knowledge related to the sites. 4.0 2016 TREATMENTS In 2016, PVPLC treated 23 populations of invasive plants across seven reserves (Table 1, photopoints in Appendix D9). Of these, 17 were populations of Euphorbia terracina (Geraldton spurge, Euphorbia). Euphorbia grows rapidly in disturbed areas, is a prolific A-107 D3 seeder and is rapidly expanding its distribution in southern California. Invaded areas show reduced ecological quality and reduced habitat quality compared to un -invaded areas. Euphorbia shows a broad habitat tolerance in southern California, invading both cool coastal areas and hot, dry, interior areas. Most of the populations of Euphorbia have been treated for several years, in attempts to keep it from spreading further into the Preserve. In addition to Euphorbia treatments, the 2016 TERPP treated two populations of Coronilla valentina, one population of Arundo donax, Mesembryanthuem crystallinum, and Cephalophyllum alstonii at Abalone Cove as well as a population of Acacia cyclops at Vicente Bluffs. Table 1. 2016 TERRP Treatments � �i Stand Number Percent Stand ID Reserve Name Size Individuals Treatment Treated Euphorbia AA_EuTe_02 Agua Amarga 10-100ft 10-50 Hand pull 75-100% terracina Cephalophyllum AC CeAI 01 Abalone Cove 10-100ft 100-200 Hand pull 0-25% alstonii Euphorbia 100- AC EuTe 01 Abalone Cove 200-500 Herbicide 75-100% terracina 300ft Euphorbia 100- AC EuTe 04 Abalone Cove 1-10 Hand pull 75-100% terracina 300ft Euphorbia AC—Eu-Te-05 05 Abalone Cove 10-100 50-100 Herbicide 75-100% terracina Coronilla AC CoVa 01 Abalone Cove 10-100 200-500 Herbicide 75-100% valentina Coronilla 100 - AC CoVa 02 Abalone Cove 500-1000 Hand pull 75-100% valentina 300ft AC Arpo 01 Abalone Cove Arundo donax 1-10ft 1-10 Herbicide 75-100% Mesembryanth AC_MeCr_01 Abalone Cove uem 100ft 50-100 Hand pull 25-50% crystallinum Euphorbia 600- AV EuTe 01 Alta Vicente 50-100 Herbicide 75-100% terracina 1000ft � �i D4 A-109 Euphorbia AV EuTe 02 Alta Vicente 10-100ft 50-100 Herbicide 75-100% terracina Euphorbia AV_EuTe_03 Alta Vicente 10-100ft 50-100 Hand pull 75-100% terracina Euphorbia PB_EuTe_10 Portuguese Bend >1000ft 100-200 Herbicide 75-100% terracina Euphorbia PB_EuTe_03 Portuguese Bend 10-100ft 1-10 Hand pull 75-100% terracina Euphorbia PB_EuTe_05 Portuguese Bend 10-100ft 10-50 Hand pull 75-100% terracina Euphorbia PB_EuTe_07 Portuguese Bend 10-100ft 1-10 Hand pull 75-100% terracina Euphorbia 600- PB_Eute_08 Portuguese Bend 200-500 Hand pull 75-100% terracina 1000ft Euphorbia 600- TS EuTe 01 Three Sisters 500-1000 Herbicide 50-75% terracina 1000ft Herbicide Euphorbia TS EuTe 02 Three Sisters >1000ft 500-1000 and weed 75-100% terracina whip Euphorbia 300- TS EuTe 03 Three Sisters 200-500 Herbicide 50-75% terracina 600ft Euphorbia 100- TS EuTe 04 Three Sisters 200-500 Herbicide 50-75% terracina 300ft Tree VB_AcCy_01 Vicente Bluffs Acacia cyclops 10-100ft 1-10 0-25% Removal Euphorbia VB_EuTe_01 Vicente Bluffs 10-100ft 1-10 Hand pull 75-100% terracina A-109 D5 5.0 REFERENCES California Invasive Plant Council 2006. California Invasive Plant Inventory. February. California Invasive Plant Council: Berkley, CA. Palos Verdes Peninsula Land Conservancy 2007a. 2007 Targeted Exotic Removal Plan for Plants for the Portuguese Bend Nature Preserve For the Rancho Palos Verdes Draft Natural Community Conservation Plan and Habitat Conservation Plan. April. Palos Verdes Peninsula Land Conservancy 2008. 2008 Annual Report for the Targeted Exotic Removal Program for Plants for the Portuguese Bend Nature Preserve For the Rancho Palos Verdes Draft Natural Community Conservation Plan and Habitat Conservation Plan. September. State of California 2007. Department of Food and Agriculture Division of Plant Health & Prevention Services Noxious Weed Ratings. Retrieved September 2007, from: <http://www.cdfa.ca.gov/phpps/ipc/encycloweedia/pdfs/noxiousweed_rati ngs.pdf>. URS 2006. City of Rancho Palos Verdes Draft Natural Community Conservation Plan and Habitat Conservation Plan. June 9. A-110 APPENDIX D I: SAMPLE TERPP FORM Invasive Weed Mapping Field Datasheet Survey Type Surveyor's blame New Infestation Assesment Treatment Date Location Description, Species Preserve Stand ID Surrounding Vegetation Type: cactus scrub riparian coastal sage scrub bluff Stand Size grassland non-native plants 1 W_ 10 its 10 itt- 108 ftp 104 ft`-300ic- trail non-native annual grass (NNAG) 370 fe-840 ft 606 fc--1:408 fs- >I646 fc- Other Stand Comments. No. Individuals 1-10 10-50 54-1,40 140-20600-504 508 -IDN :x-1060 Percent Canopy Cover 1-5% 5-10% IID -25% 25-50% 50-75% +75% Plant Phenology Fkvwerog Non4iowering Fruftng Plant Age Seeding Juvenile Mature E3ead Treatment Type Treatment Comments: Hand pull Herbicide Hand-pulbl-lerbiode Weed -whip Mukh Tree ranovil Chher Area Treated 1 €t, - 16 f," 16 fr - 140 Ft' 106 f L - 360 ft' 300 f? - 864 ft, 606 f{ - I408 fc' > 1064 ft Percent of I nfestation Treated 025% 25-50% 5075% 75-1010% Photo Image Numbers: Additional Comments: Stand ID ExanipIL:AC_EuTe_01_yMiritn.ddipg Preserve abbreviations: AA - Agua Amargi AC - Abalone Cove AV - Alta Vicente CP- Chandler Preser ee DF - DFSP GF - George F FI - Filionm FO - Forrestal OT - Doean Trails PB - PortWuese Bend SR -San Ramon T5 - Three Sisters VB - Vicenee Bluffs VN - Ytsh del Norte WP- White Point OR - Dther Rev 3113 W A-111 D7 APPENDIX D2: FLOWCHART FOR HIGH PRIORITY THREAT TO NATIVE VEGETATION High priority where exotic species poses immediate threat Eradication of exotic Suppression of exotic Suppression of exotic species very possible species possible species unlikely Exotic Exotic Exotic Exotic Exotic Exotic Highly Highly Highly Moderately Moderately Moderately Invasive Invasive Invasive Invasive Invasive Invasive Priority Ranking For Control of Exotic Species 1-3= Low priority 4-7= Medium priority 8-10= High priority A-112 0 APPENDIX 133: FLOWCHART FOR MEDIUM PRIORITY DEGREE OF THREAT TO NATIVE VEGETATION Medium priority where exotic species poses threat within 1-2 years Eradication of exotic Suppression of exotic Suppression of exotic species very possible species possible species unlikely Exotic Exotic Exotic Exotic Exotic Exotic Highly Moderately Highly Moderately Highly Moderately Invasive Invasive Invasive Invasive Invasive Invasive Priority Ranking For Control of Exotic Species 1-3= Low priority 4-7= Medium priority 8-10= High priority A-113 W. APPENDIX D4: FLOWCHART FOR LOW PRIORITY DEGREE OF THREAT TO NATIVE VEGETATION Low priority where exotic species does not pose threat for at least a years Eradication of exotic Suppression of exotic Suppression of exotic species very possible species possible species unlikely Exotic Exotic Exotic Exotic Exotic Exotic Highly Highly Highly Moderately Moderately Moderately Invasive Invasive Invasive Invasive Invasive Invasive Priority Ranking For Control of Exotic Species 1-3= Low priority 4-7= Medium priority 8-10= High priority A-114 APPENDIX DS: HIGHLY INVASIVE SPECIES Genus species Common name Arundo donax Giant reed Asparagus asparaagoides Bridal creeper Avena barbata Slender oat Avena fatua Wild oat Brachypodium distachyon False brome Brassica nigra Black mustard Bromus diandrus Ripgut grass Bromus madritensis ssp. rubens Red brome Carpobrotus edulis Hottentot fig Caesalpinia spinosa Spiny holdback Centaurea melitensis Tocalote Chrysanthemum coronarium Garland chrysanthemum Cortaderia selloana Pampas grass Cynodon dactylon Bermuda grass Euphorbia terracina Spurge Foeniculum vulgare Fennel Malva nicaeensis Bull mallow Malva parvi flora Cheeseweed Malva sylvestris Mallow Mesembryanthemum crystallinum Annual iceplant Nicotiana glauca Tree tobacco Pennisetum clandestinum Kikuyu grass Pennisetum setaceum Fountain grass Picris echioides Bristly ox -tongue Pistacia atlantica Pistachio Dio A-115 Pittosporum undulatum Pittosporum Raphanus sativus Wild radish Ricinus communis Castor bean Solsola tragus Russian thistle Silybum marianum Milk thistle Sonchus asper Prickly sow thistle Sonchus oleraceus Sow thistle Spartium junceum Spanish broom Tamarix species Tamarisk Tropaeolum majus Garden nasturtium Dii A-116 APPENDIX D6: MODERATELY INVASIVE SPECIES Genus species Common Name Genus species Acacia cyclops Acacia Acacia species Acacia Aegilops cylindrica Jointed goat grass Ageratina adenophorum Eupatory Atriplex semibaccata Australian saltbush Bassia hyssopi folia Five -Hook bassia Bromus hordeaceus (mollis) Soft brome Bromus catharticus Rescue grass Cakiel maritime Sea rocket Carduus pycnocephalus Italian thistle Carpobrotus aequilaterus Sea Fig Corpobrotus chilensis Fig -Marigold iceplant Bermuda buttercup Conium moculatum Poison hemlock Convolvulus arvensis Bindweed Erodium cicutarium Red stem filaree Eucalyptus camaldulensis Red gum tree Eucalyptus globulus Blue gum tree Eucalyptus species Gum tree Hirsch feldia incana Annual mustard Hordeum murinum leporinum Foxtail barley Hordeum vulgare Common barley Lactuca serriola Compass plant Lathyrus tangianus Tangier pea Dia Common Name Limonium perezii Sea lavender Limonium sinuatum Sea lavender Lobularia maritima Sweet alyssum Lolium multiflorum Italian rye Lolium perenne Perennial ryegrass Marrubium vulgare Horehound Medicago polymorpha Bur clover Medicago sativa Alfalfa Melilotus albus White sweet clover Melilotus indicus Yellow sweet clover Myoporum laetum Myoporum Olea europea Olive Oxalis pes-caproe Bermuda buttercup Pelargonium zonale Zonal geranium Phalaris minor Phalaris Phoenix canariensis Phoenix palm Piptatherum miliacea Smilo grass Pittosporum undulatum Pittosporum Plantago lanceolata English plantain Polygonum aviculare Knotweed Polypogon monspessulensis Rabbitsfoot Pyrocantho sp. Firethorn Rumex crispus Curly dock A-117 Schinus molle Mexican pepper Schinus terebinthifolius Brazilian pepper Sisymbrium irio London rocket Trifolium hirtum Rose clover Dia Washington robusto Vicia sativa Mexican fan palm Spring vetch Vulpia myuros varhirsuto Annual fescue Vulpia myuros var myuros Rattail fescue A-118 D14 APPENDIX D7: EXOTIC, NON-INVASIVE SPECIES Scientific Name Common Name Genus species Common Name Amaranthus albus Tumbleweed Gnapholium luteo-album White cudweed Anagallis arvensis Pimpernel Koehlreuteria species Koehlreuteria Apium graveolens Celery Lamarckia ourea Goldentop Aptenia cordifolia Baby sun -rose Lantana montevidensis Lantana Atriplex glauca Saltbush Lathyrus odoratus Sweet pea Bidnes piloso Common beggar -ticks Lycium species Lycium Capsella bursa -pastoris Shepherd's purse Lycopersicon esculentum Garden tomato Centranthus rubber Red valerian Malephora crocea Mesemb Ceratonia siliqua Locust bean tree Melaleuca species Melaleuca Chamaesyce maculata Spotted spurge Mesembryanthemum nodiflorum Iceplant Chenopodium album Lamb's quarters Osteoapermu fruticosum African daisy Chenopodium ambrosioides Mexican tea Oxalis corniculata Woodsorrel Chenopodium murale Nettleleaf goosefoot Paspolum dilatatum Dallis grass Conyza canariensis Horseweed Pinus halepensis Alepppo pine Coronilla valentina Coronilla Plantago major Plantain Cyperus involucratus Umbrella plant Poo annuo Bluegrass Digitaria sanguinalis Hairy crabgrass Polygonum arenastrum Knotweed Echium fastuosum Pride of madeira Senecio vulgaris Groundsel Erodium botrys Long -beaked filaree Silene gallica Common catchfly Euphorbia lothyris Gopher plant Triticum aestivum Cultivated wheat Euphorbia pep/us Petty spurge Urtica urens Dwarf nettle Filago gallica Narrow -leaf filago Veronica anagallis-aquatica Water speedwell Froxinus uhdei Shamel ash Yucca species Spanish bayonet Gazania species Gazania Geranium carolinianum Geranium A-119 APPENDIX D 2016 TARGETED EXOTIC REMOVAL PROGRAM FOR PLANTS (TERPP) PHOTOS AA_EuTe_02 A-120 AC_EuTe_0 A-121 AC_EuTe_04 yr a '4 h AC_EuTe_05 A-122 AC_Arpo_01 AC_CoVa_0 A-123 j AV_EuTe_0 I AV_EuTe_02 A-125 AV_EuTe_03 PB_EuTe_03 f9: A-126 PB_EuTe_07 A-127 PB_EuTe_10 A-128 TS_EuTe_02 A-129 TS_EuTe_03 TS_EuTe_04 A-130 TERPP Sites: AGUAAMARGA IN f JA - 44," AA OlEu-0 AA-RiCo-02 AA OlEu 02 AA CoSe 02 AA ArDo 01 !4U AA-EuTe-01 2016TERPP Former TERPP 0 RP -- . AcCy =Acacia cyclops ArDo =Arundo donox Co Sp=Caesolpinia spinosa CeAl =Cepholophyllum alstonii CoSe =Cortaderia selloono CoVo =Coronilla valentine e%w Euca =Eucalyptus species EuTe =Euphorbia terrocina FoVu =Foeniculum vulgare MeCr =Mesembryanthemum crystallum OlEu =Oleo europoea A Palm =Palm family PeSe =Pennisetum cetaceum Pist =Pistacio species RiCo =Ricinus communis ScMo =Schinus molle SiMa =Silybum marianum Spju =Spartium junceum Tama =Tamorix species %14v-- A- - TERPP Sites: ABALONE COVE t AC_CaSp_02 1. AC CaSp 02 AcCy =Acacia cyclops r ? t ' AC_ScMo_02 y ,VAL - lJ lie n I CoVa 01 AC EuTe-04 AC. EuTe01 rte AC McCr01 AC_Arpo_01 2016TERPP Former TERPP AcCy =Acacia cyclops r ? t ' Arpo =Arundo donox Co Sp=Caesolpinia spinosa y CeAI =Cepholophyllum alstonii CoSe =Cortaderia selloana �A CoVa =Coronilla valentine =Eucalyptus 01 Euca species Tk EuTe =Euphorbia terrocina -` Ik FoVu =Foeniculum vulgare McCr=Mesembryanthemum crystallum t, OIEu =Oleo europoea Palm =Palm family PeSe =Pennisetum cetaceum Pist=Pistacio species Rico =Ricinus communis ScMo =Schinus molle SiMa =Silybum marianum Spju =Spartium junceum ^' Tama =Tamarix species 1 � - a5 AC-EuTe-02 AC_CoVa_02 hja _ AC EuTe 03 {IPA— AC_ScMo_01 - �— - AC_CeAI_01 AC_Pist_01 AC_CoVa_03 Mkk'AC_EuTe_05 TERPP Sites: ALTA VICENTE 2016TERPPFormer TERPP i `�'' AcCy =Acacia cyclops _ArDo =Arundo donax - ' u 4.. CoSp =Caesolpinia spinosa u + "� r x ` CeAI=Cepholophyllum alstonii n` CoSe =Cortoderia selloono + - i' `V r CoVa=Coronilla valentine +, Euca =Eucalyptus species EuTe =Euphorbia terrocina — McCr =Mesembryanthemum crystallum OIEu =Oleo europoea tl" rt EuTe03 .._,!•: Palm =Palm family •� r� AV _�, �, PeSe =Pennisetum cetaceum >., 4 Pist=Pistacio species g /•.i ,� RiCo =Ricinus communis ScMo =Schinus molle S" r SiMa =Silybum marianum y.+ �'►1 Spju =Spartium junceum t Tama =Tamarix species IN AV_AcCy_01 k AV EuTe_02 I� ,. ..' -�� .• AV_Palm_01 AV_EuTe_05 AV_EuTe_01 4 r r • VB_CoSe 03ANN - - t r 'r t � �� 'Source: Esrl, DigitalGlobe , Geolaye, Earthstar Geographies,,. IGN, and the GIS rt'nM 1 er P k , Portligues bfi 1 r ♦ .,, t, - ' `moi ,,14 � ti i $ •Y$ � { Aw Y. 1 AcCy =Acacia cyclops `6 1 <<-- ` Euca =Eucalyptus species c t4�7 �v "iia x ! a +ce �.1y1 Miles IES �� ¢ „" = C r�� � o} -' o D o �. oo- -o `� -oo .• � . it*„ AcCy =Acacia cyclops r 3 + ;4 Euca =Eucalyptus species ..�s 4 x"-3'4 +; - ♦ 7 + .:► ► r 7 ♦ • e. .OlEu =Oleo a r ' Palm =Palm family # r ~ fi s t s f► s r E 1 ` ,; Tama =Tomarix species i++ + t t t t O t' ► 1 1 r � ;� i y • - � rr x f�. t ♦ A $ r �: +� d a,..:.-. 1. + ® 41 tN $® f i 4 t t t' i 94YP 5�., 'moi ,� ` �� ♦ � 1,� r�+/, h. 1C/ `V' ► t 7 t u- t CD ,, r r � r � t � • ►R&AIIIIIIIIA, KIN ]r 1 � /7 , r '� � `,-• � ape- ♦ '� "' ,,, 4 � ♦ `r Y 0.3 Miles f r_ F r - r _ w. TERPP Sites: SAN RAMON ACCy =Acacia cyclops i° Arpo =Arundo donax ' CaSp =Caesalpinia spinosa • CeAI =Cephalophyllum alstonii .,• CoSe =Cortaderia selloana CoVa=Coronilla valentina Euca =Eucalyptus species �. � EuTe=Euphorbia terracing F ` 2016TERPP M Former J.w FoVu =Foeniculum vulgare ' "� 901_ McCr =Mesembryanthemum crystallum g - OlEu=Olea europaea Palm=Palm family PeSe=Pennisetum setaceum Pist=Pistacia species "ri ¢ .: - + r !• RiCo =Ricinus communis ScMo =Schinus molle.�s" .© , SiMa=Silybum marianum - SR_EuTe_02&_03 Spju=Spartium junceum ,tom x Tama =Tamarix species sR_EuTe_03 Ok r � R sR_SpJu_01 SR_EuTe_01 ,,. S'kF "p _ v , Wit... { n n: '�,^•.�"' 'F •e, SR_EuTe_06 — • _ , r Y _ • y . SR EuTe OS �41 - So i al lobe, Ge • e, C=a 'hs- r Gep'gr[aphics�• g x CN S/�P2irbus D 1�5�, Aero + "�`' 13 Wanisdiffit e GIS Use m ' TERPP Sites: VICENTE BLUFFS 2016 TERPP O Former TERPP AMC— ,4 _ �'` � /fie.• 11 � _ AcCy =Acacia cyclops 1, Arpo =Arundo donax r3�q tir r.s CaSp=Caesalpinia spinosa w CeAI =Cephalophyllum alstonii CoSe =Cortaderia selloana CoVa =Coronilla valentina Euca=Eucalyptus species IN EuTe=Euphorbia terracina FoVu =Foeniculum vulgare y �•. .• I ` �.i kti McCr=Mesembryanthemum crystallum OIEu =O1ea europaea r Palm =Palm family N'S �t PeSe =Pennisetum setaceum Pist=Pistacia species RiCo =Ricinus communis ScMo =Schinus molle SiMa =Silybum marianum VB_AcCy_02a ` y"!! Spju=Spartium junceum Tama =Tamarix species VB -AcCy 01 ak VB_CoSe _Olb t1y Mk ? r. _ VB_PeSe_Ola VB_AcCy_02b,CoSe_01 a,FoVu_0I,ScMo_01 e t rr VB_AcCy_OSa° A � "'�' " �_• VB CoSe 04a W a VB_CoSe_04b i t" Air- . 4a..,. . VB_CoSe _02 IT VB_EU a 04 y x a VB_CoSe_02b 3" t VB_EuTe_03 VB_EuTe_01 �.t VB_AcCy_03a VB_EuTe_02' VB_AcCy_03 ti - to i Y *.- ax 1 VB CoSe 03 VB_Accy_04 APPENDIX E RESEARCH AND MONITORING A-140 Ea 1.0 INTRODUCTION PVPLC implements an integrated approach to research by involving students and community volunteers in programs that addresses specific conservation issues related to the management of the Palos Verdes Native Preserve. In 2016, high school and university students as well as community members participated in research that not only satisfied their educational and/or personal goals, but also contributed to informing PVPLC land management activities. The Citizen Science Program, initiated in Fall 2013, has brought volunteers to PVPLC for focused studies in the preserves. Citizen Science projects completed in 2016 include the Cactus Wren Monitoring Program and the Wildlife Tracking Program. University professors are crucial for the success of research, as they provide expertise and technical guidance in managing several research projects. Land Conservancy staff provides access to the preserves as well as technical support to participants. This report covers the Research and Education Program's activities via the major categories: • High School Research • University Researchers • Citizen Science Programs 2.0 HIGH SCHOOL RESEARCH High school and college students are important to PVPLC's field research. By participating in PVPLC's research program with professionals and university researchers, high school students obtain field and analytical skills in the natural science fields. Additionally, students increase their appreciation of nature while expanding their awareness of opportunities that the natural science fields have to offer. As a result, PVPLC students often win honors in science fairs and are able to leverage their experience for gaining entrance into top universities, satisfying course credits, or obtaining paid internships (Table 1). Table 1. 2016 Science Fair Results for high school students in PVPLC research program Student Award Project Title Sarina Liu Third Place at PV Science Fair in the Stimulating Nosel/a pulchra Growth Environmental Management category Through Simulated Grazing. Tiffany Minn Honorable Mention at PV Science Simulated Grazing Effects on Percent Fair in the Botany category. Cover of Nasella pulchra. A-141 E3 3.0 UNIVERSITY STUDENTS College students from local universities participate in research under the umbrella of the Conservancy's Intern and Citizen Science programs. Students participate in research integral to land management and conservation activities, which provides the students valuable hands-on experience. PVPLC's stewardship staff conducts a variety of surveys throughout the preserves for assessing habitat quality as well as documenting the progress of our restoration efforts. The Conservancy's Interns participated in vegetation assessment surveys as well as entered the resulting data into the database. They also developed data tables for reports and conducted the initial stages of the report writing. In addition to gaining work experience, many students leverage their internships for entrance into a professional job or graduate school. While the Conservancy benefits from their work, the students benefit from experience and training that will benefit them in future careers. 4.0 CITIZEN SCIENCE PROGRAMS Volunteers are important for PVPLC, not only helping with growing plants, habitat restoration, guiding walks, and special events, but also with science research and education. Our volunteers travel from throughout the Peninsula and surrounding areas to help out. The Citizen Science program blossomed in 2014 Volunteers learn the basics of cactus wren with the initiation of the Cactus Wren Program observations before starting the first Citizen along with the ongoing Wildlife Tracking Program. Science Cactus Wren monitoring season. The initial Cactus Wren Program resulted in detailed analysis of how the birds utilize mature cactus scrub habitat and newly -restored habitat at Alta Vicente Reserve. In addition, the volunteers were able to obtain detailed documentation of a single pair of cactus wrens as they built a nest, incubated eggs, and successfully fledged three chicks. Monitoring work in 2016 focused on cactus wren inhabitation adjacent to specific trail segments. This information described varying levels of cactus wren inhabitance across the preserve and made possible the inference of breeding activity based on a number of inhabitance criteria. The 2016 Wildlife Tracking Project took place in the fall, beginning with training the volunteers for tracking wild coyotes, red fox, and gray fox in the Preserve. Once volunteers were confident in identifying tracks and scat of a particular species, they individually conducted regular surveys along specific routes. The data were submitted to the Conservancy for use in its management reports. A map document was also created to illustrate the location of scat or track observations. A-142 Statement of Problem During this time of drought in California, the Palos Verdes Peninsula Land Conservancy is looking to find an additional factor besides water to stimulate Nassella pulchra growth. Its health is crucial, as its long roots limit invading plant species to our coastal sage scrub community. ypothesi ' If six plots containing Nassella pulchra are equally watered, then the plot with the greatest amount of trimming and disturbance will have the greatest average number of green sprouts per clump and the greatest average height. Stimulating Nassellaulchra Growth Through Simulated Grazing by Sakina Liu Data Plot I ]'lot 11 Plot I I I Plot IN Not N Not N December_ F''P�id March All phams by outhar DATA TABLE #1: December 1.9827 2.9043 January 5.2586 7.1652 February 8.2068 12.1826 March 9.9707 13.5070 DATA TABLE #2: December 0.8817 2.0078 January 1.1749 2.7645 February 6.9438 10.6561 March 13.8297 28.3023 Introduction Nassella oulchra Background • Commonly called purple needle grass • State grass of California — perennial native grass from Baja California up to the Oregon border • 60-100 cm tall with 0.8-2.5 mm wide leaves • Roots extend down to over 60 cm deep — during droughts non-native annual grasses are able to out -compete the native grass by collecting water near the top of the soil • Long living — life expectancy of 20-200 years photo b_v wuvw.sonoma.edu Why Simulated Grazing? • Nassella pulchra evolved under herbivory and physical impact through hoof action, which breaks up soil, incorporates seeds, and compacts soil. • Grasses fust appeared in California during the Pliocene period (5-2.5 MYBP) and supported at least 19 species of plant -eating megafauna, which would be as diverse as 20a' century East Africa. • The beginning of the Holocene period (12,000 YBP) led to the arrival of humans, and hunting attributed to the broad scale extinction of those grazers. • Nassella pulchra serves as an important source of forage because grasslands were only 15% of California's land area but accounted for 80%of the land for livestock. • Historical list of grazers in southern California - Two zebras, Giant horse, Western horse, Three -toed horse, Large -headed llama, Brachyodont deer, Pacific pronghom, Dwarf antelope, Shrub ox, Woodland musk ox, Columbian mammoth, American mastodon, Harlan's ground sloth, Shasta ground sloth, Jefferson's ground sloth, Ice Age bison, Long -homed bison, Western camel, Tapir, Flat -headed peccary, Elk, Mule deer, Pronghorn, cattle, sheep, and horse ypothesi ' If six plots containing Nassella pulchra are equally watered, then the plot with the greatest amount of trimming and disturbance will have the greatest average number of green sprouts per clump and the greatest average height. Stimulating Nassellaulchra Growth Through Simulated Grazing by Sakina Liu Data Plot I ]'lot 11 Plot I I I Plot IN Not N Not N December_ F''P�id March All phams by outhar DATA TABLE #1: December 1.9827 2.9043 January 5.2586 7.1652 February 8.2068 12.1826 March 9.9707 13.5070 DATA TABLE #2: December 0.8817 2.0078 January 1.1749 2.7645 February 6.9438 10.6561 March 13.8297 28.3023 1 11 111 i 1111 111'11'1'1' Methods and Materia • A plot of land was divided into six subplots of roughly 30 labeled clumps: control, light trimming, intense trimming, light trimming with disturbance, intense trimming with disturbance, and control. • Before the first data collection, subplots #2 and #4 were lightly trimmed, and subplots #3 and #5 were intensely trimmed to a height of 5 cm. In the four experimental subplots, the thatch from regrowth was trimmed a couple centimeters every two months. Every month, subplots #4 and #5 were disturbed using a fireiron. • All six plots will receive equal amount of water according to the average monthly precipitation. • Every month, the number of green sprouts in each clump will be record along with its average height. Results T-test comparing green sprouts between control and experimental groups (95% confidence): t December 0.10508 January 0.11834 February 0.13968 March 0.15903 • No statistically significant difference T-test comparing average height between control and experimental groups (95% confidence): December 0.01708 January 0.00886 February 0.04772 March 0.04471 • Statistically significant difference Two -Way ANOVA test to compare average height among four experimental groups: Trimming 0.91359 Disturbance 0.83274 • No statistically significant difference Neither trimming nor disturbance impacted the average number of green sprouts per clump, so the hypothesis is rejected. However, the average height in the experimental plots is significantly taller than the control plots, so the Nassella pulchra grew at a faster rate in the experimental plots. No single combination of trimming and disturbance in the experimental plots was most significant in in produce highest average height per clump, so the hypothesis is rejected. As a result, any of the four combinations can be applied, so the most efficient method should be chosen: light trimming with no disturbance. The data shows that excluding simulated grazing activity from Nassella pulchra restoration areas is excluding a biological condition needed to support healthy grass. For the control, the steepness of the plot inversely affects sprouting and height, whereas for the experimental, those factors remain constant. The outlier lied in plot #6. Its location on the steeper part negatively affected water retention in the soil, leading to decreased sprouting and growth. It was also subject to the most amounts of weeds, leading to competition for resources. It would be useful to extend data collection to observe if the same patterns occur until the end of growing season in June. In addition, a second data collection on a flatter land area to see if it results in more consistent data. A-143 no" 0000 INon �■■■■W■■■■ 1 11 111 i 1111 111'11'1'1' Methods and Materia • A plot of land was divided into six subplots of roughly 30 labeled clumps: control, light trimming, intense trimming, light trimming with disturbance, intense trimming with disturbance, and control. • Before the first data collection, subplots #2 and #4 were lightly trimmed, and subplots #3 and #5 were intensely trimmed to a height of 5 cm. In the four experimental subplots, the thatch from regrowth was trimmed a couple centimeters every two months. Every month, subplots #4 and #5 were disturbed using a fireiron. • All six plots will receive equal amount of water according to the average monthly precipitation. • Every month, the number of green sprouts in each clump will be record along with its average height. Results T-test comparing green sprouts between control and experimental groups (95% confidence): t December 0.10508 January 0.11834 February 0.13968 March 0.15903 • No statistically significant difference T-test comparing average height between control and experimental groups (95% confidence): December 0.01708 January 0.00886 February 0.04772 March 0.04471 • Statistically significant difference Two -Way ANOVA test to compare average height among four experimental groups: Trimming 0.91359 Disturbance 0.83274 • No statistically significant difference Neither trimming nor disturbance impacted the average number of green sprouts per clump, so the hypothesis is rejected. However, the average height in the experimental plots is significantly taller than the control plots, so the Nassella pulchra grew at a faster rate in the experimental plots. No single combination of trimming and disturbance in the experimental plots was most significant in in produce highest average height per clump, so the hypothesis is rejected. As a result, any of the four combinations can be applied, so the most efficient method should be chosen: light trimming with no disturbance. The data shows that excluding simulated grazing activity from Nassella pulchra restoration areas is excluding a biological condition needed to support healthy grass. For the control, the steepness of the plot inversely affects sprouting and height, whereas for the experimental, those factors remain constant. The outlier lied in plot #6. Its location on the steeper part negatively affected water retention in the soil, leading to decreased sprouting and growth. It was also subject to the most amounts of weeds, leading to competition for resources. It would be useful to extend data collection to observe if the same patterns occur until the end of growing season in June. In addition, a second data collection on a flatter land area to see if it results in more consistent data. A-143 PALOS VERDES PENINSULA Monitoring Wild Canids in the Palos Verdes Nature Preserve Three species of wild canid inhabit the Palos Verdes Nature Preserve (PVNP); coyote (Canis latrans), gray fox (U—yon clnereoargeneus), and red fox ( Vulpes vulpes). These can ids serve as top predators within PVNP. The Palos Verdes Peninsula Land Conservancy (PVPLC) has monitored wild can id presence within the PVNP since 2006 in accordance with the Rancho Patios Verdes Natural Community Conservation Plan (NCCP)• This agreement provisions PVPLC to describe biological data on wildlife movements of predators. The Citizen Science Wildlife Tracking Program is currently engaged in performing this monitoring task. Coyote Gray FOX Study Area: The study area was within five reserves of the Palos Verdes Nature Preserve (Figure 4 and 3) in Rancho Palos Verdes, CA Survey Period: November 2016 - March 2017 Data Collection: Volunteers walked predetermined trail routes documenting scat or tracks of wild canids. A photo was taken of each observation and the location was noted on field data sheets (Figure 1). Data Analysis: Track and scat observations were collectively mapped to spatially describe the movement of wild canids within the PVNP. Figure 1. Completed field sheet fairthe Forrestal Reserve. Figure 2. Trade phom. ,.-w»�.. r'rasra,�w�bi5.ve�l .�InlFiaa�r$.�.N R G r RWre 3. Scat photo. } I�a I ) Field surveys identified the presence of all 3 wild canid species known to exist within the Palos Verdes Nature Preserve - 2) The majority of scat and track observations were coyote - 3) Three areas of intensive use by wild canids were found within Three Sisters, Portuguese fiend, and Forrestal reserves. 4) Areas of low -use or near exclusion may exist between observed high -use areas. Figure 4. Locations of wild canis stats detected across the PVNP. Figure 5. Location of wild [arid tracks detected across fie PVNP. Project Coordination by josh Weinik, Stewardship Associate PVPLC Contact Information: jwelnik c@pvplcorg (310) 541 - 7613 1) Coyotes were observed to be the most abundant wild canid within the Palos Verdes Nature Preserve - 2) Habitat areas of the PVNP support varying intensities of wild canid activity. This may potentially describe differing levels of Inhabitance factors known to affect canid occupancy such as habitat quallty. prey abundance, and disturbance pressure. 3) High -use areas may generally depict den locations. Future study will evaluate the validity of observed high/low-use areas as well as work towards better understanding wild canid movement across the PVNP. Trail cameras will be used to identify individual coyote movement and describe the presence or absence of territorial use of observed high -use areas. This work may also improve our understanding of wild canid presence within low - use areas and supplement current research methods in the case that environmental factors such as substrate composition or trailside vegetation impede track and scat detection. The development of a relative abundance Index (# of scatlkilometer surveyed/week) will be created to track yearly fluctuations of wild canid populations. Figure 6. Installation of a Vail camera. Figure 7. Trail camera capture of a coyote. Bethany Bax (AmeriCorps), Mike Bell, Tana Bell, Peter Cameron,. Joseph Garcia, Linda Howat, Rebecca Heisey, Alex Kovary, Joan Krauss, Connie Lao, Donna McLaughlin, Jim Rassler, Ben Smith, Wes Wyberg (AmenCorps), glad t1441111ily. PALOS VERDES PENINSULA Monitoring Coastal Cactus Wren in the Palos Verdes Nature Preserve Citizen Scientists: Sandra Albers, Bill Cullen, Bonnie Cohn, Alexis Diaz, Ann Dalkey, Connie Lao, Mai Lee, Donna McLaughlin, Dustin Hartuv, Evi Meyer, Jess Morton, Jim Rassler, .loan Krause, John Dickinson, Linda Wedemeyer, and Lowell Wedetneyer. The coastal cactus wren (Carnpyl4whynchus brunneksplllus) is a Callfornia Species of Special Concern that fives exclusively in cactus dominated patches of coastal sage scrub. Monitoring the intensity and frequency of habitat occupancy has the potential to describe locations Important to supporting the life cycle of this uncommon bird. The Palos Verdes Peninsula Land Conservancy (PVPLC) designed a volunteer friendly survey method to investigate habitat use by cactus wren in relation to hiking trail segments of the Palos Verdes Nature Presence (PVNP) and investigate cactus wren use of habitat following wildfire. In this study, we documented cactus wren inhabitance levels adjacent to trail segmerds within seven reserves of the PVNP to inform habitat restoration and protection efforts. Figure 1. Caclus wren. Study Area: The study area was within the Alta Vicente, Three Sisters, Filiorum, Forrestal, Ocean Trails. San Ramon, and Portuguese Bend reserves of the Palos Verdes Nature Preserve (Figure 6) in Rancho Palos Verdes, CA, Data Collection: Volunteers walked predetermined trail routes documenting visual or audial observations of cactus wren and noting the trait segment closest to each observation. The survey period was April - July 2016, Data Analysis: Collected data were analyzed an the basis of three criteria that allowed for a rating of cactus wren inhabitance adjacent to each trail surveyed. Criteria: 1) Observation Rate 2) Multiple Month Observation 3) Multiple Cactus Wren Observation Figure 3. Observation rate and Inhabitance rating per tail. ' = PERIODIC is a weak indicator of nesting due To a lack of rnultipre sighengs,however a high observal6un rate would strengthen the possibility of nesting. 2 = A REGULAR inhabitance rating could include either multiple sightings or both. 1) Alta Vicente, Portuguese Bend, and San Ramon reserves are likely supporting cactus wren breeding due to high observation rates (>50%) per trail and multiple month and/or multiple cactus wren sightings. 2) Cactus wren were not detected at a historic breeding site in Portuguese Bend following a wildfire in 2009° 3) Filiorum reserve exhibited low observation rates and lacked multiple month and multiple cactus wren observations therefore was not expected to have supported cactus wren breeding activity. Figure 5. Observation rate and Inhabitance rating per tail. 1 = PERIODIC rased tail indicates occasional use but likely excludes breeding activity. 2 = No raling Indicates a lack. of cactus wren Inhabitance. This formerly occupied area Is expected to be a site of local extirpation post -fire, 3 = CONSISTENT and REGULAR tall ratings Indicate breeding, Figure 6. Highest inhabits nm rating per reserve. m.W& manor W. mv]upla eaews icer eig6uns to • RAREIpf b.!6.. coring r • PERIODIC., 6 6immc.aung °i ! • REGULAR wEe6¢enec terms •CONSISTENT inhnM1nmce raimg ion rm .. urw. , .:,�. �,„r _ .. .,,...•. I+'/I rvNeiN eN iaM1 na Ice Ira/ wruv1 Frnyc•rtsG brroi e coni Project Coordination by josh Weinik, Stewardship Associate PVPLC Contact Information: jweir ik@pvplc.org (3 l0) 541 - 7613 1) Identifying trail segments adjacent to cactus wren sightings have detected areas of high -use, breeding, and possible extirpation. 2) Identifying occupancy levels within habitat adjacent to trail segments provided a general spatial descriptor of cactus wren inhabitance. 3) The 2009 wildfire is having long-term negative effects an cactus wren occupancy at a historic breeding site in Portuguese Bend reserve. Future study of cactus wren Inhabitance will increase detail specific to cactus wren habitat management by: 1) Mapping cactus habitat patches. 2) Documenting cactus wren occupancy of individual cactus patches 3) Documenting presence and possible threat of nest predators such as corvids, reptiles, domestic cats, Cooper's hawks and other raptors. 4) Noting changes in cactus patches and surrounding habitat, presence of weeds, plant health, and other possible impacts to nest site suitability. Figure 7, Updated field survey form. Caei� Yen McNeAnp reb a++a rano 4 = Yellow polygons depict contiguous cactus patches. 5 = Predator monitoring data form. 6 = Area available to note changes in habitat. -tltt� tltttltttltttltttlta fEll�Ir is MIII'_'R"alf=Zlt� �: . � Inhabitance Ratln I Criteria Trail Rating Observation Rate (%) Muld-month Observation Multi -cactus wren Observation Indication of Breading <25 No No None PERIODIC 26-50 No _ No Possible' REGULAR 50-75 Yes' Yes' Expected CONSISTENT 75-100 Yes Yes Very Strong ' = PERIODIC is a weak indicator of nesting due To a lack of rnultipre sighengs,however a high observal6un rate would strengthen the possibility of nesting. 2 = A REGULAR inhabitance rating could include either multiple sightings or both. 1) Alta Vicente, Portuguese Bend, and San Ramon reserves are likely supporting cactus wren breeding due to high observation rates (>50%) per trail and multiple month and/or multiple cactus wren sightings. 2) Cactus wren were not detected at a historic breeding site in Portuguese Bend following a wildfire in 2009° 3) Filiorum reserve exhibited low observation rates and lacked multiple month and multiple cactus wren observations therefore was not expected to have supported cactus wren breeding activity. Figure 5. Observation rate and Inhabitance rating per tail. 1 = PERIODIC rased tail indicates occasional use but likely excludes breeding activity. 2 = No raling Indicates a lack. of cactus wren Inhabitance. This formerly occupied area Is expected to be a site of local extirpation post -fire, 3 = CONSISTENT and REGULAR tall ratings Indicate breeding, Figure 6. Highest inhabits nm rating per reserve. m.W& manor W. mv]upla eaews icer eig6uns to • RAREIpf b.!6.. coring r • PERIODIC., 6 6immc.aung °i ! • REGULAR wEe6¢enec terms •CONSISTENT inhnM1nmce raimg ion rm .. urw. , .:,�. �,„r _ .. .,,...•. I+'/I rvNeiN eN iaM1 na Ice Ira/ wruv1 Frnyc•rtsG brroi e coni Project Coordination by josh Weinik, Stewardship Associate PVPLC Contact Information: jweir ik@pvplc.org (3 l0) 541 - 7613 1) Identifying trail segments adjacent to cactus wren sightings have detected areas of high -use, breeding, and possible extirpation. 2) Identifying occupancy levels within habitat adjacent to trail segments provided a general spatial descriptor of cactus wren inhabitance. 3) The 2009 wildfire is having long-term negative effects an cactus wren occupancy at a historic breeding site in Portuguese Bend reserve. Future study of cactus wren Inhabitance will increase detail specific to cactus wren habitat management by: 1) Mapping cactus habitat patches. 2) Documenting cactus wren occupancy of individual cactus patches 3) Documenting presence and possible threat of nest predators such as corvids, reptiles, domestic cats, Cooper's hawks and other raptors. 4) Noting changes in cactus patches and surrounding habitat, presence of weeds, plant health, and other possible impacts to nest site suitability. Figure 7, Updated field survey form. Caei� Yen McNeAnp reb a++a rano 4 = Yellow polygons depict contiguous cactus patches. 5 = Predator monitoring data form. 6 = Area available to note changes in habitat. -tltt� tltttltttltttltttlta fEll�Ir is MIII'_'R"alf=Zlt� �: . � APPENDIX F VOLUNTEER PROGRAMS A-146 2 I. INTRODUCTION AND SUMMARY Volunteer Programs This report describes the components included within the larger Volunteer Program that serviced the Palos Verdes Nature Preserve. Specific activities are detailed for the reporting period January I, 2016 to December 31, 2016. Since 1988, volunteers have played an essential role in fulfilling the Palos Verdes Peninsula Land Conservancy's (PVPLC) mission to preserve land and restore habitat for the education and enjoyment of all. PVPLC is a non-profit organization that relies heavily on the support of community involvement to perform many of the tasks necessary to manage the Nature Preserves. Volunteers donate thousands of hours each year to help with office assistance, event planning, community education, habitat restoration, trail maintenance, and much more. This report divides the various volunteer programs into two categories: Community Involvement Volunteers and Stewardship Volunteers. The first category, Community Involvement Volunteers, supports volunteer activities that focus on friend making, fundraising, and recommendations to staff on a variety of topics. This category is further divided into four sections which are detailed within the report: • Board of Directors • Committees and Advisory Boards • Special Events and Office Assistance • Education Docents and Nature Walk Leaders • Interns The second category, Stewardship Volunteers, supports activities that are performed on the land to assist with habitat management of the Preserve. In all, there are six elements within this category that are described in more detail in the Stewardship Volunteer section of this report. The backbone of the program is our regularly scheduled Saturday Outdoor Volunteer Days that are open to participation by all and require no long-term commitment. Periodically, there are also individuals or groups that complete stewardship projects outside of the normally scheduled outdoor events. Boy Scouts and Girls Scouts interested in obtaining their final awards are two such groups. There are also several Stewardship Volunteer opportunities that require long term commitments. The six programs are listed below: • Outdoor Volunteer Days • Team Leaders • Scout Projects • Adopt -a -plot • Trail Crew • Keeping an Extra Eye on the Preserve for Environmental Review and Stewardship (KEEPERS) • Volunteer Trail Watch • Citizen Science In 2016, volunteers provided a grand total of 16,142.89 hours of service to support conservation, restoration and management of the Palos Verdes Nature Preserve. According to the A-147 3 Independent Sector, volunteer time in California is valued at $28.46 per hour (based on Dollar Value of a Volunteer Hour, by State: 2016, Independent Sector), thus generating a total of $459,426.64 of in- kind services. The amount of volunteer hours donated at each Nature Preserve or for a specific volunteer category depends on the size of property or specific projects that transpired during the reporting period. 2016 Volunteer Hours for the Palos Verdes Nature Preserve Ini Volunte Watch, Citizen Science, 419.3 / Trail Crew, 456J Keepers, 509 Committees, 21C Events, 411 ceaaers, .qui 2. COMMUNITY INVOLVEMENT 2.1 Board of Directors Outreach, 594.9 PVPLC is driven and supported by a fifteen -member volunteer board, which meets on a regular basis to strategize and direct the organization's mission. This year, the board contributed about 1,456 hours in serving the Land Conservancy's mission. 2.2 Committees and Advisory Boards The PVPLC maintains numerous committees and advisory boards for the following purposes: • To provide review and recommendations regarding organizational plans and policies • To provide assistance with the operations of the organization F.1151155 4 • To provide community input for PVPLC activities • To provide a training and evaluation ground for potential members of the Board of Directors Committee volunteers donated a total of 210.5 hours, with many committees meeting on a quarterly basis. Hours for committee -involved board members are compiled with their board volunteer time. The committees that were active during the reporting period are listed below: • Audit Committee • Finance Committee • Development Committee • Investment Committee • Special Events Committee(s) 2.3 Special Events and Office Assistance Volunteers The PVPLC relies on individual volunteers and community groups, such as the National Charity League (NCL) to assist PVPLC staff with all major fundraising and friend -raising events. We have built very strong and fulfilling relationships with these groups and strive to provide an environment that lets volunteers know they are indispensable and an integral part of our organization. Special events supported by committees and volunteers this year such as Palos Verdes Pastoral held at Terranea Resort. 2.4 Nature Walks Nature Walk Leaders donated a total of 307 hours in 2016. Former PVPLC Board of Directors member Anke Raue coordinates this group of dedicated volunteers and each prospective walk leader must have a high level of knowledge the local ecosystem, particularly the native and non-native plants found on the Peninsula. Leaders must go through extensive training and be willing to research and learn about local history, geology, flora and fauna. Continued research and exploration serves to add to a walk leader's knowledge base, preparing them to give accurate and in-depth presentations to the public. Walks are held all over the Peninsula, from the edge of the coast to deep within the canyons. Each leader designs his or her presentation to include special attributes and stories particular to a site. Nature walks occur once a month every month throughout the year, featuring a different location every time. 2.5 Internships Interns dedicate much of their volunteer time to helping the Land Conservancy's mission to educate and restore. In 2016, 15 interns dedicated a total of 1886 hours to various projects such as educational outreach, field trips, weed mapping, native plant propagation, wildlife monitoring and much more. A-149 5 3. STEWARDSHIP VOLUNTEERS Volunteers play an integral part in helping PVPLC staff exceed our goals for restoring land in the Preserve. Outdoor volunteer days provide an opportunity for public volunteers to contribute to habitat and trail restoration efforts. Team Leaders provide leadership on Saturday events, the Trail Crew class volunteers build skills to maintain the trail system, and KEEPERS help "keep an eye" on the Reserves on a monthly basis. The Volunteer Trail Watch, Adopt -a -Plot program, Citizen Science wildlife monitoring, scout projects, local HERO Club chapters and nursery volunteers are also Stewardship volunteers that support Conservancy conservation efforts within the Palos Verdes Nature Preserve, the native plant nursery and other management areas (PNVP and nursery are the only metrics outlined for this report). Palos Verdes Nature Preserve Stewardship volunteer highlights in 2016: • 9,293.99 hours of outdoor stewardship volunteer time • Grant from REI Inc. to support volunteer programs, youth engagement, and restoration initiatives 3.1 Outdoor Volunteer Days The PVPLC holds outdoor volunteer days nearly every Saturday of the year, held from 9am-12pm, excluding holiday weekends and during the month of August. The focus of these events is to restore native habitat, maintain the trail system, and do general clean-ups. There is a particular focus on getting young people involved as a mechanism to ensure education and stewardship on the Preserves in perpetuity. We work with local schools and colleges to have teachers bring groups of students or give incentives such as extra credit and service -learning hours for students who participate on the Saturday volunteer events. Also included in this summary are events catered for special groups and corporations. Rapid Response is an Outdoor Volunteer Opportunity held almost every Friday and Saturday from 9am to 12pm. During these events volunteers are invited to work alongside staff closing spur trails. Refer to Appendix G for maps of spur trail closures. A detailed account of volunteer days and group events are listed below. Events are listed chronologically by Preserve with the Palos Verdes Nature Preserve (PVNP) further separated by Reserve. 3.1.1 Palos Verdes Nature Preserve Abalone Cove Reserve Date Activity 15 -Jan Rapid Response 16 -Jan Rapid Response 8 -July Rapid Response 9 -Sept Rapid Response 17 -Sept Coastal Clean -Up Day 18 -Nov Rapid Response 19 -Nov Rapid Response 30 -Dec Rapid Response A-150 Agua Amarga Reserve Date Activity 20 -Feb Planted 67: 20 sunflower, 5 lemonadeberry, 20 sea -cliff buckwheat., 10 goldenbush, 10 coyote brush, 2 elderberry 4 -Jun Weed removal: flowering bristly ox tongue, fennel treatment 16 -Jul Water retention berms, watering, hand weeding prickly lettuce, dandelion, bristly ox - tongue, and tobacco tree, cut -stump herbicide treatment of fennel 8 -Oct Ice plant removal from North side of Upper Lunada and watering restoration area Alta Vicente Reserve Date Activity 17 -Jan Removed Acacia, fennel and Russian thistle 28 -May Remove ice plant, Russian thistle, Acacia 15 -Sep Removed Russian thistle in Phase I and 2; line trail with wood, remove Acacia seedlings I -Oct Rapid Response 15 -Oct Spread wildflower seed in poppy circle and rake it in 3 -Dec Weed ice plant, Russian thistle, clover, stork's bill, Iamb's quarters, annual grass from Phase 2 Portuguese Bend Reserve Date Activity 30 -Jan Removed weeds from restoration area 13 -Feb Rapid Response 19 -Feb Rapid Response 20 -Feb Rapid Response 18 -Mar Rapid Response 19 -Mar Rapid Response 25 -Mar Rapid Response 2 -Apr Detailed weeding around installed plants 8 -Apr Rapid Response 16 -Apr Rapid Response 29 -Apr Removed all mustard from Phase 5 with ITG Corporate group 28 -May Rapid Response 25 -June Rapid Response I -July Rapid Response 2 -July Detailed weeding of various common weed spp. Phase 5 2 -July Rapid Response 27 -Jul Phase 5 light weed removal, Phase 3: Russian thistle and bristly ox tongue removal & dethatching, Phase 4: Fennel and Russian thistle removal 30 -July Rapid Response 6 -Aug Remove fennel seedlings NCCP: Phase 4, Russian thistle removal & rake Phase 3 26 -Aug Rapid Response A-151 27 -Aug Rapid Response 3 -Sep Collect about 20 lbs of seed from Eriogonum fasc/parv., Salvia mellifera, Rhus integri folia 30 -Sept Rapid Response 12 -Oct Plant 145 CSS in Phase 3: 47 Artemisia, 9 Encelia, 27 E. cinereum, 24 E. fasciculatum, 6 Escscholzia, 3 Heteromeles, 2 Rhus, 15 S. leucophylla, 6 S. mellifera 28 -Oct Rapid Response 29 -Oct Rapid Response 5 -Nov 240 fill-in plants in Phase 5 Portuguese Bend 9 -Dec Rapid Response 16 -Dec Rapid Response Filiorum Reserve Date Activity 29 -Jan Rapid Response 26 -Feb Rapid Response 26 -Mar Rapid Response 15 -Apr Rapid Response 17 -June Rapid Response 18 -June Rapid Response 24 -June Rapid Response 22 -July Rapid Response 29 -July Rapid Response 17 -Dec Rapid Response 28 -Dec Eagle Scout project to build fence Forrestal Reserve Date Activity 30 -Jan Rapid Response 5 -Feb Rapid Response 26 -Feb Rapid Response 4 -Mar Rapid Response 5 -Mar Rapid Response I -Apr Rapid Response 22 -Apr Rapid Response 13 -May Rapid Response 3 -June Rapid Response 4 -June Rapid Response 15 -July Rapid Response 5 -Aug Rapid Response 6 -Aug Rapid Response 12 -Aug Rapid Response 13 -Aug Rapid Response 16 -Sept Rapid Response 17 -Sept Rapid Response 7 -Oct Rapid Response A-152 8 8 -Oct Rapid Response 14 -Oct Rapid Response 21 -Oct Rapid Response 22 -Oct Rapid Response 5 -Nov Rapid Response 3.1.2 Native Plant Nursery Activities in the Native Plant Nursery include transplanting seedlings from flats into individual containers, removing weeds from the containers. On occasion, groups and scouts help maintain the shade structure, build plant benches and repair the weed barrier cloth. Volunteers help at the nursery on select Saturday events as well as during the week throughout the year. A total of 1758.3 volunteer hours were contributed to nursery efforts in 2016. 3.2 Team Leader Program The Team Leader program began in 2007 in response to the growing number of volunteers that were attending the Outdoor Volunteer Days. Team Leaders are volunteers, sixteen years or older, who assist in supervising the Saturday outdoor volunteer activities. They ensure that volunteers have adequate instruction and the tools necessary to complete the task. They also assist in educating the public about the PVPLC. The program requires that interested volunteers go through an application and interview process. Candidates then attend a half-day weekend workshop where they learn the skills necessary to motivate and supervise volunteers during Saturday Outdoor Volunteer Days. Training involves practicing leadership skills and communicating restoration techniques. Team Leaders commit to working at least four volunteer days within one season or half-year. The goal of the PVPLC is to hold two Team Leader workshops each year and train a minimum of six new Team Leaders at each one. In 2016, three workshops were held which trained 67 leaders at White Point Preserve on April 16, th May 15`h and September 10`" The Team Leader Program has helped develop leadership skills in participants and has greatly contributed to the success of our Outdoor Volunteer Days. The quality of work from regular volunteers has increased with the guidance of Team Leaders. In addition to adult participants, many of the Team Leaders attend local high schools and universities. During the reporting period, the program has allowed these students to build leadership skills that they will find useful in their future 3.3 Scout Projects The PVPLC encourages Boy Scouts and Girl Scouts who are looking for projects to complete their final awards, Eagle Awards for Boy Scouts and Gold Awards for Girl Scouts, by providing them with opportunities to complete their projects on preserves the PVPLC manages. This collaboration is beneficial to the scout groups, the PVPLC, and the public that uses the preserves. Scouts work under the mentorship of one of the PVPLC staff to complete their projects and are steered toward objectives that meet the PVPLC stewardship goals. In 2016, scout projects accumulated 1,126 hours of volunteer service. A-153 9 3.4 Trail Crew Program In 2016, the volunteer Trail Crew contributed a total of 456 hours to maintaining the Preserve's trail system. These hours include the second -Saturday monthly class trainings as described below, as well as additional trail work, such as weed whacking or spur trail closures, executed by Trail Crew members outside of the classes. This year, Leadership Training was offered for graduates and dedicated Trail Crew members through two workshops to help prepare volunteers to initiate additional trail projects with smaller teams outside of the monthly Trail Crew classes. The Volunteer Trail Crew class offered is based on the Basic Trail Maintenance class developed by Frank Padilla, Jr. (retired California State Parks Supervisor), and Kurt Loheit. Originally started in 1992, the class focused on both volunteer and agency skill building. Adopted by the Los Angeles District of California State Parks and later the Southern California Trails Coalition, it became the first step in advanced classes for crew leader training and design and construction classes, allowing a structured path for participants to build skills associated with trails from basic maintenance to highly advanced techniques. The class is a combination of classroom and hands-on training to familiarize the participants in all aspects of trail maintenance. The course emphasizes safety, assessments, basic maintenance skills, water control, erosion sources, terminology, proper tool use, basic survey skills, resource considerations, and user experience and maintenance value. Volunteers who demonstrate proficiency in each learned skill and fulfill a yearly indoctrination will maintain status as a qualified Trail Crew member. Participants must be at least 18 years old and must first take the introductory course. The 50 -hour course can be taken at the participant's own pace and it is estimated to take about a year to complete. There are scheduled Trail Crew Skills Classes that coordinate with the trail instructor's availability and the PVPLC Outdoor Volunteer Workday schedule. Table 1. Trail Crew training classes Date # Volunteer Hours Location Project/Skill Learned January 16 40 Filiorum and Portuguese Bend Kelvin Canyon trail wall and Zote's Cutacross trail alignment February 6 31.5 Portuguese Bend Toyon Trail re-routing with City volunteers & staff February 20 27.5 Portuguese Bend Planting in Toyon trai February 27 15 Portuguese Bend Toyon/Landslide Scarp/Peppertree junction March 12 13 Filiorum Zote's Cutacross tread repair, bench cut, checkdams April 9 25 Three Sisters Sunshine Trail rock retaining wall May 14 21 Forrestal Pirate trail check dam reinforcement June 11 31.5 Abalone Cove Sea Dahlia trail step repair July 9 12 Filiorum Zote's Cutacross trail repair August 13 30 PVPLC Office Trail Crew Introductory Class August 14 13.5 Portuguese Bend Kelvin Canyon retaining wall September 10 28 Vista del Norte Enhance trail connection October 15 24.5 Filiorum Ford trail realignment and bench cut December 10 52 Forrestal Mariposa tread repair, bridge repair, pruning A-154 10 3.5 Keeping an Extra Eye on the Preserves Stewardship (KEEPERS) Program In 2016, The KEEPERS program contributed 508.71 hours to monitoring the Preserve. The program was developed in April of 2007 to help monitor the nearly 1600 acres of land that is managed by the PVPLC. Keepers are volunteers who monitor an area within a preserve and fill out monthly property review forms. These forms are reviewed by staff and consolidated into a monthly report that is sent to all of the current Keepers. The property review form is a one page form that requires some knowledge of basic trail maintenance and plant identification. The skills needed to fill out these forms are provided in a training session with a PVPLC staff person and are continually developed with an ongoing relationship between the volunteer, the PVPLC staff, and regular visits to the preserve being monitored. This volunteer opportunity is a one year commitment (a total of 12 visits) to the chosen preserve area. Some of the properties managed by the PVPLC are large enough to require more than one Keeper to monitor them. The person or group that accepts this responsibility also helps, if necessary, to train the following year's replacement volunteer Keeper. Currently, there is no term limit. 3.6 Volunteer Trail Watch Program The mission of the Palos Verdes Nature Preserve Volunteer Trail Patrol Program is to serve as eyes and ears of the City of Rancho Palos Verdes and the Palos Verdes Peninsula Land Conservancy with a view to 1) protect the natural resources of the Palos Verdes Nature Preserve, including the flora and fauna as well as the geology, topography and scenic landscape, and 2) enhance the safety of, and promote an enjoyable experience for all Preserve visitors. The Volunteer Trail Watch Program was initiated in 2013 to help educate trail users about appropriate trail use and monitor preserve misuse. Volunteers dedicated 2203.93 hours to the program through training and field implementation activities, and reporting observations through the web portal for record keeping. A large portion of this year's hours was contributed by the Volunteer Trail Watch co -coordinators, who dedicated much of their time to training and coordinating the program's volunteers in addition to their time as VTW volunteers on the trails. 3.7 Citizen Science Volunteers help the PVPLC monitor wildlife on the Preserve in order to document populations and their response to restoration efforts. Citizen Science volunteers contributed 419.3 hours to documenting the behavior of cactus wrens and the evidence of mammalian populations like coyotes and foxes through tracking efforts. 4. GRANTS SUPPORTING VOLUNTEER ENGAGEMENT In 2016, the Conservancy received a grant from REI for $10,000 to help with volunteer efforts to build trails and restore habitat. A-155 APPENDIX G UNAUTHORIZED TRAIL CLOSURES A-156 ti Abalone Cove Reserve ............ T' W- VQ A 69 J14 Olmsted (D 0 QL CL A-157 47 0 cy U 0 0 41 41 > 1313 CL 03 03 a. !q [100HCES A-157 Alta Vicente Reserve f � Noah S r rail�� t� U !r i1' SM ;r 11; Alta Vicente Trail RN Tr'-7II ew A�Ias - Alta Vicente Trail 'Pelican 0 =� Vicinity of Spur Trail Closures - �Y Q RPV City Hall Q Parking Restrooms `=o Trailhead Multiuse Trail Pedestrian & Equestrian Trail Road Reserve Boundary Map created June 15, 2015 D O.I 2 Miles A-158 Filiorum Reserve �� ,�'� _ // �,eXk►9 _ ,. � == Qty � I ,+r, C ! ies; �- •y Caar'i m �� T 9( CL {gyp CIL ? o O� 4 Forrestal Reserve fir Portuguese Bend Reserve "Miles Map updated May 111, 2016 .; == City of Rolling Hills IN Access By Permit Only 1 r Burrrla Road Trail r 'p, pe e -ail Filiorum Reserve Private Community. No Public Access. 1�G6 is G 0) m lshihash' N'� � ,gym 1 Tsai! Garden Trail 44 IvaSa - ' a 3 �'� ` ' " 3 I0, 11 . Private Community' No Public Q ccess. per dU Q Street Parking Trailhead a- ® Vista Point - City of Rolling Hilis Portable Restroom `Farm Access By Permit Ohl r O Water Tank = Forrestal M Restricted Access 6}_ Reserve 0-1 Multiuse Trail Pedestrian Trail Pedestrian & Equestrian Trail m or �- Pedestrian & Bike Trail Reserve Boundary V' fS T 'IGIn Palos Verdes Drive south `oc � u icinity o pur rai osures ovte Reserve 1- r A-161 f�``� "Map created lune 15, 2015 f -A— i vAf— APPENDIX H FUTURE TRAIL PROJECTS LIST A-163 2017 Trail Project Needs List The following is a list of trail project needs on priority and available funding opportunities. This list is intended to outline potential projects including trail repairs, spur trail closures and signage improvements but may be amended. Projects not completed will carry over to the following year and projects may be added to the list on an ongoing basis. In addition to the list below, smaller -scale projects may be accomplished by the Volunteer Trail Crew on an as -needed basis. Priority Ranking: The following projects are ranked low to high with consideration to impacts to habitat, user safety and other issues. These rankings also take other considerations such as funding, feasibility, availability of staff or volunteers to accomplish project, and other factors into account. High = poses immediate safety concern, significant impact to habitat, trespassing, etc. Medium = spur trails and erosion issues that affect trail quality, cause user dissatisfaction, or mildly impact habitat Low = spur trails and erosion issues that are minor and may not impact habitat, but may not meet user satisfaction Reserve Name Trail Name Issues Priority Abalone Cove Cave Trail Trail erosion control Medium Sacred Cove (West to beach) Trail erosion Medium Olmstead Trail Spur trail closures Medium -- Ongoing Sea Dahlia Trail Safety concern around stairs — Closure of whole segment? High Sea Dahlia Trail Spur Trail Closures Medium — Ongoing Smuggler's Trail Spur Trail Closures Medium — Ongoing Abalone Cove Trail Spur Trail Closures Medium — Ongoing Beach School Trail Spur Trail Closures Low — Ongoing Sacred Cove View Trail Spur Trail Closures Low Via del Campo Trail Spur Trail Closures Medium — Ongoing Agua Amarga Alta Vicente Prickly Pear Trail Spur trail closures Medium — Ongoing Filiorum Jack's Hat Spur trail closure and signage replacement Medium — Ongoing Pony Trail Install bridge over gully and close spur trails Medium — Ongoing Rattlesnake Trail Spur trail closure Medium Closures at York property Signage replacement Medium — Ongoing McBride Trail Spur trail closures Medium Zote's Cutacross Improve canyon crossings Completed A-164 Forrestal Conqueror Trail Trail erosion Medium Crystal Trail Trail delineation and signage Medium Quarry Trail Spur trail closure Low Cool Overlook Spur trail closure Medium Dauntless Trail Spur trail closure (upper section) and trail erosion (lower section) Medium Mariposa Trail Bridge replacement Completed Vista Trail Spur trail closure Medium Exultant Trail Spur trail closure Low Cristo que Viento Trail Spur trail closure Medium Flying Mane Trail (west) Spur trail closure Medium Pirate Trail Post and cable repair and trail erosion Medium Portuguese Bend Sandbox Trail Trail erosion Medium Ishibashi Trail Spur trail closure and reduce widening Reduce widening completed Spur Closure Ongoing Barn Owl Trail Trail erosion and spur trail closure Low Fire Station Trail Maintain closure into private property; Signage (ongoing) Low Toyon Trail Restore widened trail to appropriate trail width In progress Rim Trail (lower section) Spur trail closure High Panorama Trail Spur trail closure Low Paintbrush Trail Spur trail closure Medium — Ongoing San Ramon Switchback trail Delineate single path and install bridge over gully Medium Marymount Trail Create sustainable trailhead at upper section; more sustainable trail delineation; Repair erosion at upper trail head Medium Marymount Trail Create sustainable lower access point Medium Three Sisters Sunshine Trail Trail Delineation in fuel mod area Medium Barkentine Trail Spur trail closure Medium Trail connection New trail creation to Filiorum Reserve Medium McCarrell Canyon Trail Trail erosion and spur trail closure Medium — Ongoing Vicente Bluffs A-165 Last Updated 09/27/2016 A-166 Tovemor Trail Close spur trail Medium -- Ongoing Vista del Norte Indian Peak Loop Trail Trail delineation to connect to new development's trail easement Completed Last Updated 09/27/2016 A-166 APPENDIX I PVNP SIGNAGE DESIGNS A-167 a4yi = Eco Ln %o N N I � � I . 4-1 El 0 I o I � o .. .O O I I i I Ln 1 Ln SOlVd E a I I � � 1 0 I �I � " I w V) v I I � o W J W 1 1 1 1 M1 W \0 Ln M E m 1 , 1 A-168 APPENDIX J HABITAT IMPACTS A-169 2016 Habitat Loss Tracking Report Date of Loss Responsible Party Amount of Loss (Acres) Location of Loss Description of Loss Jul -16 City of Rancho Palos Verdes 0.1 Burma Road Loss of coastal sage scrub during City dewatering well project. Cal Water damage off Burma Road. Undergoing restoration efforts. Damage includes 0.04 acres of coastal sage scrub and Aug -16 Cal Water Company 0.07 Portuguese Bend Reserve 0.03 acres of grassland. A-170 APPENDIX K CITY OF RPV NIGHT HIKE ACTIVITY A-171 I_\JJVIDIVAN 2016 Preserve Night Hikes and Activities 1/4/16 Sierra Club Hike* 1/23/16 Mountains Recreation & Conservation Authority Night Hike 1/25/16 Sierra Club Hike 2/1/16 Sierra Club Hike 2/8/16 Sierra Club Hike 2/15/16 Sierra Club Hike 2/22/16 Mountains Recreation & Conservation Authority Night Hike 2/22/16 Sierra Club Hike 2/29/16 Sierra Club Hike 3/21/16 Sierra Club Hike 10/24/16 Sierra Club Hike 11/7/16 Sierra Club Hike I 1/ 14/16 Sierra Club Hike 11/28/16 Sierra Club Hike 12/5/16 Sierra Club Hike *Night hikes may include a maximum of 30 participants per hike. Night hikes averaged 15 participants per hike in 2016. A-172