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Home My WebLink AboutCommunity Wildfire Protection Plan (CWPP) JEFFERSON COUNTY BOARD OF COUNTY COMMISSIONERS REGULAR AGENDA REQUEST TO: Board of County Commissioners FROM: Mark McCauley, County Administrator DATE: July 1, 2024 SUBJECT: Approval/adoption of the First Ever Jefferson County Community Wildfire Protection Plan (CWPP) and Corresponding Signature Ceremony STATEMENT OF ISSUE: Since April 2023, the County, the members of its CWPP Advisory Group and SWCA Environmental Consultants have been working hard to produce Jefferson County's first ever Community Wildfire Protection Plan. The plan, finally is complete and can be found here: https://jefferson-county-cwpp-jeffcowa.hub.arcgis.com/ ANALYSIS: The CWPP will help the County and its partners move forward as we work to reduce wildfire risk to our various communities. The plan also allows us to compete for substantial financial resources that are available to improve resiliency and survivability in the face of the increasing wildfire threat. We are grateful to our many partners who contributed much time and effort to make this project a smashing success. FISCAL IMPACT: This request has no fiscal impact. RECOMMENDATION: That the Board of County Commissioners approve and adopt the CWPP and invite all Advisory Group members present to sign the plan using the attached signature pages. REVIEWED BY: ark McCau County Administrat Da " JUNE 2024 LADRIS ?, 0,. JEFFERSON COUNTY Al 116,4,4ire"c COMMUNITY INF It.+110E Lit.PLAN ...., WILDFIRE , PROTECTION ...,...,,,k, . ,, ,.., . , ..., , r r , . a'y'± ..,,, Working together to build A fire adapted communities, -0 resilient to wildfire ' J @ if ....., , • . • ... . . . 11-1,...br# # . - :Alt: SWCA ENVIRONMENTAL CONSULTANTS We would like to formally thank the Advisory Group and all stakeholders, notably Jefferson County, all Fire Departments and Fire Protection Districts including Brinnon Fire Department, Clallam County Fire District No. 1 and 3, Discovery Bay Volunteer Fire &Rescue, East Jefferson Fire Rescue, Jefferson County Fire Protection District No. 7, Quilcene Fire Rescue, Jefferson Land Trust, Washington State Department of Natural Resources, the Hoh Indian Tribe, Quinault Indian Nation, Olympic Interagency Fire Management Zone, Jefferson Public Utility District, the City of Port Townsend, Olympic National Forest, Port Ludlow Village Council, and the U.S. Navy, for contributing their time and expertise throughout the planning process. Your participation in formulating this document will contribute to creating resilient landscapes, implementing public education, reducing structural ignitability, and ensuring safe and effective wildfire response. This plan was prepared by the following members of the SWCA team: Emily Geery, Vicky Amato, Lexi Roberts, Ryan Saggese, Liz Hitzfelder, Erica Jansen, and Christian Testerman. Funding for this project was provided by the Secure Rural Schools Act Title Ill. For additional information, questions, or concerns regarding this project, please contact Project Manager Emily Geery at egeerv@swca.com We would like to thank our partners who contributed to this project. Ladris Al developed the Evacuation Analysis. Jerry McAdams, MC Fire LLC, and Justice Jones, Wildfire Justice LLC, developed the Building Code Recommendations, Appendix I. In memory of Chris Goy, whose passion and leadership helped spark this project's beginning and will ensure its successful completion—serving as a lasting tribute to his beloved community and our surrounding forests. For all your planning and implementation needs, please visit www.swca.com. SWCA ENVIRONMENTAL CONSULTANTS DISCLAIMER The purpose of the risk assessment process described herein is solely to provide a community and landscape-level overview of general wildfire risks within County as of the date hereof, and to provide a potential resource for community pre-fire planning. This risk assessment process is premised on various assumptions and models which include and are based upon data, software tools, and other information provided by third parties (collectively, "Third-Party Information and Tools"). SWCA, Incorporated, doing business as SWCA Environmental Consultants ("SWCA") relied on various Third-Party Information and Tools in the preparation of this Plan and SWCA shall have no liability to any party in connection with this Plan including, without limitation, as a result of incomplete or inaccurate Third-Party Information and Tools used in the preparation hereof. SWCA hereby expressly disclaims any responsibility for the accuracy or reliability of the Third-Party Information and Tools relied upon by SWCA in preparing this Plan. SWCA shall have no liability for any damage, loss (including loss of life), injury, property damage, or other damages whatsoever arising from or in connection with the risk assessment products contained herein, including any person's use or reliance on the information contained in those risk assessment products. Any reproduction or dissemination of the risk assessment products or any portion hereof shall include the entirety of this Plan disclaimer. FORWARD Impacts to communities from wildfires are becoming increasingly common. In recent years, there have been many fires in western Washington resulting in evacuations and other impacts to local communities. It's crucial for the communities of Jefferson County, especially those in eastern Jefferson County, to be prepared for the impact of a wildfire. We live in a fire-prone area where wildfire has the potential to affect our health and safety, local economy, infrastructure, and environmental ecosystems. Understanding these impacts empowers the community to develop proactive measures and strategies to mitigate the risks. A community wildfire protection plan (CWPP) has multiple benefits to the community, including providing our eligibility to unlock federal and state funding sources for preparedness and mitigation efforts that would not be accessible otherwise. With the future of a state-adopted Wildland-Urban Interface Code uncertain, a CWPP also helps fill the void with recommendations for defensible space, fuels reduction, and other mitigation measures. Jefferson County has programs in place for flood damage prevention, earthquake preparedness, and other substantial events, and the addition of this CWPP is another tool to aid in community resiliency. A CWPP is a key element in increasing public awareness and education, as well as establishing strategies for a stronger, healthier, more resilient community. This effort is a proactive approach to prevention, preparedness and response, and can also help facilitate a robust recovery after a destructive event. Jefferson County is proud to introduce a multiyear effort with stakeholders from the community, service agencies, and social partners from across the region. —Jefferson County CWPP Advisory Group The entities listed below participated in the development of and/or reviewed and are in support of the Jefferson County ommunity Wildfire Protection Plan: 118/15 Kat n, Commissioner District No. 1 Date - 11/ 2- y Het i i , Commissioner District No ..�� Date/ l 1/il 19 Greg ro n, Commissioner Di 'ct/No. 3 Date 1-4,6,4. Mark McCaule •.unty Administrator Date fee/4, k iii,.,,,, , Bret Black, EFJR__Fire Chief D e c, —29/ att ogue, Building O ial, City of Port Townsend Date /,- 7/2 6/2 4 Georg?Geissler, WA State Forester Date Jai I ft51 , Jefferson County Conservation District Date ... -- -- 7/, /?L Cecere, J-•- on Cou ty Fire Marshal Date 111111111 ►_�, f 1 /2-624 David Fa.i T":"~ 1 o port Townsend Date , ' iii...A "?.......„ 7(1 (C)-(1 , Tim Mani', Brinni Fire Chief Date / / , /7/ 1 Erik Kingfis,Jefferson Land trust Date i d OF l = y United States Department of the Interior NATIONAL PARK SERVICE • NATIONAL PARK SERVICE apt cif 3�,e03 Olympic National Park 600 E.Park Avenue Port Angeles,WA 98362-6798 IN REPLY REFER TO: 7.0 (OLYM-RM) July 11, 2024 RECEIVED JUL 15 2024 Carolyn Gallaway, Clerk of the Board JEFFERSON COUNTY Jefferson County Commissioner's Office COMMISSIONERS P.O. Box 1220 Port Townsend, WA 98368 Dear Jefferson County: I am writing on behalf of Olympic National Park to provide a letter of fact for the Jefferson County Community Wildfire Protection Plan(CWPP). As stewards of natural resources and committed partners in fire management, we recognize the critical importance of collaborative efforts in mitigating wildfire risks and enhancing community resilience. Olympic National Park staff have been fully involved with the development of the CWPP developed by Jefferson County. This comprehensive plan aligns with our shared goals of safeguarding lives, property, and natural habitats from the increasing threat of wildfires in our region. By integrating strategies for prevention,preparedness,response, and recovery,the CWPP not only addresses immediate concerns but also fosters long-term sustainability and safety within the community. Our park has benefited significantly from cooperative fire management agreements and mutual aid efforts with neighboring jurisdictions. The Jefferson County CWPP exemplifies a proactive approach to wildfire management through community engagement, scientific research, and the implementation of best practices in fire prevention and suppression. We commend Jefferson County for its commitment to fostering a safer environment for residents, visitors, and the diverse ecosystems that define our shared landscape. The collaborative spirit demonstrated in the development of this plan reflects a dedication to proactive wildfire management that serves as a model for others in our region. Olympic National Park stands ready to support the implementation of the Jefferson County CWPP through continued collaboration, resource sharing, and joint training exercises. Together, we can strengthen our collective capacity to respond effectively to wildfire incidents and uphold our commitment to conservation and public safety. Please do not hesitate to contact me if you require any further information or if there are opportunities for further partnership in wildfire management. We look forward to working closely with Jefferson County and other stakeholders to ensure the successful implementation and ongoing refinement of this vital plan. Sincerely, ifu Sula Jacobs Superintendent • A a `* $ yt AR � ib- YA irk �' I ; ilAtCONTENTS Executive Summary ES-1 Chapter 1 — Introduction 1 1.1 Goal of a Community Wildfire Protection Plan 2 1.2 Plan Alignment with the National Cohesive Strategy 2 1.3 Advisory Group 4 1.4 Public Involvement 5 1.5 Planning Area Geography 6 1.5.1 Land Ownership 8 1.5.2 Roads and Transportation 8 1.5.3 Topography 10 1.5.4 Population 11 1.5.5 Social Vulnerability 11 1.5.6 Recreation 14 1.5.7 Vegetation and Land Cover 14 1.5.8 Forest Health Considerations 16 1.5.9 Wildlife 18 Chapter 2—Fire Environment 21 2.1 Wildland-Urban Interface 21 2.1.1 Wildland-Urban Interface Land Use 25 2.1.2 Fuels and Topography Within the Wildland-Urban Interface 25 2.2 Fire Regimes 27 2.2.1 Sitka Spruce 27 2.2.2 Douglas-Fir-Western Hemlock 28 2.2.3 Western Redcedar 29 2.2.4 Silver Fir-Mountain hemlock 29 2.2.5 Subalpine Fir 30 2.3 Climate and Weather Patterns 32 Page I i Jefferson County Community Wildfire Protection Plan SWCA 2.4 Fire History 35 2.4.1 Recent Fire Occurrence 36 2.5 Fire Response 43 2.5.1 Local Response 43 2.5.2 State Response 48 2.5.3 Federal Response 48 2.5.4 Mutual Aid 51 2.5.5 Emergency Notifications and Evacuation 52 2.5.6 Water Availability and Supply 54 Chapter 3—Wildland-Urban Interface Risk and Hazard 57 3.1 Purpose 57 3.2 Field Assessments 58 3.3 Composite Risk-Hazard Model Inputs 59 3.3.1 Fire Behavior Modeling Approach 59 3.3.2 Fire Behavior Modelling Platforms 61 3.3.3 Fire Behavior Model Inputs 61 3.3.4 Fire Behavior Model Outputs 64 3.4 Composite Risk-Hazard Model Results 67 3.5 Community Values 70 3.5.1 Natural Values 71 3.5.2 Socioeconomic Values 73 3.5.3 Cultural Values 74 Chapter 4— Mitigation Strategies 75 4.1 Goal 1: Restore and Maintain Landscapes 75 4.1.1 Recommendations for Hazardous Fuel Modification 76 4.2 Goal 2: Fire-Adapted Communities 95 4.2.1 Recommendations for Public Education and Outreach 95 4.2.2 Recommendations for Reducing Structural Ignitability 95 4.3 Goal 3: Wildfire Response 103 4.3.1 Recommendations for Improving Fire Response Capabilities 103 Chapter 5—Monitoring and Evaluation 111 5.1 Implementation 112 5.2 Plan Evaluation 112 5.3 Timeline for Updating the Plan 114 Abbreviations and Acronyms 115 Glossary 117 References 127 Page ii Jefferson County Community Wildfire Protection Plan SWCA APPENDICES Appendix A: Existing Regulations, Ordinances, and Programs Appendix B: Supporting Maps Appendix C: CWPP Field Assessments for Wildland-Urban Interface Communities Appendix D: Funding Sources and Programs Appendix E: Home Hardening and Fuel Treatment Methods Appendix F: Post-Fire Response and Restoration Appendix G: Community Survey Results Appendix H: Recommendations Appendix I: Building Code Recommendations Appendix J: Evacuation Analysis Appendix K: Evacuation Recommendations FIGURES Figure 1.1. The CWPP incorporates the three primary goals of the Cohesive Strategy with post- fire recovery to serve as holistic plan for fire prevention and resilience. 3 Figure 1.2. Jefferson County planning area. 7 Figure 1.3. Jefferson County land ownership 9 Figure 1.4. Mountainous, tree-covered landscape in Jefferson County where topography may contribute to more intense wildfire behavior 10 Figure 1.5. Lower-lying landscape in Jefferson County showing the contrast between topographic hazards 11 Figure 1.6. Disadvantaged communities in Jefferson County as designated by the Council of Environmental Quality, Esri. 13 Figure 1.7. Jefferson County existing vegetation cover. 15 Figure 2.1. WUI in Jefferson County. 23 Figure 2.2. Example of the WUI Intermix in Port Townsend. 24 Figure 2.3. Example of the WUI Intermix in Marrowstone Island 24 Figure 2.4. Fuels across Jefferson County. 26 Figure 2.5. Mean fire return intervals across Jefferson County. 31 Figure 2.6. Mean average temperature in Quilcene. 33 Figure 2.7. Average total precipitation in Chimacum. 34 Figure 2.8. Average total precipitation and mean average temperature in the Olympic Peninsula 34 Figure 2.9. Historic fire perimeters for Jefferson County from 1900 through 2022. 37 Figure 2.10. Fire incidents for Jefferson County from 1970 through 2023. 38 Figure 2.11. Fire occurrence density map illustrating fires per square mile. 39 Figure 2.12. Paradise Fire of 2015 burning in Queets Valley. 40 Figure 2.13. Decadal wildfire frequency in Jefferson County from 1900 through 2023. 41 Figure 2.14. Jefferson County fire size statistics per decade from 1900 through 2023 41 Figure 2.15. Jefferson County acres burned per decade from 1900 through 2023. 42 Figure 2.16. Jefferson County fire causes from 1920 through 2023 42 Figure 2.17. Jefferson County monthly fire frequency from 1900 through 2023 43 Figure 2.18. Mobilization flowchart for the region. 44 Page iii Jefferson County Community Wildfire Protection Plan SWCA Figure 2.19. Fire response zones and fire station locations. 45 Figure 3.1. Three primary modes of wildfire spread: 1) fire spread along the surface (e.g., grasses, shrubs) (Image A), 2) fire spread through the tree canopy (e.g., ladder fuels) (Image B), and 3) spotting (embers) (Image C). 60 Figure 3.2. Demonstration of the effect of topography and wind patterns on fire behavior. 65 Figure 3.3. Composite Risk-Hazard Model breakdown. 66 Figure 3.4. Composite Risk-Hazard Model overlay process 67 Figure 3.5. Composite Risk-Hazard Model for Jefferson County 69 Figure 3.6. Example of scenic viewsheds present within Jefferson County. 72 Figure 3.7. Example of a socioeconomic value: timber industry lands. Wildfire impact could result in the loss of valuable timber resources and disrupt the supply chain 73 Figure 3.8. An example of a cultural value, the National Register of Historic Places—listed Enchanted Valley Chalet. 74 Figure 4.1. Existing fuel treatments across all jurisdictions. 78 Figure 4.2. Areas of concern developed during the CWPP planning process within Jefferson County. 79 Figure 5.1. Plan evaluations steps for CWPPs. 113 TABLES Table 1.1. Advisory Group 4 Table 1.2. Land Ownership within Jefferson County 8 Table 1.3. Federally and State-Listed Threatened and Endangered Species that May Occur in Jefferson County 19 Table 3.1. Fuel Model Classification for the Jefferson County Planning Area 62 Table 3.2. Composite Risk-Hazard Model Inputs, Sources, and Weights 68 Table 4.1. Areas of Concern Recommendations 80 Table 4.2. Recommendations for Creating Resilient Landscapes (Hazardous Fuels Modification) 87 Table 4.3. Recommendations for Creating Fire-Adapted Communities (Public Education and Structural Ignitability) 97 Table 4.4. Recommendations for Safe, Effective, Risk-based Wildfire Response 105 Table 5.1. Recommended Monitoring Strategies 111 Page iv Jefferson County Community Wildfire Protection Plan SWCA EXECUTIVE SUMMARY WHAT IS THE PURPOSE OF THE JEFFERSON COUNTY COMMUNITY WILDFIRE PROTECTION PLAN? The purpose of the 2024 Jefferson County Community Wildfire Protection Plan (CWPP) update is to • provide a countywide scale of wildfire risk and protection needs, • bring together all responsible wildfire management and suppression entities in the planning area to address identified needs, and • provide a framework for future planning and implementation of necessary mitigation measures. This CWPP aims to assist in protecting human life and reducing property loss due to wildfire throughout the county. This 2024 Plan was compiled from reports, documents, and data, as Jefferson County's first CWPP. This CWPP has been developed in response to the federal Healthy Forests Restoration Act of 2003 (HFRA). The CWPP meets the requirements of the HFRA by addressing the following: • Having been developed collaboratively by multiple agencies at the state and local levels in consultation with federal agencies and other interested parties. • Prioritizing and identifying fuel modification treatments and recommending the types and methods of treatments to protect at-risk communities and pertinent infrastructure. • Suggesting multi-party mitigation, monitoring, and outreach. • Recommending measures and action items that residents and communities can take to reduce the ignitability of structures. • Soliciting input from the public on the draft CWPP. WHAT ARE THE KEY ISSUES ADDRESSED? Below are descriptions of the key issues addressed in this CWPP concerning fuels, fire response, and the development of fire-adapted communities. Fuels-Related Issues: • Map wildfire risk across the county and assess communities for structural ignitability and wildfire preparedness. • Recommend fuel treatments for land management agencies and homeowners to mitigate hazard and risk. Ensure that residents are not complacent regarding their wildfire risk. • Prioritize hazardous fuels reduction in the wildland-urban interface (WUI). • Raise awareness about the natural role that fire plays in ecosystems and maintaining resilient landscapes. Page ES-1 Jefferson County Community Wildfire Protection Plan SWCA • Use constant and consistent messaging for residents and visitors. • Address fuel loads on and adjacent to roadways. • Provide landscaping and defensible space guides to aid residents in making their homes and landscapes fire resilient. • Identify approaches and resources for educating tourists on the fire environment and their role in protecting resources. • Jefferson County offers excellent recreational opportunities, attracting numerous tourists, particularly during the summer months. Identify approaches and resources for educating tourists on the fire environment and their role in protecting resources, as well as establishing evacuation routes for recreationists. • Assess evacuation routes and notifications to identify opportunities for improvement and clarity in evacuation resources. • A large portion of the county is owned by timber companies emphasizing long-term production, maintaining multiple age classes, and replanting post-harvest. The CWPP should be implemented with a focus on reducing the impact of wildfire on valuable timber resources. Fire Response: • Invest in and support fire response at all levels. • Bolster fire response in rural areas, most notably on the west side of the county. People and Fire-Adapted Communities: • Conduct public education and outreach to homeowners to enable individuals to reduce the risk of fire to their properties, particularly with an emphasis on the importance of personal responsibility in rural areas as additional time is required for fire response to remote communities. • Manage fire to protect values and accomplish resource management goals, including protection and enhancement of wildlife habitat, water supply and quality, and mitigation against forest insect and disease outbreaks. • Plan for future fire risk with attention to climate change and its effects on vegetation and the wildland fire environment. • Address community concerns and vulnerable locations. • Collaboratively plan fuels treatment projects and address mitigation actions across jurisdictions and with multiple agencies. • Implement special consideration and planning for socially vulnerable populations. HOW IS THE PLAN ORGANIZED? The CWPP provides a risk assessment, action items, project recommendations, and background information about Jefferson County's wildland fire environment as well as land management plans and agencies. Most of the background information is housed in several appendices. Chapter 1 provides a general overview of the CWPP; information on the Advisory Group, planning area, land ownership, and public involvement; and background information on planning area components such as transportation routes, population, and vegetation and ecology. Page ES-2 Jefferson County Community Wildfire Protection Plan SWCA Chapter 2 includes an overview of the fire environment in the county and response resources. WUI conditions are discussed along with broader county fire regimes, climate patterns, and past fire events in the county. Chapter 3 describes the field assessment, Composite Risk-Hazard Model data inputs, and valued community resources. Chapter 4 provides mitigation strategies in accordance with the National Cohesive Wildland Fire Management Strategy goals of restoring and maintaining landscapes, fostering fire-adapted communities, and safe and effective wildfire response. Each Cohesive Strategy goal includes recommendations for the county to improve on these goals. Chapter 5 presents monitoring strategies to assist in tracking project progress and in evaluating work accomplished. Appendix A discusses ordinances, legislation, and land management strategies that dictate fire mitigation and response approaches. This section is broken out into local, state, federal, and tribal directives and includes information on previous planning efforts. Appendix B presents additional supporting maps related to fuels and the Composite Risk-Hazard Assessment. Appendix C includes community-specific information from the field assessments including community maps, the rating given to each community, and key observations. Appendix D lists funding sources and programs at the federal, state, and private level. A short description of each program and a link to the program's website is also included. Appendix E provides home hardening and fuels treatment methods for homeowners and land managers. Descriptions of multiple fuel treatment methods, landscaping, and planning considerations are included. • Insurance Institute for Business and Home Safety (IBHS) Wildfire Prepared Home: https://wildfireprepared.org/ • National Fire Protection Association (NFPA) Preparing Homes for Wildfire: https://www.nfpa.orq/Education-and-Research/Wildfire/Preparing-homes-for-wildfire • Fire-Resistant Plants for Home Landscaping: https://cataloq.extension.oregonstate.edu/sites/cataloq/files/project/pdf/pnw590.pdf • Bainbridge Island Fire-Resistant Landscaping Guide: https://www.bifd.orq/pdfs/Fire- Resistant%20Landscapinq.pdf Appendix F discusses post-fire response and rehabilitation methods and resources. This chapter includes homeowner recovery discussions such as insurance and community safety and support resources as well as larger-scale recovery including timber salvage and erosion prevention measures. Appendix G presents results from the community survey that was available during the planning process. The survey included questions on at-risk areas, community perception, and methods of improving preparedness. Appendix H includes recommendation matrices aligned with the National Cohesive Wildland Fire Management Strategy. Appendix I lists recommendations for building code and WUI code changes that could reduce structural ignitability and urban conflagration. Page ES-3 Jefferson County Community Wildfire Protection Plan SWCA Appendix J provides recommendations for improving evacuation including additional resource and notification needs and evacuation route mapping and definition. WHAT IS THE GOAL OF A CWPP? The goal of a CWPP is to enable local communities to improve their capacity to reduce the risk of wildfire while working with government agencies to identify high-fire-risk areas and prioritize areas for mitigation, fire suppression, and emergency preparedness, and to enhance public awareness by helping residents better understand the natural and human-caused risks of wildfires that threaten lives, safety, and the local economy. The minimum requirements for a CWPP, as stated in the HFRA, are: Collaboration: A CWPP must be collaboratively developed by local and state government representatives, in consultation with federal agencies or other interested parties. Prioritized Fuel Reduction: A CWPP must identify and prioritize areas for hazardous fuel modification and recommend the types and methods of treatment that will protect one or more at-risk communities and their essential infrastructure. Treatments of Structural Ignitability: A CWPP must recommend measures that homeowners and communities can take to reduce the ignitability of structures throughout the area addressed by the plan. HOW WAS THE JEFFERSON COUNTY CWPP DEVELOPED? The CWPP update was developed collaboratively by a broad group of land and emergency managers and other key stakeholders in Jefferson County. The planning process was initiated in 2023 and was finalized and signed in 2024. To initiate the planning process, a diverse Advisory Group was developed consisting of representatives from Jefferson County, municipalities, tribal nations, Jefferson Conservation District, Olympic National Park, and Olympic National Forest. The development of the Plan relied heavily on modeling and mapping wildfire hazards and, through comprehensive field assessments, identifying landscape and physical characteristics that impact the threat of wildfire to communities. This analysis aided the Advisory Group in prioritizing treatment recommendations to reduce wildfire risk. Community engagement also played a large role in plan development as county residents and community members were encouraged to provide feedback through a public survey. Additional information on the role of the key stakeholders and the public is included in Chapter 1. WHO PARTICIPATED IN DEVELOPING THE PLAN? The Jefferson County administrators invited engagement from local and regional government agencies, as well as county residents, in the development of the Jefferson County CWPP. This group, along with some additional community and organization representatives, served as the Advisory Group for this CWPP update and drove the decision-making process. Several Advisory Group members have experience working together in fire management for the county and have contributed their expertise to this CWPP. The project was kicked off on May 18, 2023; the Advisory Group met for the first time on June 21, 2023, convened again on September 22, 2023, met for the third time on January 23, 2024, and met for the final time April 23, 2024. Page ES-4 Jefferson County Community Wildfire Protection Plan SWCA WHERE IS THE PLANNING AREA? The planning area includes the entirety of Jefferson County, Washington, as delineated by its geographic and political boundaries. The project boundary encompasses all communities that are included in the county. Page ES-5 O Z Z H (a NI v � )t Z U UO C O p , E Q m _0— S e = r /3 Kti Ou - O O cm <p ° , =a c4 „ ea rn m ` e ; usN _ 2 '- 2ind ` r O ^ c6 0 . T. v 4J C •• a* -o 4o e•; c• ea Q o c 'AM 0 u J g CD �; .4n a O F w - O w r a ti m ,3 �� :k• at vJ4' " s $ �,. a o 'y, r, _ C CL _ � Apo r 2 , It,MI:\44'''' . ..„'4,07. C > 3 o I Jefferson County Community Wildfire Protection Plan SWCA HOW WAS THE PUBLIC ENGAGED? Every effort was made to include a broad cross section of residents living in the county in the outreach process. All county residents were welcomed and encouraged to participate in the community events. Moreover, all county residents were provided multiple opportunities to provide input, such as the community survey and public comment period for the draft Plan review. • SWCA conducted a community survey that received over 800 responses. o A summary of the community responses is available in Appendix G. • Diverse outreach efforts included: o Social media o Radio interviews o Email distributions o In-person activities • Engaged the community at the Quilcene Fair and Parade (approximately 300 attendees) and the Chimacum Farmers' Market(approximately 100 attendees). • Stakeholder interviews were conducted with the following, with quotes included in the CWPP: o Jefferson Land Trust o Rayonier o Jefferson County Sheriff's Office o Olympic Interagency Fire Management Zone • Public education and outreach is a shared priority among relevant agencies; recommendations for future engagement are provided in Chapter 4. WHAT IS THE CURRENT WILDFIRE SITUATION? The topography and vegetation of the county is diverse, consisting of rolling hills, coastlands, mountainous terrain, and river valleys that are heavily vegetated. A large portion of the county is within a coastal rainforest. The portion of the county east of Mount Olympus falls within a rain shadow and is significantly drier than the rest of the county and receives a fraction of the precipitation western portions receive. Fire return intervals in the county vary, with the mean return fire interval ranging from 100 to 300 years. The eastern portion of the county experiences a return interval of close to 50 years. Fires have become more frequent across the county over the last 100 years as fuel loads grow, climate change impacts average temperatures and precipitation, and urban development pushes further into forested areas. Diseases and insect infestations have impacted forest health and have increased fuel loads by killing trees or reducing their resilience to low-intensity fires. These include pine and fir beetles, blister rust, and root rot. Drought and declining groundwater levels also play a significant role in forest health as prolonged drought kills or weakens trees by reducing water availability. Increasing human demands on groundwater, especially during severe droughts, may contribute to declining groundwater levels in certain areas, impacting water access and the health of vegetation. Reduced precipitation, lowered snowpack, and higher rates of evapotranspiration all influence drought conditions, which impact forest resilience to wildfire. A major concern is fuel loading due to concentrated die-off and understory litter. As the regional Page ES-7 Jefferson County Community Wildfire Protection Plan SWCA climate becomes more variable, a region that typically experiences consistent water availability will experience higher rates of tree mortality, which results in a standing, dead and dense, dry understory. Additionally, as the population of the county grows, so does development in forested areas which can lead to increased human ignitions in already weakened forest stands. The eastern portion of the county is the most heavily developed, which coincides with forests with more frequent expected wildfire events. Additional activity and fuels in these forested areas creates high-risk conditions for WUI wildfire events. Since 1970, the highest number of fire occurrences has been in the eastern part of the county, including near Port Townsend, Chimacum, Quilcene, and Brinnon. Most fires throughout the county have been caused by human ignitions such as fireworks, cigarettes, outdoor burning, and equipment or vehicle ignitions. The loss per fire incident has been highest with debris fires such as slash burning. Naturally occurring fires also play a significant role in fire occurrences in the county, primarily lightning ignitions. This is especially true in the western portion of the county. In spite of the many known causes of ignition, many fires within the county still have undetermined ignition sources. Natural ignitions are also fairly common, especially in the Olympic National Park and Forest. In 2023, the Delabarre Fire began with a series of lightning strikes and burned a total of 4,795 acres. Generally, the county averages 5 to 10 acres of wildland fire annually. WHAT RECENT FIRES OCCURRED HERE? In the last 10 years, multiple large fires have occurred in the county, including the 2015 Paradise Fire (2,798 acres), the 2016 Hayes Fire (2,389 acres), and the 2023 Delabarre Fire (4,795 acres). The most recent fires have occurred mostly within Olympic National Park. The fire season in the county generally spans from the end of June through the end of September. In recent years, the season has extended further into October as dry, warm conditions linger. Reoccurring dry conditions and wildland encroachment have resulted in a regular brush fire season that has required rapid response from local fire departments to limit impacts. This is a departure from the expected fire occurrences according to historical data and fire regimes. WHAT IS THE PURPOSE OF THE COMPOSITE RISK- HAZARD ASSESSMENT? The Composite Risk-Hazard Model for the CWPP is twofold, including a desktop spatial model of risk and hazard based on fire behavior and fuels modeling (Chapter 3). The purpose of this model is to provide information about wildfire hazard and risk to highly valued resources and assets (HVRAs) for Jefferson County. The Composite Risk-Hazard Model considers: • Likelihood of fire burning • Intensity of a fire • Exposure of assets and resources based on their locations • Susceptibility of those assets and resources to wildfire Page ES-8 Jefferson County Community Wildfire Protection Plan SWCA Based on the Composite Risk-Hazard Model, some of the highest risk areas identified in the planning area are communities located along the eastern portion of the county, with extreme risk areas particularly concentrated along the Puget lowlands on the eastern coast in the communities of Port Townsend, Irondale, Port Hadlock, Chimacum, and Quilcene due to the associated exposure of assets. WHAT IS THE PURPOSE OF THE FIELD ASSESSMENTS? Field assessments describing risk and hazard rankings for communities located in the WUI, throughout the county, are provided in this Plan and described in detail in Appendix C. A team from SWCA Environmental Consultants conducted field assessments throughout the county in September 2023, using the National Fire Protection Association (NFPA) 1144 standard for assessing structure ignitability in the WUI. Using this standard provided a consistent process for assessing wildland fire hazards around existing structures to determine the potential for structure ignition from wildland fire ignitions. The assessments provide a total score of risk and hazard based on various parameters observed during the surveys, and a corresponding rating of low, moderate, or high are available in Appendix C. These field assessments are used in conjunction with the Composite Risk-Hazard Model described above to inform the development of wildfire mitigation recommendations. WHAT IS THE DIFFERENCE BETWEEN THE COMPOSITE RISK-HAZARD MODEL AND A FIELD ASSESSMENT? The key differences between the Composite Risk-Hazard Model discussed in Chapter 3 and the on-site field assessments presented in Appendix C lie in their approaches and focus areas. Composite Risk-Hazard Models analyze potential wildfire behavior by considering the interplay of fuels, topography, and weather using established fire behavior models like FARSITE, FSim, FlamMap, BehavePlus, and FireFamily Plus, along with ArcGIS Desktop Spatial Analyst tools. These models rely heavily on data obtained from national sources like LANDFIRE to evaluate fire behavior and determine treatment strategies and priorities in the WUI, and are focused on a countywide scale, which may present generalization issues when examining discrete locations in urban areas. These are the best available data sources for modeling fire behavior, but use coarse scale inputs (30-meter resolution) and therefore may not identify nuances on the ground. It is important to note that, unlike the Composite Risk-Hazard Model, the purpose of the WA-WUI map is to show where people and property are located relative to wildland vegetation; the WA-WUI map should not be confused with a wildfire risk map. The WA-WUI map was designed as a tool to help municipalities design or update WUI codes or building codes but not assess wildfire risk or hazard. Field Assessments (described in Appendix C), conducted using the NFPA Structure Ignition Form 1144, concentrate on structure hazards observed across communities. These assessments, conducted by trained personnel with support from local authorities, involve direct observation of community conditions, including access, vegetation, defensible space, topography, building characteristics, fire protection availability, and utility placement, resulting in ratings of low, moderate, high, or extreme risk. It is important to note that the risk/hazard map in Chapter 3 does not integrate findings from the field assessments since Page ES-9 Jefferson County Community Wildfire Protection Plan SWCA each methodology is focused on different parameters (wild land fuels versus structure types) and completed at a different scale (countywide versus community). Due to the differing focus and resolutions associated with these two methodologies, there may be deviations between the resulting risk rating outputs. Though important to note, this is expected when analyzing wildfire risk and hazard across scales. It is important to note that the Composite Risk-Hazard Model in Chapter 3 does not integrate findings from the field assessments since each methodology is focused on very different parameters (wildland fuels versus structure types) and completed at a different scale (countywide versus community). WHAT ARE THE STRATEGIES TO ADDRESS WILDFIRE CONCERNS? Goal 1 of the Cohesive Strategy and the Western Regional Action Plan is Restore and Maintain Landscapes: Landscapes across all jurisdictions are resilient to fire and other disturbances in accordance with management objectives. Recommendations for hazardous fuels treatments include: • Allocate resources for fuels management on county, state, and U.S. Forest Service (USFS) roads and rights-of-way. • Utilize the risk and hazard analysis to identify specific areas in need of vegetation and brush removal. • Address fuels treatment in moderate, high, and extreme risk areas, and promote equity in fire mitigation efforts. Goal 2 of the Cohesive Strategy/Western Regional Action Plan is: Fire-Adapted Communities: Human populations and infrastructure can withstand wildfire without loss of life and property. Recommendations for public outreach and education include: • Implement a comprehensive and standardized countywide public education program. • Create demonstration sites for healthy forests and defensible space. • Coordinate city and county codes. • Ensure residents understand their role and responsibility in wildfire risk reduction. Goal 3 of the Cohesive Strategy/Western Regional Action Plan is Wildfire Response: All jurisdictions participate in making and implementing safe, effective, efficient risk-based wildfire management decisions. Some of the high-priority recommendations for wildfire response that the Advisory Group developed include: • Prioritize a strategy to secure funding for wildland firefighting equipment, especially water tenders. • Conduct a comprehensive review and redesign standards for new subdivisions with a focus on wildfire safety. • Increase access for fire response. Page ES-10 Jefferson County Community Wildfire Protection Plan SWCA WHAT DOES POST-FIRE RESPONSE AND RECOVERY INVOLVE? There are many aspects to post-fire response recovery, including but not limited to: • Returning home and checking for hazards • Coordinating and mobilizing a group of teams in the community to respond to emergencies • Rebuilding communities and assessing economic needs—securing the financial resources necessary for communities to rebuild homes, business, and infrastructure • Restoring the damaged landscape—restoration of watersheds, soil stabilization, and tree planting • Prioritizing the needs of vulnerable and disadvantaged communities during response and disaster recovery efforts • Evaluating and updating disaster recovery plans every 5 years to respond to changing needs and characteristics of the community • Coordinating with planning, housing, health, and human services, and other local, regional, or state agencies to develop contingency plans for meeting the short-term, temporary housing needs of those displaced during a catastrophic wildfire event HOW WILL THE PLAN BE IMPLEMENTED? The CWPP does not require implementation of any of the recommendations, but the message throughout this document is that the greatest fire mitigation could be achieved through the joint actions of individual homeowners, tribes, and local, state, and federal governments. This CWPP creates a navigable foundation for the County to plan, develop, and execute strategies to mitigate and manage wildfire. This CWPP encourages agencies, organizations, and the public to see wildfire-related projects to completion. It is recommended that the Advisory Group or newly formed Fire Safe Council, (developed as a recommendation during this planning process) serve as a guiding entity for the agencies within the County and remain an integral part of the planning process for future development and implementation of the Plan. This Plan is a living document and should be regularly reviewed and updated as conditions change. The recommendations for fuels reduction projects are general in nature; site-specific planning that addresses location, access, land ownership, topography, soils, and fuels would need to be employed upon implementation. Also, it is important to note that the recommendations are specific to WUI areas and are expected to reduce the loss of life and property. In addition, implementation of fuels reduction projects need to be tailored to the specific project and will be unique to the location depending on available resources and regulations. In an effort to streamline project implementation, this CWPP has identified the pertinent land management/ownership agencies associated with each recommendation. On-the-ground implementation of the recommendations in the CWPP planning area will require development of an action plan and assessment strategy for completing each project. Additionally, a partnership with Washington State Department of Natural Resources (WA DNR) at the operational level will be required to complete many of the suggested projects. Many high-priority projects suggested in this Plan will affect State lands directly within WA DNR jurisdiction or areas where they have suppression responsibilities. Page ES-11 Jefferson County Community Wildfire Protection Plan SWCA WHEN DOES THE CWPP NEED TO BE UPDATED? The CWPP should be treated as a live document, and projects should be updated annually or immediately following a significant fire event. A comprehensive Plan update should occur every 5 years. The Plan should continue to be revised to reflect changes, modifications, or new information as it becomes available. This may include new data to reflect risk, hazard, and delineation of WUI areas. These datasets evolve as new technology, scientific methods, and risk management approaches are developed across the region. Integrating these elements into mitigation planning are essential to the success of mitigating wildfire risk throughout the county and will be critical in guiding and maintaining the ideas and priorities of the Plan and the communities in the future. ACKNOWLEDGEMENTS Thank you to the Advisory Group and all stakeholders who participated in the planning process, gave their time, and shared their expertise. These contributions lead to creating resilient landscapes, implementing public education, reducing structural ignitability, and ensuring safe and effective wildfire response. Funding for this project was provided by the Secure Rural Schools Act Title Ill. Page ES-12 CHAPTER 1 - INTRODUCTION The United States is facing urgent forest and watershed health concerns. In the last decade years, the 2020 fire season had the most acreage impacted in a single year at 10.1 million acres nationally, and 2018 was the second highest with 8.8 million acres (Congressional Research Service 2023). In addition, Washington state is experiencing an increase in drought conditions, and in 2024 the Washington State Department of Ecology (2024) declared a drought emergency for the state. These statistics demonstrate that wildfires and concerns for watershed health are becoming larger and increasingly impactful. As wildfire severity increases, communities need a plan to help prepare for, reduce the risk of, and adapt to wildfire The responsibility for events. Community wildfire protection plans (CWPPs) help accomplish these goals. A CWPP provides implementing wildfire recommendations that are intended to reduce, but not mitigation treatments lies eliminate, the extreme severity or risk of wildfire. This at the discretion of the CWPP document will be referred to as the Plan. landowner. The development of the Plan is rooted in meaningful collaboration among many stakeholders, including local, state, federal, and tribal officials. The Plan ultimately identifies existing wildfire hazard and risk throughout Jefferson County and provides recommended actions to mitigate those hazards and risk utilizing relevant science and literature from the western region of the United States. The Plan reviews, verifies, and/or identifies potential new priority areas where mitigation measures are needed to protect the life, property, and critical infrastructure in the county from wildfire. This Plan does not attempt to mandate the type and priority for treatment projects that will be carried out by the land management agencies and private landowners. The Plan will only identify potential treatments and a suggested priority for these projects. Page 1 Table of Contents i Plan C^ Jefferson County Community Wildfire Protection a SWI.A 1 . 1 GOAL OF A COMMUNITY WILDFIRE PROTECTION PLAN The goal of a CWPP is to enable local communities to improve their capacity to reduce the risk of wildfire while working with government agencies to identify high-fire-risk areas and prioritize areas for mitigation, fire suppression, and emergency preparedness, and to enhance public awareness by helping residents better understand the natural and human-caused risks of wildfires that threaten lives, safety, and the local economy. The minimum requirements for a CWPP, as stated in the Healthy Forests Restoration Act of 2003 (HFRA), are: • Collaboration: A CWPP must be collaboratively developed by local and state government representatives, in consultation with federal agencies or other interested parties. • Prioritized Fuel Reduction: A CWPP must identify and prioritize areas for hazardous fuel modification treatments and recommend the types and methods of treatment that will protect one or more at-risk communities and their essential infrastructure. • Treatments of Structural Ignitability: A CWPP must recommend measures that homeowners and communities can take to reduce the ignitability of structures throughout the area addressed by the plan. The Advisory Group established the following overarching goals for the Plan: • Improve wildfire resilience and adaptation of the county. • Develop actions to mitigate risks to human health and safety. • Develop a CWPP with broad public and stakeholder input and support. • Develop a CWPP that will serve as a source and guide for accessing grant opportunities and funding. • Implement a process to quantify improvements in community resiliency over time and track planned and completed projects and community outreach success. Additional information on the planning process is available in Appendix A. 1 .2 PLAN ALIGNMENT WITH THE NATIONAL COHESIVE STRATEGY The 2024 CWPP is aligned with the Cohesive Strategy and its Phase III Western Regional Action Plan by adhering to the nationwide goal "to safely and effectively extinguish fire, when needed; use fire where allowable; manage our natural resources; and collectively, learn to live with wildland fire." The primary, national goals identified as necessary to achieving the vision are: • Resilient Landscapes—Landscapes, regardless of jurisdictional boundaries are resilient to fire, insect, disease, invasive species and climate change disturbances, in accordance with management objectives. Page 2 Table of Contents Jefferson County Community Wildfire Protection Plan SPCA • Fire-Adapted Communities— Human populations and infrastructure are as prepared as possible to receive, respond to, and recover from wildland fire. • Safe, Effective, Risk-based Wildfire Response—All jurisdictions participate in making and implementing safe, effective, efficient risk-based wildfire management decisions. For more information on the Cohesive Strategy, please visit: https://www.forestsandrangelands.gov/strategy/index.shtml Alignment with these Cohesive Strategy goals is described in more detail in Chapter 4, Mitigation Strategies. In addition to aligning with the Cohesive Strategy, the CWPP also incorporates information on post-fire recovery, the significant hazards of a post-fire environment, and the risk that post-fire effects pose to communities (Figure 1.1) Fire Adapted Communities offoltroduto ate ms p $# rL r �o Safe, SCIENCE Effective, Risk-based = de Wildfire Response Lantivtiposof jun bounttattto � usetestitetttlto£ae,mow, Ali d .mvastve SpteftS ani% come*dump dtstofttooe • , mato a wth x".r,; .' .. to mos �rr . LLL_ fSreNT+ TIMELY COMM6\g' - Figure 1.1. The CWPP incorporates the three primary goals of the Cohesive Strategy with post-fire recovery to serve as holistic plan for fire prevention and resilience. Page 3 of Jefferson County Community Wildfire Protection Plan SWCA 1 .3 ADVISORY GROUP The Jefferson County administrators invited engagement from local and regional government agencies in the development of the Jefferson County CWPP. Stakeholder involvement is critical in producing a meaningful document that includes all collaborators' diverse perspectives. The project was kicked off on May 18, 2023; the Advisory Group met for the first time on June 21, 2023, convened again on September 22, 2023, met for the third time on January 23, 2024, and met for the final time April 23, 2024. Members of the Advisory Group are listed below. Table 1.1.Advisory Group Name Organization Heidi Eisenhour Jefferson County Mark McCauley Jefferson County Chris Goy Jefferson County Wendy Davis Jefferson County Bret Black East Jefferson Fire and Rescue Greg Brotherton Jefferson County Phil Cecere Jefferson County Willie Bence Jefferson County Joe Holtrop Jefferson County Conservation District Erik Kingfisher Jefferson Land Trust Malloree Weinheimer Consultant to Jefferson County Randy Edwards Port Ludlow Village Council Matt Logue City of Port Townsend Steve King City of Port Townsend Emma Bolin City of Port Townsend Eric Flanigan Washington State Department of Natural Resources, Olympic Region Susan Beall Olympic National Forest Alfred Watson Olympic National Forest Bob Smith Hoh Indian Tribe Travis Peek Quinault Indian Nation Jerald Weaver Olympic National Park, Wildland Fire Program George Calbert Naval Magazine Indian Island Tim Manly Brinnon Fire Department/East Jefferson County Fire Chiefs Association Robert Wittenberg East Jefferson Fire and Rescue Pete Brummel East Jefferson Fire and Rescue Brian Tracer East Jefferson Fire and Rescue Michael Becker Washington State Department of Natural Resources, Olympic Region Page 4 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA Name Organization Krystle Schnepf Olympic National Forest Timothy Callister U.S. Navy- NAV MAG Indian Island Josh Peters Jefferson County Ty Crowe Olympic Interagency Fire Management Zone Jennifer Coe Washington State Department of Natural Resources Don Svetich Quilcene Fire Rescue Kevin Streett Jefferson Public Utility District Dan Toepper Jefferson Public Utility District Jeff Bortner Olympic Interagency Fire Management Zone Victoria Amato SWCA Environmental Consultants Emily Geery SWCA Environmental Consultants 1 .4 PUBLIC INVOLVEMENT A key element in the CWPP process is the meaningful discussions it generates among community members regarding their priorities for local fire protection and forest management (Society of American Foresters 2004). SWCA Environmental Consultants (SWCA) released a community survey to the public and received over 800 responses. SWCA hosted booths at the Quilcene Fair and Parade on September 16, 2023, and the Chimacum Farmers' Market on September 17, 2023, to advertise the community survey and gather community input. Both local events drew a large crowd, approximately 300 people at the Quilcene Fair and Parade and approximately 100 people at the Chimacum Farmers' Market, providing the opportunity to engage a range of diverse stakeholders within the community. A summary of the community responses and input is provided in Appendix G. Additionally, SWCA conducted stakeholder interviews with following organizations: • Jefferson Land Trust • Rayonier • Jefferson County Sheriff's Office • Olympic Interagency Fire Management Zone SWCA has included quotes from the stakeholder interviews throughout the CWPP. The draft Plan and project recommendations were made available for public review from May 1, 2024, through May 15, 2024. Every effort was made to include a broad cross section of the county in the outreach process, and different communication channels, including social media postings, radio interviews, email distributions, and in-person activities, were used to engage as many members of the public as possible. All county residents were welcomed and encouraged to participate in the community events. Moreover, all county residents were provided multiple opportunities to provide input, such as the community survey and Plan document and project recommendations review. Recommendations for future community engagement and outreach are provided in Chapter 4. Page 5 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA Education and outreach programs targeting the public are a shared priority among various agencies and organizations working on wildfire-related issues. 1 .5 PLANNING AREA GEOGRAPHY The following sections provide context for the remainder of the Plan by describing the baseline conditions throughout the county. The planning area includes the entirety of Jefferson County as delineated by its geographic and political boundaries (Figure 1.2). Jefferson County is located within the Olympic Peninsula of northwestern Washington state, reaching from the western shore of the Pacific Ocean to the eastern shore of the Puget Sound. It encompasses an area of 2,185 square miles. In total, 379 square miles are covered by water(Jefferson County Parks and Recreation 2022). Port Townsend is the only incorporated municipality in Jefferson County. Jefferson County is bordered by Clallam, Gray's Harbor, Mason, Kitsap, and Island Counties. Page 6 Table of Contents us hi as Jfi as Es rgo uo —A e cf E £ •c r o - oc � t o o ma, m c Q za a c m m m a0 o gm I zQ _ ix Ko 2,LLo i I 00 er) � 0 Q - - - _ v 0 fit : ar N a] o ell 4 • vs__0 •o .•` El G O U - oE u_• 1 U I' �" c r ,, O c a - p l N. a d Oa. 6 erti t- J. $ F ..s. 4$4 - r CU 3 { kT: K ,' V c v , _,., _ c c ea �i{ w rp , 4 oA_a > �/ riv , c ty, ,,.•' ' jam/ 0 Ce V N 4 > 0 N C L r^" s r cu e- V h V eV N = a) O) m LI_ ei Jefferson County Community Wildfire Protection Plan S Y Y CA 1 .5.1 LAND OWNERSHIP Jefferson County possesses a relatively diverse range of federal, state, local, private, and other land ownership. National parks account for the largest share at 46.4%, followed by private land at 18.9%, and state-owned land at 17.2%. A large portion of the county is privately owned and managed by timber companies. Most privately held timber land is managed for long-term production with multiple age classes retained and replanting occurring following harvest. National forests cover 14.8% of the total land, with smaller percentages allocated to categories such as Native American reservations, Jefferson Land Trust, Bureau of Land Management(BLM), Bureau of Indian Affairs (BIA), National Fish Hatchery, U.S. Fish and Wildlife Service (USFWS), and undetermined ownership, each representing a relatively small portion of the total land area (less than 1%) (Table 1.2; Figure 1.3). Table 1.2. Land Ownership within Jefferson County Acres Percent National Park 538,168.5 46.4% Private 219,320.2 18.9% State 199,299.5 17.2% National Forest 171,195.7 14.8% The Nature Conservancy 16,175.0 1.4% American Indian Reservation 7,806.2 0.7% Jefferson Land Trust 4,505.4 0.4% U.S. Forest Service 941.8 0.1% Jefferson Land Trust Protected Land 854.3 0.1 National Park Service 373.6 <0.0% BLM 74.6 <0.0% BIA 74.5 <0.0% National Fish Hatchery 45.0 <0.0% USFWS <0.0% <0.0% *Undetermined land ownership refers to areas falling on water or other features where ownership may lack a clear designation. 1 .5.2 ROADS AND TRANSPORTATION Few transportation routes transect and connect the entire county. The Olympic Mountains separate the west end of the county from the east, making direct travel impossible (Jefferson County Department of Emergency Management[Jefferson County DEM]2016). The primary route across the county's expanse is U.S. Highway 101, which stretches for around 100 miles up through Clallam County to the north of Jefferson County (Jefferson County DEM 2016). State highways include State Routes 19, 20, 104, and 116, all of which are in the eastern portion of the county (see Figure 1.3). In addition to the surfaced highways, smaller rural and residential roads traverse the county, with variable road conditions. Some steep grades and gravel road surfaces may impede travel in the event of a wildfire evacuation or emergency response. Page 8 Table of Contents ozz W , a <• E ' cam ,1r N Viiii N2Y V • ' , ASI— NC ¢Z N d v mm m m c o U cn �itiler O 0vz d mama pm �- ` a °O nz o V /W c 05 aoo > � N ` s O vO ,C Kme >, LL0 it c y -, O naN HO O L C c a d N N 2 > Q Q2 m m tO I— c N r, @O V, c 3 ' 2 W OW U = aU mm Z a_ (n O acW = O 4 z Z o 0 II LLLL ( I J m C ti.! CD r S x i- U ` N .r _ a. :t Y O II O °• C �..:' a • f] O y a • a 0 13 c. ', C = U u c — o p� r a. 0 3, _.- oTh.E °D — m a1 t_ z E _ E o U i° o c o U v c C ' o — 4 a.) is l r I Cli tj d , C I O O R `a C I U c O i L .F 11 CD tf M d CO i LL C .. . Jefferson County Community Wildfire Protection Plan SWCA 1 .5.3 TOPOGRAPHY The county includes three distinct geographical areas. The west end includes a 30-mile coastline across along the Pacific Ocean, the central region includes the Olympic Mountains (including Olympic National Park and Mount Olympus, the county's highest point at 7,965 feet above sea level), and the eastern portion includes the Puget lowlands (Figures 1.4 and 1.5) (Jefferson County DEM 2016; Jefferson County Parks and Recreation 2022). The Puget lowlands include shoreline and rich valleys that lead into the foothills of the central Olympic Mountains region (Jefferson County DEM 2016). The central Olympic Mountains divide the eastern and western portions of the county and contain mountains up to nearly 8,000 feet. The west end includes beaches and rocky coastline surrounded by a mountainous barrier. The valleys of large rivers within this region traverse from the central mountains to the western beaches (Jefferson County DEM 2016). Jefferson County is drained by nine major rivers and four major creeks that flow west into the Pacific Ocean, north into the Strait of Juan de Fuca, and east into Admiralty Inlet and Hood Canal (Jefferson County Parks and Recreation 2022). t ate .,.gin . ,11,,,,,velitti.,71,..,,,o, ..„,„,j, . e.. . ,.. f '4 � a"4 { }� i ,j e , }+-t3, Figure 1.4. Mountainous, tree-covered landscape in Jefferson County where topography may contribute to more intense wildfire behavior. Page 10 . Jefferson County Community Wildfire Protection Plan SWCA - Figure 1.5. Lower-lying landscape in Jefferson County showing the contrast between topographic hazards. 1 .5.4 POPULATION According to the 2022 U.S. Census, the population estimate of Jefferson County was 33,589 persons, an increase of 1.9% over the 2020 census numbers of 32,977 (U.S. Census Bureau 2022a). Over the last few decades, Jefferson County has been one of the fastest growing counties in the state, seeing a population increase of 27.2% between 1990 and 2000 (Jefferson County DEM 2016). In 2022, there were 19,569 households in the county. In 2020, the population density was 18.3 people per square mile (U.S. Census Bureau 2022b). One-third of the total population of the county (approximately 10,388 individuals as of 2020) live in Port Townsend, a 2.3% increase from 2020 (U.S. Census Bureau 2022b). The median resident age is 59.5 years, compared with the statewide median of 38.5 years, and there is a steady increase of older adults within the county (Jefferson County Parks and Recreation 2022). During the summer months, which coincide with the county's tourist season, the population within western Jefferson County increases from approximately 900 to 10,000 people (Jefferson County DEM 2016). The population of Port Townsend also nearly doubles, and tourism is an increasingly prevalent part of Jefferson County's communities (Jefferson County DEM 2016). In addition, many "unplanned" communities are now becoming permanent year-round housing, such as mobile homes converted to permanent residences (Jefferson County DEM 2016). 1 .5.5 SOCIAL VULNERABILITY The Federal Emergency Management Agency (FEMA) defines social vulnerability as the susceptibility of social groups to the negative impacts of natural hazards (e.g., wildfire), which include disproportionate death, injury, loss, or disruption of livelihood (FEMA 2023). A sole hazard occurrence can bring about Page 11 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA considerably different impacts for distinct individuals, even if the magnitude of the hazard was the same for the entire community. Specific groups of individuals may be more susceptible to natural hazards because of socioeconomic status, physical state, or other factors. For instance, elderly individuals may have more difficulty in quickly evacuating during wildfire emergencies, which may make them more susceptible to entrapment. In other cases, low-income individuals may be less able to harden and improve their homes to reduce structural ignitability and, therefore, can face a higher probability of their homes being damaged or destroyed should a wildfire event occur. Much of the county, especially the west end, is described as socially vulnerable according to the Center for Disease Control's Social Vulnerability Index, which is based on 16 social factors, such as poverty, unemployment, education, and more. This index is used to identify levels of financial assistance that should be allocated to communities in need through rural development financing (U.S. Department of Agriculture [USDA] 2023). Census data also show that some communities in Jefferson County have high proportions of people aged 65 or older(U.S. Census Bureau 2022b). A map of disadvantaged communities as designated by the Council of Environmental Quality can be found in Figure 1.6. Federal Designation of the Justice40 Initiative, signed through Executive Order 14008, aims to ensure that 40 percent of the benefits from specific federal investments are directed toward disadvantaged communities facing marginalization, underservice, and pollution burdens. The initiative encompasses various categories of investment, including climate change, clean energy, clean transit, affordable housing, workforce development, pollution reduction, and clean water infrastructure. Federal agencies are undergoing significant transformations to reallocate resources to these communities, addressing decades of underinvestment and environmental hazards. The White House has issued guidance to agencies on identifying covered programs, engaging in stakeholder consultation, and reporting data to fulfill the initiative's goals. The"partially disadvantaged" area has been identified as such because they are home to federally recognized tribes. The area that has been identified as"disadvantaged", while also home to federally recognized tribes, meets the criteria based on climate change, housing, and legacy pollution. For more information on federal designations through the Justice40 program, please visit: https://www.esri.com/arcgis-bloq/products/arcgis-livinq-atlas/local-govern ment/iustice40/ 1 .5.5.1 Unhoused Populations With continued economic and social trends exacerbating the level of housing insecurity, urban areas throughout the United States have recently experienced significant increases in unhoused populations. As a result, fire departments are responding to a growing number of incidents involving fires that impact unhoused people and their shelters or encampments. To survive in often harsh environments without adequate protection from the elements, many people living in unsheltered communities utilize fire as a tool for general survival. This includes burning open flames to allow themselves to keep warm and cook food. Fire-safe practices are not always strictly adhered to in these settings, contributing to increased fire risk. Additionally, unhoused individuals are often situated in areas of existing high fire risk, such as densely vegetated riverbanks or vacant and unmaintained buildings. Jurisdictions across the United States face difficulties addressing the houselessness crisis due to legislative and political barriers, causing the issue to stagnate and fire risk to persist among these vulnerable populations. In search for a solution, nonprofit and research organizations have begun examining the behaviors that contribute to fire risk and establishing programs through which unhoused people are provided fire safety gear and proper training to educate them in fire safety and response. These groups are advocating for increased awareness to both those experiencing houselessness and the wider public, with a push for intervention and assistance to those at risk. Page 12 Table of Contents coN"I Y 8 1 !WA v' YQ Vo . *411 Z N y c ._N b O E.g 'O �'' c ° c • �? iIllin s R Up 0 m > m m m y UQ,c, - • 7 0 zc� et, — m > >. Q O m 's c5 ocQo`11 s V /� �' rn m c d 2 zn GS > , =rn m F_ m (a co o v o d gN O vc W yW . cc U S m n. U a Z U$ ? Z p o c `o OHO • ( 00 .1 ii1 - CO 41 3 -�0 U v_ z m _ °LL CO 3 - - d c) " v ,• C w a O ° O cf` a ° v O p � , a0 3 dfzjn v o� C �° = 1`'° o v w > �:__ O O 2 O CS .�...�_J/'`--ei J m \ aF U � .yam = rci E 0 o Ica(j % -0 1 w r fi `4 d < y ,. O U a 1 0 " O i " , .„., k‘ , ._ , .._ , ,_, , , _ , _ , i„ , , ___ ., __ . E o O Y - I'I , .c; i A ..; v I pS c 2 re ! l0 D N 0 1 co i L c0 L.L. 0_ 4 Jefferson County Community Wildfire Protection Plan SWCA 1 .5.6 RECREATION Jefferson County has a variety of outdoor recreational opportunities at the many county, state, and national parks within the county. Jefferson County Parks and Recreation manages 26 parks and campgrounds providing opportunities for camping, hiking, swimming, and other recreation across the diverse landscape of the county (Jefferson County Parks and Recreation 2022). There are 10 state parks in Jefferson County, all of which are situated on the east end of the county within the Puget lowlands and provide opportunities for hiking, biking, horse-riding, swimming boating, fishing, clamming, crabbing, and more (Discover Washington State 2023). The county also includes the heavily frequented Olympic National Park, which is characterized by its exceptional natural diversity, covering 922,651 acres of three distinct ecosystems—glacier-capped mountains, extensive Pacific coastline, and ancient temperate rainforests—that offers visitors a chance to enjoy activities like hiking, whale watching, camping, and stargazing (Discover Washington State 2023). The northwestern part of the county includes the Olympic National Forest, a 6,500-square-mile area that features complex terrain with winding ridges, steep mountains, canyons, and dense forests that visitors can spend their time exploring (National Park Service [NPS]2008). Areas of Jefferson County with high recreational opportunity, when paired with the influx of tourists to the county during summer months (Jefferson County DEM), may be at a greater risk for human-caused wildfire ignitions. County, state, and national park organizations may want to consider an increase in wildfire pre-planning to establish evacuation routes for recreationists. These organizations may also consider additional education and outreach programs to teach visitors about wildfire safety and prevention within recreational areas as visitation increases. "We get a large influx in tourists and transients during the summer months and that's increased in the last couple years. I've seen people camping in places I've never seen before, and they aren't always aware of what the risk can be in the dense forested areas. If a fire starts in the understory, the spread can be rapid."—Deputy Hoagland 1 .5.7 VEGETATION AND LAND COVER Jefferson County encompasses mountains, rolling hills, lowlands, freshwater and saltwater regions, and coastlands. This mosaic of land classifications leads to variations in elevation, slope aspect, substrate, and microclimates, all influencing the region's land cover. Among the most commonly occurring land cover types and/or vegetation types are mountains with tree cover and their snowy peaks above tree line, which comprise around 75% of the county's landmass (Figure 1.7) (Jefferson County DEM 2016). Page 14 Table of Contents "Y y o Z m iiii r m i �14�3 11 p3 � V� o fin. �' p o can �Y14V11.1111 z d /r 2 l9 <.1 Oco �� S `4 �FroHI o CCXtmto cU ° • m• z rc p? . � o a 0,, a, a > o. o > co 2 OmmaOca c ZQ a o W= > 1 100ali 11 ' III o o 11111 CT I .. a F- - v ;:. v O U c O c 0 L C, EEE 0 . j: c.) L, C LI a) a) W 11 y. t 7 0 !{ V . C O , i �. d ti Lo 7 5 CD 0 Jefferson County Community Wildfire Protection Plan SWCA 1 .5.8 FOREST HEALTH CONSIDERATIONS 1 .5.8.1 Diseases and Insects Pine beetle, blister rust, root disease, and other diseases and insects can cause small-and large-scale tree loss in forests across the county. As trees die or become weakened by disease and insect infestation, fuel loads within the forests increase. This creates more opportunity for fires to ignite and spread. Dead and dying trees catch fire more easily and fallen dead trees can act as ladder fuels that carry fire into the canopy where it can spread and intensify. Douglas-fir beetles have shown an upward trend in recent years, reaching a peak in 2019, followed by a decline in 2021. However, it is worth noting that the 2021 survey may have underestimated the beetle population due to a reduced survey area (Washington State Department of Natural Resources [WA DNR] 2021). As annual temperatures rise due to climate change, as winters become warmer and wetter, and as trees are weakened by other factors such as extended drought, there is the potential for Douglas-fir beetle populations to continue to increase and become more impactful. It is expected that the Douglas-fir beetle's range will shift to higher elevations with rising temperatures making historically unavailable areas accessible for insects (University of Washington Climate Impact Group 2009). Another impactful insect species is the balsam woolly adelgid, an introduced species that feeds on tree sap and can cause tree stress and mortality. The species primarily feeds on subalpine fir, Pacific silver fir, and grand fir(WA DNR 2021). Several diseases can also impact forest health, including root disease and blister rust. Root disease impacts all present species in the county and is most likely to impact trees already stressed by heat, drought, and insects (U.S. Forest Service [USFS] 2023a). White pine blister rust poses a significant threat to white pine species. The nonnative fungus infects live needles before moving into the branches and trunk. From there, it creates cankers that will kill branches and eventually the whole tree. Mortality rates for infected trees can be as high as 90% (WA DNR 2021). 1 .5.8.2 Impact of Climate Change In recent years, there has been an increase in the number of wildfire events in Washington as well as an increase in the extent and severity of events. The five largest recorded wildfires in the state have occurred in the last 10 years (Washington Geospatial Open Data Portal 2024). 2015 was the warmest recorded year in the state and correlated with the second largest wildfire year in state history (University of Washington Climate Impact Group 2023a, 2023b). Multiple projections indicate that annual area burned by wildfire is anticipated to increase 150% to 1,000% by the end of the century (Jefferson County DEM 2016; Snover et al. 2013). In addition to more intense fire seasons, climate change is anticipated to result in extended fire seasons. Historically, fire season has correlated with the summer months and generally lasts from late June through late September(University of Washington Climate Impact Group 2009). In recent years, fires have occurred further into October, which lengthens the time residents must be concerned about fire events and extends the fire season and burden for response personnel. A 2024 research article titled "Simulated Future Shifts in Wildfire Regimes in Moist Forests of Pacific Northwest" modeled potential shifts in burn probability, fire rotation, and the size and number of fires, especially large fires, under climate change conditions expected with little concerted effort toward reducing carbon emissions (Dye 2024). Their models found that under"business as usual" conditions, the Olympic Peninsula will experience higher burn probability and shorter fire rotations. Additionally, they found that the Olympic region will likely experience an increase in fires greater than 40,000 hectares and an increase in the number of fires per year. A large factor contributing to the increase in size and number of Page 16 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA fires is an anticipated shift in fire seasonality where fire season begins earlier in the spring and may extend further into fall (Dye 2024). Annual average temperatures have continued to rise in the region and are anticipated to increase further in the coming decades. The Jefferson County Hazard Mitigation Plan (HMP) notes that between 1895 and 2011, the average annual temperature in the county increased 1.3 degrees Fahrenheit and is projected to increase between 4.3 and 5.8 degrees Fahrenheit by the 2050s (Jefferson County DEM 2016). This information is available in the 2016 Jefferson County HMP, which is discussed in further detail in Appendix A. The county is currently working to update the HMP, but this update has not yet been released. All future CWPP updates should align with content in the HMP update. The anticipated temperature rise will result in extended periods of drought, lowered average snowpack, and shifts in precipitation. In 2021, the June heatwave resulted in approximately 84,000 acres of forest desiccation damage in western Washington with a high concentration of recorded damage on the Olympic Peninsula (WA DNR 2021). As the climate changes, drought will become a more frequent and intense issue for the county. In terms of forest health, more frequent and intense droughts along with warmer average temperatures impact tree health and forest resilience in several ways. Drought periods reduce the amount of water available for trees to utilize and the amount of moisture present in the soil. This can result in weakened tree communities that are susceptible to insect and disease infestation. Most areas of the Olympic Mountains are wetter than the rest of the state and therefore less prone to wildfire. However, with higher average temperatures and more drought-prone summers, the region is becoming more susceptible to fire (Jefferson County DEM 2016). A large component of this is a drier understory than what has historically been present. Long-term drought can also result in large-scale tree mortality that alters forest structure and creates hazardous standing dead tree conditions. As average temperatures rise and droughts persist, species ranges can shift, and regions historically occupied by a certain species may no longer be suitable for the species (University of Washington Climate Impact Group 2009). The Washington State Climate Change Impacts Assessment projects that by 2060, 32% of the state that is currently occupied or appropriate for Douglas-fir will be outside of the species' suitability envelope (University of Washington Climate Impact Group 2009). For Jefferson County, this is anticipated to mostly impact the southern Olympic Mountains. A result of range shift can mean intrusion of invasive species and alterations to the overall vegetation community of an area. For instance, a forested area may be replaced by grassland as water becomes less available, fires become more frequent and intense, and more fire-susceptible species colonize the area. Most at risk of range shift and loss or vegetation community changes are alpine and subalpine areas that are generally very moist and have very long fire return intervals. Some species, such as subalpine fir and mountain hemlock, are expected to shift to higher elevations as decreased snowpack lengthens the growing season in these areas. Under most climate modeling scenarios used for the USFS analysis, temperate forests are expected to expand (Halofsky et al. 2011). The viability of certain species is reduced under climate change conditions as the availability of resources or consistency of habitat changes. The western redcedar, a culturally and economically significant conifer in the Pacific Northwest, has experienced a decline due to drought and reduced snowpack. Climate change has further exacerbated these impacts as drought conditions become more prevalent in the species habitat (Northwest Climate Adaptations Science Center 2020). Redcedar stands in Jefferson County have been shown to be stressed in their current ranges (Mathys et al. 2014). With higher temperatures, the evapotranspiration rates of tree species increase, resulting in water being used more quickly. Climate change is also anticipated to disrupt precipitation regimes, shifting timing of precipitation events, and increasing the occurrence of heavy rain (Snover et al. 2013). Sporadic Page 17 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA precipitation creates inconsistent water availability for forest species and can cause erosion issues in post-fire areas where soil is not yet stabilized. "We are in a state of leaving a climate regime that we've had here for about 6,000 years. Everything's changing and we can't manage our forests to keep them exactly how they are now. Can we all look ahead together and recognize the way things are changing and manage our forests for these changes in a way that helps maintain the ecological, social, and economic benefits they provide for future generations?"—Jefferson Land Trust 1 .5.8.3 Tree Mortality As discussed above, climate change is anticipated to have a variety of impacts to local weather patterns, average precipitation, snowpack, and drought extent. These combined factors can result in large-scale impacts to forest health including broad tree mortality (National Science Foundation 2022). While tree mortality is a natural process in forest ecosystems, when large regions experience a significant number of tree deaths within a short time period, it can negatively impact forest health and disrupt ecosystem functions. Large-scale tree mortality greatly increases the amount of fuel available for wildfire events and increases the likelihood of catastrophic events. 1 .5.8.4 Invasive Species Nonnative and invasive species can cause degradation and a number of ecological issues, including outcompeting native species, reducing biodiversity and ecological health, and increasing fire vulnerability. Invasive species thrive in disturbed areas and are often transported by vehicles, foot traffic, and escape from gardens. Scotch broom, Canada thistle, Himalayan blackberry, English ivy, English holly, herb Robert, and Japanese knotweed are some of the most impactful species in the county (NPS 2015). Scotch broom in particular increases the potential and intensity of fire. It occurs frequently along roadways and can spread quickly (Jefferson County 2024). Jefferson County and the Noxious Weed Control Board have a number of resources and guides to help community members identify and manage invasive species: https://jeffersoncountypublichealth.org/1046/Noxious-Weed-Resources. 1 .5.9 WILDLIFE 1 .5.9.1 Threatened and Endangered Species Several state and federally listed threatened and endangered species can be found in Jefferson County, including birds, insects, fish, and plant species (Table 1.3). Treatments on federal land are subject to the National Environmental Policy Act (NEPA) and associated analysis of impacts to these species. Wildfire mitigation treatments in areas that may impact threatened and endangered species require application of certain mitigation measures to prevent degradation to habitat. Please note that the table below is not exhaustive and only includes a selection of species that occur within the area. For a more comprehensive list, please visit the Washington Department of Fish and Wildlife threatened and endangered species page here: https://wdfw.wa.gov/species-habitats/at-risk/listed. Page 18 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA Table 1.3. Federally and State-Listed Threatened and Endangered Species that May Occur in Jefferson County Type Scientific Name Common Name State Status Federal Status Birds Antigone canadensis Sandhill crane Endangered - Birds Coccyzus americanus Yellow-billed cuckoo Threatened Threatened Birds Brachyramphus marmoratus Marbled murrelet Threatened Threatened Birds Fratercula cirrhata Tufted puffin Endangered - Birds Strix occidentalis caurina Northern spotted owl Threatened Threatened Birds Phoebastria (=Diomedea) Short-tailed albatross Candidate Endangered albatrus Fish Salvelinus confluentus Bull trout Threatened - Fish Salvelinus malma Dolly varden Proposed Similarity - of Appearance (Threatened) Insects Danaus plexippus Monarch butterfly - Candidate Insects Euphydryas editha taylori Taylor's (=Whulge) Endangered Endangered checkerspot Mammals Balaenoptera musculus Blue whale Endangered Endangered Mammals Balaenoptera physalus Fin whale Endangered Endangered Mammals Enhydra lutris kenyoni Sea otter Threatened - Mammals Eubalaena japonica North Pacific right whale Endangered Endangered Mammals Megaptera novaeangliae Humpback whale Endangered Endangered Mammals Orcinus orca Orca Whale Endangered Endangered Mammals Physetermacrocephalus Sperm Whale Endangered Endangered Mollusks Haliotis kamtschatkana Pinto abalone Endangered - Reptiles Dermochelys coriacea Leatherback sea turtle Endangered Endangered Reptiles Caretta caretta Loggerhead sea turtle Endangered Endangered Reptiles Chelonia mydas Green sea turtle Threatened Threatened Reptiles Actinemys marmorata Northwestern pond turtle Endangered - Plants Pinus albicaulis Whitebark pine - Endangered Page 19 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA This page intentionally left blank. Page 20 e .,4Y CHAPTER 2 - FIRE ENVIRONMENT 2. 1 WILDLAND-URBAN INTERFACE As of summer 2023, wildland-urban interface (WUI) areas in the state of Washington are determined using the Washington Wildland-Urban Interface (WA-WUI) map for implementing and enforcing building codes across all counties and cities. Chapter 51-55 Washington Administrative Code (WAC) outlines the adoption and amendment of the 2021 edition of the Wildland-Urban Interface Code. The code mandates compliance in construction within the interface or intermix areas and specifies the process for updating or designating new WUI, with only the local jurisdiction's code official having the authority to modify the WA-WUI map (WA DNR 2023a). In this Plan, the WUI (Figure 2.1) is defined in accordance to Chapter 51-55 WAC as: • The geographical area where structures and human development meet or intermingle with wildland or vegetative fuels. Section 302.3.6 of WAC 51-55 outlines the process for WUI area designation. It involves determining structure density, vegetation density, and proximity categories for a given area, and based on these criteria, the site is designated as either intermix or interface, depending on the specified conditions. Compliance with the code, including the Wildland-Urban Interface Code, is then determined accordingly. The WA DNR is in the process of revising the WA-WUI map, per Senate Bill 6120. This process is expected to be concluded in 2025. Information on the Bill can be found on the Washington State Legislature website: For the purposes of the 2024 CWPP, the WA-WUI layer(Figure 2.1) is considered the best available data and is used in development of the CWPP Composite Risk-Hazard Model. As the DNR WA-WUI map is revised, the Advisory Group will review and adjust the Composite Risk-Hazard Model described in Chapter 3 accordingly. Page 121 Table of Contents Jefferson County Community Wildfire Protection Plan SVVCA The WA-WUI map (Figure 2.1) was created by the WA DNR. The purpose of the WA-WUI map is to show where people and property are located relative to wildland vegetation. The WA-WUI map is sometimes inadvertently confused with a wildfire risk map. It is important to note the distinction here. This map was designed as a tool to help municipalities design or update WUI codes or building codes but does not assess wildfire risk or hazard. Page 22 Table of Contents d °per „ '�r `m <i d r ' v 110 'x m z w 2 CD 5 iii a. CZ m a s c in 3 d a `m Z E d as ? _ .Y� � (�o o O b tx m c ? , o m m m m u zd C V -- a a m c � 2- ex j j v c o e;� N m t U f m d U c J 3 Z z > 2 w" Q `� K_ p O _� �' C I� I " I ' "g ZQo Rai a r u a= c411 � ,a� ti a�z � ,f3 L „4 - 2 a a o a c A c :,3a Ea (g, E ` a > m u o o m c ar- r o 4' ,x >, s' o 0 a a) t ' O r ' S' 0 !.. ......"" / L e.,, C M r N m d N m L 2 Jefferson County Community Wildfire Protection Plan SWC1k 1, .. :r• i - 1,4 Ili ill Ti it t ..M1,4 , :\. *W/t. i axy, ' S£'3`' �`.°"" t' 7 r ..- 70,"� i' �' ' t ..� ...r ....dlRe" tlf,.rlilr. .a. ��..uY�llk. Figure 2.2. Example of the WUI Intermix in Port Townsend. ` ��k` ,s 1 'r 46;4'7' *,-- - , ,.. ',.riftlil s. R. •• �`.ri, ".ice ' e # ---•• b * > , a - x 1 Y.'a y fi... i^ 1 ♦. . 'i"'`h.t.y a .* ._ .`.. pt Figure 2.3. Example of the WUI Intermix in Marrowstone Island. Page 24 Jefferson County Community Wildfire Protection Plan SWCA 2.1 .1 WILDLAND-URBAN INTERFACE LAND USE Chapter 15.05 of the Jefferson County Code cites the adoption of the 2009 edition of the International Fire Code to direct new construction within the county. The State of Washington adopted the International WUI Code with the 2021 code cycle, influencing development projects in Jefferson County after July 2023 (Washington State Building Code Council 2023). The code aims to enhance safety and wildfire resilience for homes. A four-step process is outlined, involving determining the hazard severity of the parcel, assessing existing defensible space, identifying ignition-resistant construction requirements, and confirming compliance with site plan regulations. The goal is to protect citizens and their homes from wildfires through these new code requirements. Cities and counties are continuously challenged to accommodate both current and future residents in need of safe and affordable housing. As outlined by the International WUI Code, development in moderate to extreme fire hazard areas is required to be constructed in accordance with a set of guidelines and requirements that aim to prevent wildfire intrusion, protect structures from ignition, and stop structure fires from spreading to wildland fuels, even without fire department intervention. These requirements include the use of fire-resistant materials to minimize fire susceptibility in new structures and implementation of defensible space. Additional fire code information is described in Appendix A. Appendix C contains the WUI delineation map for cities and unincorporated areas within Jefferson County as well as a description and a hazard rating for each city and unincorporated area. The WA-WUI map depicts the entire WUI boundary for each city or unincorporated area. The WUI buffer is an area where fuel treatments should be prioritized to provide additional protection to communities from potential wildfire and/or grassland fire spread. "Wildfires are a big concern for us, and a lot of our practices are intended to reduce the risk of fires on our land just like other community members. Having healthy, diverse forests is essential to what we do."— Rayonier Representative 2.1 .2 FUELS AND TOPOGRAPHY WITHIN THE WILDLAND-URBAN INTERFACE Jefferson County is characterized by highly varied topography and a wide assortment of vegetative fuel types. Topographically, the county ranges from sea level in its eastern and western portions to 7,969 feet at the summit of Mount Olympus, with hills, valleys, and sprawling ridges throughout. The highest proportion of land cover in the county is timber fuel, which presents a heightened risk due to its wildfire behavior. Portions of the highly contoured and forested expanses of the county interface with human development, posing a substantial wildfire threat. Development and expansion of the WUI and contemporary fire suppression practices have both increased the likelihood of human ignitions and led to increased fuel accumulation, respectively. In addition, historic fire incidents have shown that fire risk is elevated in areas where human ignitions are more probable. Figure 2.4 shows fuels within Jefferson County. For further details on the fuel conditions for each model input, please see Table 3.1. Page 25 Table of Contents k N ;zz N d vo _ = <i C i z N o cn i m m i n o m n J J J J J -I J J J 03 ?1-Ln 0 8 mg v OO n n cnvF r- r - r- E- t- r - - r - f- n .nn m H }III!II °O m m y o Z a _ e o .____.. z d = Y C o 00 6 o L C@ 7 S v — N co co N vNi t OO _ �W � 8R p 5 ca o rn m o 0 o '^ mmmoO �K o W O . a .5Y car- �r �x I 1< Um 2 z zzzz OO LL aL Z o z ,. (U w N • IIIr _c LL UHD 0 I L III _ o O � Al a °1 14- {1 .7:-;O, .±". -}. NY .O j�li U t O` er C »C., c _�, arsa a y ElF ' 4'' if o >' was �•� � X la o ir-cn a `�. ?4- ' 1 1. ,. - .,,44iii 0 o r" O L V N cu L. CN1 co f w N LL a_ Jefferson County Community Wildfire Protection Plan SWCA 2.2 FIRE REGIMES Fires are characterized by their intensity, the frequency at which they occur, the season in which they occur, their spatial pattern or extent, and their type. Combined, these attributes describe the fire regime. While fire regimes for distinct ecosystem types are detailed below, Figure 2.5 provides an overview of the mean fire return intervals across Jefferson County's diverse landscape. The prevailing mean fire return interval observed across this terrain ranges from 100 to 300 years. A variety of fire return intervals can be found across the county ranging from 50 years to over 1,000 years (Fryer and Luensmann 2012; LANDFIRE 2020). Long return intervals result in fire events that are often stand replacing as fuels gradually increase. 2.2.1 SITKA SPRUCE Sitka spruce communities are generally located in • -. areas with relatively high annual precipitation. In the � � county, they are commonly found in the western ;: "f coastal region, which experiences the highest , j precipitation totals. Sitka communities are often ,` intermixed with western hemlock and redcedar and a • forest floor consisting of mosses and ferns (Acker and Kertis 2004). Due to the high amount of precipitation, this community experiences very little fire and has a • fire return interval of 150 to over 350 years (USDA 4. 2012a). Most fires experienced by Sitka communities '� '4 ` spread from adjacent areas with drier conditions. %Sitka spruce is not well adapted to fire •and has thin ' ;,I., bark and shallow roots. Wildfire events are generally rr,:A stand replacing (Acker and Kertis 2004). Windthrow • events are more common as the portion of the county .may v 4 most often occupied by Sitka spruce experiences the highest occurrence of severe storms. This can result in fuel loading within Sitka communities, especially during extended drought periods. However, due to the Sitka spruce. moist climate inhabited by Sitka communities, most Source: Bressette(2014a) slash and windfall trees are not available as active fuel due to rapid decay rates on the forest floor(Griffith 1992). Page 27 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA 2.2.2 DOUGLAS-FIR-WESTERN HEMLOCK Douglas-fir and western hemlock are common in 116 multiple communities across the county including wet '... " and dry-mesic habitats. Dry-mesic fir-hemlock ! • " communities are most prominent in the eastern portion of the county that experiences a rain shadow _ 1. (Kertis et al. 2004). The terrain of this area is often low montane and has well-drained soil. Other species common in dry fir-hemlock communities are redcedar, white pine, lodgepole pine, and grand fir. =-, The understory is often primarily shrubs. ,µme -r B�E954 Ay Douglas-fir(left) and western hemlock(right). Sources: Powell(2002),Van Pelt(2007) Pacific madrone can also be found in dry fir communities where soil is well drained. Madrone is an early successional species with a high light requirement that is often outcompeted by fir species y; a_.,. • on less disturbed sites. Madrone often colonizes first following disturbance such as fire (Reeves 2007). The fire return interval for dry western hemlock community is 50 to 150 years (USDA 2012a, 2012b). . This community experiences mostly mixed-severity fire events. As the fire return interval lengthens, -. reaching over 250 years, stand-replacement fires become more common. Douglas-fir communities are * '} fairly fire dependent to clear understories and return ., ' ,y soil nutrients. Pacific madrone. Wet-mesic Douglas-fir-hemlock communities are Source:Washington State University(2023) common across the county and occur on the north, south, and west aspects of Mount Olympus. Wet-mesic communities receive more precipitation than dry communities and are found in cool, moist microsites (Kertis et al. 2004). The fire return interval for this community is between 300 and 1,000 years (USDA 2012c). Severity of fire in wet hemlock communities generally ranges from mixed to stand replacing with stand replacement being more common in wet communities compared with dry communities (Kertis et al. 2004). This is primarily due to the longer fire return interval for wet hemlock. Hemlock and Douglas-fir dominate this community with some redcedar intermixed and a forest floor consisting of a variety of shrub species such as Devil's club, huckleberry, rhododendron, and swordfern (Kertis et al. 2004). Page 28 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA 2.2.3 WESTERN REDCEDAR Western redcedar is a common species within the county but is most frequently found on the west side of Mount s ., s Olympus in old-growth coastal rainforests. Redcedars are one the largest and oldest growing species of tree in the region, growing to ages of over 1,000 years old, reaching heights of over 200 feet with trunk diameters of over . `; 8 feet(Tesky 1992). The species is often found in forest . communities containing Sitka spruce, western hemlock, Douglas-fir, and silver fir. Redcedar often forms ] codominant relationships with firs and hemlocks (USDA " 2012b, 2012c). The species has been heavily harvested and is a valuable resource for roofing, siding, poles and posts, and other varying products (Tesky 1992). The county contains some of the largest living redcedars including the Duncan Cedar, which is the second largest known redcedar in the world. Redcedars have a low to moderate fire resistance due to their thin bark, shallow roots, and tendency to be accompanied by dense understories with flammable foliage. Large specimens, however, can be expected to survive fire events as long Western redcedar. as they are not fully girdled by a burn (Tesky 1992). Source: Bressette(2014b) The fire return interval for western redcedar varies based on its associate species, topography, and water proximity. Generally, fire return intervals range from 50 to 350 years; in riparian areas, the mean return interval increases to 200 years. Fires in redcedar communities are most often moderate to severe burns due to the large amount of understory fuel (Tesky 1992). The species regenerates naturally effectively but can be limited if soil is severely burned and if ungulate herbivory is high. 2.2.4 SILVER FIR-MOUNTAIN HEMLOCK Silver fir is a common tree species and is often found in association with mountain hemlock throughout Jefferson County. Fir-hemlock communities are common; they are found extensively in the montane portions of the county at elevations above 1,500 feet(Cope 1992). Both �� , , . l species are also occasionally found in pure stands. t 4141 Mountain hemlock tends to occupy higher � �,. elevations while the two begin to intermix at lower k altitudes with less freezing and more consistent water(Cope 1992). Silver fir and mountain " hemlock are also associated with Douglas-fir- Silver fir(left) and western hemlock (right). hemlock communities and the two are often found Sources: Bressette(2014c);McDougal(1991) intermixed or bordering one another. This vegetation community can be found at both mid-and high elevations and can grow in almost all soil types Page 29 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA in the area (Acker and Kertis 2004). Communities are reliant on cool moist conditions and most often found where high snowpack occurs. Fir-hemlock communities have a low fire return interval that averages between 200 and 600 years with intervals over 1,000 years also possible (USDA 2012d). Silver fir is fire avoiding and sensitive to impacts of wildfire. The species has thin bark and shallow roots that are often killed by fire. Fire events in fir-hemlock communities are most often stand-replacing crown fires (Acker and Kertis 2004; USDA 2012d). 2.2.5 SUBALPINE FIR Subalpine fir is found at high elevations in Jefferson 274 County, often on the eastern slope of the OlympicWINK *. . Mountains. The species is adapted to very cold I " ' .. n winters and warm, dry summers but can also occur along streams and in other areas with higher available moisture (Kopper and Acker 2004). Subalpine fir tends to grow in thick stands with associated species ; including hemlock, lodgepole pine, Douglas-fir, and ' • Englemann spruce (Uchytil 1991). The forest floor of this community generally consists of shrubs, grasses " and sedges. The median fire return interval for f?T subalpine fir communities is 150 years (Kopper and Acker 2004). Fire events are often stand replacing as ; " fuel accumulation is generally high. Additionally, the species is poorly adapted to high-intensity fires. Following wildfire events, lodgepole pine can overtake fir in recovery and limit opportunity for establishment _ (Uchytil 1991). >- 1 Subalpine fir. Source: Bressette(2014d) Page 30 Table of Contents d a �t Z NN T '2 2 ld \ JO0dirii 7n v5 _ / am\ ao _ Z r 0 C Orb �O V N J V yy �II ` al H O {jj r Pt Oo tL c .7 CO 21 S O � < O hs �� L O 2 a O SP w' � Wt� t4w LL ZQo z 3 s --It'' :-2 '''''''' ''''' ''..4..,,,- Z U 2'} E � O DJ m 4 t O R LO it, '"' ti d. + ', fi yam,.,. 3 o _ tiU " 4 A Niis . m �1r I f Q a ", `' 'tea y - 2 R 3'4•' C b - .1 "Mi g`"'*"4` j L �., .a •t CD \ C4-10 ''''''' ' ''.2 .-4.' i 1 t, 1 ,.. -;., ...,-,-t—w,;-,-,. ti I a e- w y. �sf y 3 Q `1 ijl�, err r' 0.2 I .. # p.y3ey�y r • i? O E .F 0.3 cr N 23 w al p� li N l i '. O 6. o Y Y O m U c. E.' R o m cc m a 7.t .,. "r )4. !iiiiMitI ;;pit $ cc (ll W E 43 40 W cu r, #— co Y Y Y 0 n„ CD jr„, co co t,- N N. a, 1.0 1111 Jefferson County Community Wildfire Protection Plan SWCA 2.3 CLIMATE AND WEATHER PATTERNS The climate of the county is heavily influenced by its topography and coastal proximity. The western portion of the county is dominated by temperate rainforest and receives a majority of the peninsula's precipitation. Precipitation is highly variable and dependent on elevation, coastal proximity, and location on the peninsula. The north-central portion of the county, near Mount Olympus, averages 260 inches of rainfall annually. Toward the coast, annual precipitation decreases along a gradient to 103 inches annually for coastal areas. The eastern portion of the county receives the lowest annual precipitation with averages along the Puget Sound coast as low as 20 inches annually. This large precipitation range is heavily attributed to the rain shadow effect that the Olympic Mountains has on the region where storms moving eastward deposit a majority of their precipitation on the mountain range, creating drier conditions on the eastern front range. Precipitation is heaviest in winter months from November through March when totals average 14 inches per month (National Weather Service 2023a, 2023b). One-day maximum precipitation regularly falls between 4 and 8 inches on the west side of the county during the rainy season, while the eastern portion generally experiences maximums between 1.5 and 4 inches (Western Regional Climate Center 2023a, 2023b, 2023c). Summer and early fall months receive the lowest precipitation, with average monthly totals ranging from 1 to 4 inches. Snow can also be expected during late fall, winter, and early spring months with snowfall totals ranging from a 0.5 to 3 inches per month in lower-elevation regions. The mountainous regions receive considerably more snow than the rest of the county, with Hurricane Ridge averaging 30 to 35 feet annually. The annual average temperature ranges from 37 to 63 degrees Fahrenheit, with lower temperature extremes dropping to 0 degrees in winter months and highs rising to over 100 degrees in summer months. Winter temperatures can range from 0 to 70 degrees with an average temperature of 38 degrees. Spring temperatures range from 12 to 90 degrees with an average temperature of 48 degrees. The temperature range for summer months is 30 to 102 degrees with an average temperature of 61.7 degrees. Fall temperatures can range from 5 to 99 degrees with an average temperature of 50 degrees. Similar to precipitation, temperature varies greatly depending on altitude, coastal proximity, and location relative to Mount Olympus. The western coastal portion of the county is generally a temperate rainforest climate and is often foggy and cool. The eastern portion of the county is much drier but with similar temperature variation. Within the lowlands exists a small region called the Olympic Rain Shadow, which receives significantly drier and sunnier weather than its surroundings. It encompasses the towns of Sequim, Port Angeles, and Port Townsend, as well as much of the San Juan Islands. Storm cells most often impact the county from the southwest and move northeast. Storms can often be accompanied by high winds, with the most severe storm and wind events generally occurring in October through February. Winds are generally strongest from the west and north, and drainages that are oriented east-west can channel wind events creating focused air currents. Severe wind events can cause damage to facilities and trees. Two such events occurred in 1921 and 1962. The event in 1921, termed the "great Olympic blowdown", saw coastal wind speeds reach over 100 miles per hour and 40% of trees were blown down on the southwest side of the Olympic Mountains. The 1962 event saw winds peaking at 160 miles per hour with similarly catastrophic windfall results in the forests (Read 2015). Monthly climate normals (30-year averages) for the county are graphed by weather stations below (Figures 2.6, 2.7, and 2.8). Monthly temperature and precipitation data for the county is limited, especially for the western portion of the county. Average monthly temperatures for the Quilcene area are included in Page 32 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA Figure 2.6, average monthly precipitation for the Chimacum area is included in Figure 2.7, and temperature and precipitation averages for the entire Olympic Peninsula are included in Figure 2.8. The Olympic Peninsula area figure includes data from across the region, including outside of the county, and is not representative of specific location records. Differences in average temperature and precipitation occur across the county and should be noted when considering local conditions. 80 70 60 is 50 ar a 40 30 20 Jan Mar May Jul Sep Nov — Mean Max Temperature Normal — Mean Mtn Temperature Normal — Mean Avg Temperature Normal Figure 2.6. Mean average temperature in Quilcene. Source:National Weather Service(2023a) Page 33 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA 5 4 VI 07 3 c 0 M I 2 11111111111 1 0 Jan Mar May Jul Sep Nov • Total Precipitation Normal Figure 2.7. Average total precipitation in Chimacum. Source: National Weather Service(2023b) 8 o � 6 60 • I 0. 4 48 -_ M 2 I I 3,, o 1 . 11 z4 Jan Mar May Jul Sep Nov • Total Precipitation Normal —Mean Max Temperature Normal —Mean Min Temperature Normal —Wear Avg Ter.;.erature Nor, Figure 2.8. Average total precipitation and mean average temperature in the Olympic Peninsula. Source. National Weather Service(2023c) Page 34 Jefferson County Community Wildfire Protection Plan SWCA 2.4 FIRE HISTORY Fire is a naturally occurring aspect of Washington's landscape and is essential to the health of many ecosystems in the state. Forest communities across the county range from fire adapted to fire avoidant depending on geography, elevation, and local climate. Fires that occur at natural intervals play a crucial role in clearing dead fall and understory debris, returning nutrients to the soil, and maintaining tree and canopy spacing. Prior to colonial presence on the peninsula, most fires were intentionally set to maintain the prairies throughout the lowland landscape (Wray and Anderson 2003). Others were naturally occurring and varied in intensity and size (Jefferson County DEM 2016). Following Europeans landing in the area, several large fires occurred due to logging and road building (NPS 2005). The average fire return interval is generally 100 to 150 years; however, this varies across ecosystem types and geographic location (see Figure 2.5). The east side of the county experiences more frequent fires due to its drier climate. Historical evidence such as fire scars indicates that large fires burned much of the north, east, and south sides of the peninsula over 300 years ago and many valleys and watersheds were burned in large fires about 250 years ago (Jefferson County DEM 2016). Although there may be limited documented accounts regarding the influence native tribes had on fire occurrence, indigenous peoples selectively burned areas to improve wildlife habitat and access, maintain certain vegetation, and harvest root crops. Some suggest that the prairies near the western coast are a result of these management practices (NPS 2005). The early 1900s saw a large occurrence of fires, including the Forest Fires of 1902; the Dosewallips and Duckabush Fires of 1918, which burned over 7,000 acres combined; and the Green Mountain, Discovery Bay, and Snow Creek Fires, which burned 9,600, 5,000, and 3,800 acres, respectively (Jefferson County DEM 2016). In the last 20 years, fires have become more frequent in the county, particularly in the northeastern portion, where drier conditions can create ideal fire conditions. These include the Griff, Heatwave Complex, and Hopper Fires. Fire occurrences have also increased due to increased population growth in the county and more people living within the WUI as communities expand into forested areas. Jefferson County averages 5 to 10 acres of wildland fires every year(Jefferson County DEM 2016). Figures 2.8 through 2.10 illustrate historic fire perimeters, cause of ignition, and density of past events. Throughout the county, west-and north-facing slopes are less likely to experience severe wildfire conditions due to higher precipitation and cooler temperatures. In recent years, this has become less reliable, however, because climate change— induced drought has created drier conditions across all aspects. The fire season in the county generally spans from the end of June through the end of September. In recent years, the season has extended further into October as dry, warm conditions linger. "Compared to my time working on the peninsula in the late 90's and early 2000's, wildfire has increased in all metrics. It used to be if we had a fire over 2 acres, it was a big deal. Some years we wouldn't have any fires in the park or National Forest."—Joseph Crowe, USFS Page 35 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA 2.4. 1 RECENT FIRE OCCURRENCE This section was developed using fire history data from WA DNR and the National Interagency Fire Center(NIFC) website (https://data-nifc.opendata.arcgis.com/datasets/nifc::wildland-fire-incident- locations/about). The Advisory Group acknowledged that fire reporting, especially for small ignitions (that grow to less than 1 acre), is notoriously limited throughout the county and nationally, and therefore, fire history data may not fully represent the actual numbers of fires that occur on an annual basis. A depiction of Jefferson County's wildfire history (1900-2022) shows historic fires occurring across all geographies of the county. A majority of fires in the county have occurred in the eastern portion, which corresponds with drier conditions and higher human populations. Most recent large fires have occurred within Olympic National Park (Figures 2.9-2.11). The county averages 5 to 10 acres of wildland fire annually (Jefferson County DEM 2016). Historically, large wildfires have been fairly rare in the county but have followed an oscillating cycle. Small fires less than 0.25 acre are the primary events across all time periods. Although the number of events has not significantly increased in the last few decades, the number of large fires has increased. The period of 2010 through 2019 included the largest number of acres burned per year compared with other periods and saw the largest number of fires over 1,000 acres aside from the period of 1900 through 1999. The current decade, beginning in 2020, has seen a decline in the number and size of fire events compared with the previous decade. Increases in the number and size of wildfires can primarily be attributed to drier forest conditions; however, an increase in residents living in the WUI has also fostered conditions for more frequent and intense WUI fires. Hidden illegal meth labs have also been a contributing factor that has sparked fires in the WUI (Jefferson County DEM 2016). Human ignitions are the leading cause of fire in the county and include fireworks, cigarettes, outdoor burning, and heat sparks from equipment and vehicles. Debris fires have the highest loss per incident compared with every other ignition type. Many fire events have unknown ignition sources, while natural causes, such as lightning, also play a significant role in ignitions, particularly in the western portion of the county. The progressing effects of climate change are a primary driver of increased ignitions and large fires. Less consistent precipitation and snowpack, combined with increased evapotranspiration rates, leave forests more vulnerable to all ignitions sources. Loss of forest coverage is one factor that contributes to drier conditions. Dense, mature, temperate forests maintain cooler, moist atmospheric climates through evaporation and condensation cycles. The effects of this cycle are reduced or disrupted as forests are lost through urban development and logging. Logging companies in the county are active in improving their practices to reduce ignitions on their owned or leased land by strategically planning harvests, reducing the amount of slash left on-site, and maintaining response equipment and personnel. At the beginning of the 1900s, there was an influx of large fires resulting from settler development and logging. Throughout the mid-1900s, there were significantly fewer fires, until the end of the century when the Hoh Fire burned around 1,050 acres in 1978. In the last decade, the eastern portion of the county has seen a significant increase in fires due largely to human population growth and drier conditions in the rain shadow region. Page 36 Table of Contents 9g I w JVip >. w i F .0 0 q OOO 'o p c N du Z - cc 1 mNppR c g O I re 0222cn a. o N o ? tiRR g Z�o a'_ cu I. • I 0 � / wilII I �. o ! ».. c.c. S O °• C a » n C • ¢ • al. o •o y• j a o o c c 3 a, m CZ o C 1/1 - n L.) -o:; C CI v c t 0 0 `2 off- ^ - .. a0 J aj E ate / L E , E �! o s >. :yi N o a O U N = t L O cCn a) c O o O ! n. _c O r O j\ .— *,.} E O - , ,, >, , , _ ...„ , _ $ , (., , ,..„ , ,,,, ,,,, ....„,,,r,.., k = ,:. L d d n L 0 L gym,I _ f,{ a) [y aCC C .L a) a_ L •L 0 N 12 Q) �k N ii a7 co O Z Z '`� In o N N 7 ��I 2iNl0D N a '.�...� � /Z33c c 1/IP ///vao 0 Ili =O w >, O 0 m m 3 d Z N '�' 0 �I / Vp .0 o E -Q �. 2 c p p N 3 m �, c c o o , e �Sd cc = U 2 2- 2— (n d U z x 0 w o o°° wLL O U Z 0 Q c� �3 LL. 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J o ,1 cp ' —,,,,, 01 = F cn c) , • W c E a) 0 , —3 ,i- ‘ 1=-4' ' a) e , .- cc o — cr .. co ,_ „...... , .........--- i C---- A,„, •W ° , t - ',',„ f7 \\\t: .,,/-• 1 . , , •- ._ CU .. , , - ',..;.)77' '•- - 1 . , = A • ° 1 0 0 • CD a- `.• •-• U- , r r , t• co U- a) cm co Jefferson County Community Wildfire Protection Plan SWCA In the last 10 years, multiple large fires have impacted the county within the boundaries of Olympic National Park. The 2015 Paradise Fire burned 2,798 acres (Figure 2.12), the 2016 Hayes Two Fire burned 2,389 acres, the 2016 Godkin Fire burned over 560 acres, and other smaller fires occurred during this time. Notably, the 2015 and 2016 fire years followed an abnormally dry and warm year in 2015. In August 2023, a series of lightning strikes caused multiple fires to start just southeast of Mount Olympus. The Delabarre Fire was the largest of the naturally caused events, and the total area burned from these fires was 4,795 acres. Wildfires continue to grow in the number and size of events within the county and there is a high probability of future events (Figures 2.13-2.17). Reoccurring dry conditions and wildland encroachment have resulted in a regular brush fire season that has seen continued rapid responses from local fire departments that have limited the impact of these events. • v . • 410 • yt Figure 2.12. Paradise Fire of 2015 burning in Queets Valley. Source: NPS 2023. Page 40 Tabled Contents Jefferson County Community Wildfire Protection Plan SWCA Fires per Decade, 1900- 2023 700 574 500 U. *fr. 0 2003 Cs0 181 126 1X 33 1900 - 1999 2000- 2010-2019 2020-2023 Decade Figure 2.13. Decadal wildfire frequency in Jefferson County from 1900 through 2023. Fires by Size Class Per Decade, 1900- 2023 250 200 4.4 150 0 11 100 z so — mot al IN— 1900- 1999 2000-2009 2010-2019 2020-2023 Decade NA aB RC @DEE NF Figure 2.14. Jefferson County fire size statistics per decade from 1900 through 2023. Size Class:A=0.25 acre or less;B=greater than 0.25 to 10 acres;C= 10 to 100 acres; D= 100 to 300 acres; E=300 to 1,000 acres; F=1,000+acres. Page 41 WOO Jefferson County Community Wildfire Protection Plan SWCA Acres Burned Per Decade 1:'SK 166,473 160K 140K -a 120K 6- 100K :••K 4 60K 40K 20K 14,725 1,929 112 0 1900- 1999 2000-2009 2010-2019 2020 -2023 Decade Figure 2.15. Jefferson County acres burned per decade from 1900 through 2023. Fires by Cause Per Decade, 1900- 2023 400 350 300 us 250 r, 200 G 150 z 100 I I 0 MI I 111 - - - 1900- 1999 2000-2009 2010-2019 2020-2023 Decade • • Human •Unknown/Undetermined Figure 2.16. Jefferson County fire causes from 1920 through 2023. Page 42 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA Fires per Month, 1900 - 2023 250 200 192 150 0 123 E 100 7$ 77 49 I I 43 50 II 14 14 23 15 0 NM2 ■ L ,an Feb Mar Apr May un Jul Aug Sep - Nov Dec Month Figure 2.17. Jefferson County monthly fire frequency from 1900 through 2023. 2.5 FIRE RESPONSE The Northwest Interagency Coordination Center in Portland, Oregon, serves as the central hub for coordinating resources, logistics, aviation support, and predictive services related to wildland fire management and suppression in the Northwest Region, encompassing Oregon and Washington. It collaborates with various state and federal agencies, such as the BLM, USFS, Oregon Department of Forestry, USFWS, BIA, WA DNR, and NPS, to ensure effective wildfire response and management (Northwest Interagency Coordination Center 2023). Jefferson County has an overall fire defense plan (Olympic Region Fire Defense Board 2021) with a stepwise process that local agencies use to summon additional resources for fire response. This process was used for the recent Beaver Valley Fire and Lake Sutherland Fire and is described in Figure 2.18. 2.5.1 LOCAL RESPONSE 2.5.1 .1 Jefferson County Fire Response Jefferson County fire response consists of seven local fire protection districts composed of four fire departments (Figure 2.19). Information regarding fire department and fire protection district equipment and personnel is available in Appendix C. Page 43 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA HOST JURISDICTION HOST JURISDICTION ICP COUNTY COORDINATOR Responds to incident Declares mutual aid P Declares resources overwhelmed, activates overwhelmed, notifies County mutual aid, Notifies Regional Coordinator' County Coordinator with situation report and ICP contact information. Notifies Local DEM. *Contact SFMO directly if unavailable i REGIONAL REGIONAL COORDINATOR COORDINATOR SFMO MOBILIZATION COORDINATOR Working with the Host Verifies resource types, Fire Chief, declares regional accepts request, activates WSP Chief or designee resources overwhelmed, Regional Fire Resource Plan. approves the request, completes the incident issues resource order Complexity Analysis and numbers, and activates Mobilization Request forms. State Fire Mobilization Plan Forms sent to WA EMD. 41v SFMO MOBILIZATION COORDINATOR WSP notifies the Regional Fire Coordinator of mission REGIONAL number, resource numbers, COORDINATOR HOST COUNTY resources mobilized and Informs HOST agency of ETA at HOST base, status of request and ETA May activate a local EOC of resources if approved, and establishes a staging area to receive the resources. Figure 2.18. Mobilization flowchart for the region. Source:Olympic Region Fire Defense Board (2021). Acronym definitions: ICP-Incident Command Post,SFMO-State Fire Marshal's Office,WA EMD-Washington State Emergency Management Division,WSP-Washington State Police. ETA-Estimate Time of Arrival, EOC-Emergency Operations Center. Local agencies use this state mobilization process to summon additional resources in cases where circumstances require it. For example,this process was employed during the Beaver Valley and Lake Sutherland fires. Page 44 Table of Contents cn oo? MO IP; 1 r Z Z y y C n �� Hg f \\_ ZV ,`U_ lL UjU CO N� a Y Ofi MLigio� }Z N N •r„it D0. t : tJfl ! »� 11k+ r Z V c v v m N = C 5 m g 0 r.• N 2 Q^ 5 O r`' o �/ /S pw • N .T. d O� t0 C W W p W W N y W r , J W O K {i • i_ i 2 2 u' a c.� N m U V o a w o o d ° Z o -Z _ r, o _ -. - 1 5 t _ =, W LLB W 0 01'l1 C 0 0 fo = i._ au— u= 4 , E U i c 0 U 0 i f a) ,- ` w yr 9! ,0" 4- 0 r' \ _ , a> ... T 6 n CAN a) c7 c _c_ N N N C m S a O iii 1 a c ; L N t, a) m 1 L N o a) (D N , 4 e d 0 '' -, ,„..._' -"'y ``__._... L to CD Q1 f tL Zcu Jefferson County Community Wildfire Protection Plan SWCA 2.5.1 .2 Fire Departments and Fire Protection Districts Please note that efforts were made to communicate with all fire departments and districts, but information about resources was not always available. East Jefferson Fire Rescue East Jefferson Fire Rescue is an "all hazards response" department whose mission is to "protect life and property while providing compassionate service that meets the needs of our varied community through prevention, education and emergency response" (East Jefferson Fire Rescue 2022). Also known as Jefferson County Fire District No. 1, this district is the largest fire and emergency medical services provider in Jefferson County. The district was established in 1872 within the incorporated city of Port Townsend, and now includes the unincorporated communities of Cape George, Chimacum, Irondale, Kala Point, Marrowstone Island, Port Hadlock, Paradise Bay, Shine, Bridgehaven, Mats Mats, Swansonville, Beaver Valley, South Point and Port Ludlow, Washington (East Jefferson Fire Rescue 2023). The district supports emergencies that include motor vehicle accidents, commercial structure fires, emergency medical response including advanced life support and basic life support response, fire suppression, marine services, fire investigation and inspection, urban interface/wildland fires, and hazardous materials spills (East Jefferson Fire Rescue 2022). Quilcene Fire Rescue The Quilcene Fire Rescue Department is a special purpose district that was founded in 1954 and has since operated as a municipal corporation. The district is dedicated to protecting the 88 square miles surrounding Quilcene and Coyle within the Olympic Peninsula. The district's goal is to provide "fire prevention services, fire suppression services, emergency medical services, and the protection of life and property within its legal boundaries" (Quilcene Fire Rescue 2023). The district is recognized by the State of Washington as Jefferson County Fire Protection District No. 2 under Title 52 Revised Code of Washington, has the authority to levy special taxes, and is governed by a three-member Board of Fire Commissioners (Quilcene Fire Rescue 2023). This Board of Fire Commissioners governs the operations of the district by determining levels of service, funding, goals, and strategic planning. In addition, they also establish policies, employ personnel, and represent the district to the public. The district is comprised of full-time staff and volunteers that support firefighting and emergency medical response capabilities. Brinnon Fire Department The Brinnon Fire Rescue Department(Jefferson County Fire Department No. 4) is a community-based organization founded in 1959 that employs both full-time fire staff and a dedicated team of volunteers to offer 24/7 support for the surrounding communities (Brinnon Fire Rescue 2023). The department protects approximately 132 square miles in the county, which contains the Olympic National Forest, U.S. Forest lands and lands managed by WA DNR, and the town of Brinnon between Olympia and Port Angeles (Jefferson County DEM 2018). The department encourages volunteers to apply to support the many stations within the district as the population surrounding Brinnon and the district's covered area increases (Jefferson County DEM 2018). Page 46 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA Discovery Bay Volunteer Fire and Rescue Discovery Bay Volunteer Fire and Rescue is "committed to training to the highest of standards so that we are always prepared to best serve our community in emergency response situations" (Discovery Bay Volunteer Fire and Rescue 2023). The department was founded in 1969 and serves Discovery Bay, Eaglemount, Crocker Lake, and surrounding areas of the Jefferson County Fire District No. 5. The department is dedicated to fire suppression, emergency medical treatment, automobile accident response, wildland fire suppression, safety education, and residential fire inspection for 500 full-time residents and 500 temporary residents (Jefferson County DEM 2018). The department staffs a volunteer fire chief, lieutenant, firefighters, emergency medical technicians, engineers, and scene support to serve the 75 square miles within the district(Discovery Bay Volunteer Fire and Rescue 2023). Clallam County Fire District No. 1 Clallam County Fire District No. 1 (CCFPD1) is headquartered in Forks, Washington, and serves the city of Forks and the unincorporated communities surrounding the town. A portion of the district is in the western part of Jefferson County, surrounding the northernmost portion of U.S. Highway 101. CCFPD1 is an all-hazards fire department that responds to wildfire, structure fires, hazardous materials incidents, motor vehicle collisions, and freshwater emergencies (via a swift water rescue team). The fire district also has formal mutual aid agreements with neighboring districts and responds to 200 to 1,500 calls each year (CCFPD1 2023). The department has one fire station in Forks and a second station in Beaver, Washington. Staff include 18 volunteer firefighters, 13 volunteer swift water rescue technicians, and eight recruits serving 6,453 residents (CCFPD1 2023). Clallam County Fire District No. 3 Clallam County Fire District No. 3 (CCFPD3) is"dedicated to excellence in serving, educating, and protecting our community through emergency medical services, fire suppression, and public education" (CCFPD3 2024). The district serves 142 square miles along a 24-mile stretch of U.S. Highway 101, just east of the Clallam County line into what was formerly a portion of Jefferson County Fire District 5. The district serves a wide variety of lands, including USFS and NPS lands in the area, farms, residential communities and housing developments, and industrial/commercial districts. The fire district also has mutual aid agreements with nearby districts, including the Clallam County Fire District No. 2. "Adding a fire station near the Hoh reservation would greatly improve response on that side of the county. Having more centralized response in the western part of the county would help a lot."—Deputy Hoagland 2.5.1 .3 Private Landowner Response A large portion of the county is privately owned and managed, including land held by timber companies. Many of these companies have response resources intended to address fires on operational lands. Rayonier owns multiple water tenders that it strategically positions on lands being actively harvested and has indicated willingness to coordinate the use of this equipment during wildfire events. In discussions with a representative from Rayonier, it was also noted that contractors have a variety of heavy equipment that may be useful during a fire (personal communication, Kate McLean, Rayonier, 2023). Page 47 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA 2.5.2 STATE RESPONSE 2.5.2.1 Washington State Department of Natural Resources Wildfire management in the state of Washington falls under the responsibility of the WA DNR. The WA DNR wildfire fighting force has access to over 1,300 trained employees ready to combat fires when necessary. This workforce comprises over 800 permanent employees and 550 seasonal employees. WA DNR's firefighting resources include approximately 120 wildland fire engines, nine helicopters, and six single-engine air tankers, all of which are contracted and available for WA DNR's firefighting efforts (WA DNR 2023b). They combat fires across more than 13 million acres of private and state-owned forest lands. WA DNR sets fire protection and safety equipment standards to support local fire districts in responding to wildfires. Additionally, they collaborate with local fire departments as well as the National Weather Service to provide fire weather forecasts and precaution levels. WA DNR employs various resources, including hand crews, engines, dozers, water tenders, helicopters, and planes, to extinguish wildfires and also engage with external entities to provide equipment and services for fire suppression (WA DNR 2023c). Management responsibilities for the state of Washington are divided amongst six upland regional offices; Jefferson County falls within the Olympic District. The Olympic District comprises diverse landscapes, including Pacific Ocean beaches and rainforest valleys. The district encompasses 371,000 acres of state forest, agriculture, urban, and conservation lands, including the Olympic Experimental State Forest. In these lands, WA DNR focuses on sustainable timber harvesting practices that consider the needs of wildlife. The district's staff also manage forest practices, oversee wildfire prevention, and lead firefighting efforts on both state and private forest lands in the region (WA DNR 2023d). The primary office for WA DNR is located in Forks, which provides foundational resources for wildland fire response in the western portion of the county. In addition, WA DNR has smaller offices in Chimacum and Port Angeles. The Chimacum station is seasonally staffed from May to September and includes one engine, and the Port Angeles station has a limited full-time staff that is supplemented during fire season. The Port Angeles station has two engines at its disposal. In the event of a large fire incident, dispatch is coordinated with other regional offices such as the Forks station to provide additional response resources (personal communications, WA DNR Olympic Region Office March 2024). The WA DNR provides live updates on wildfires for the Olympic region and other areas throughout the State on their website: https://www.dnr.wa.gov/Wildfires 2.5.3 FEDERAL RESPONSE 2.5.3.1 Bureau of Indian Affairs The BIA plays a critical role in providing wildland fire response on tribal lands through supporting local agency development, supplying equipment, and providing interagency coordination. The Division of Wildland Fire Management remains and sponsors personnel to meet interagency standards and qualifications. Additionally, the agency has seven interagency hotshot crews for firefighting. The BIA maintains a fleet of over 240 wildland fire engines and 12 aircraft to effectively respond to wildland fire and various all-risk situations across Native American communities nationally (BIA 2023). Page 48 Table of Contents Jefferson County Community Wildfire Protection Plan SVCA Hoh Indian Tribe Located 28 miles south of Forks in Jefferson County, the Hoh Indian Reservation is situated approximately 1 mile east from the mouth of the Hoh River to Ruby Beach. The tribe has acquired over 700 acres of new land, located east and adjacent to their original reservation along Lower Hoh Road and U.S. Highway 101. The Hoh Tribe currently consists of 30 homes, accommodating 120 residents, and in total there are 270 tribal members. The original reservation and western parts of the new trust lands are at low elevations near the Hoh River and the Pacific Ocean, though there are plans to relocate to an 80-acre parcel known as the Hoh Highlands, with approximately 45.3 acres south of Highway 101 (Hoh Indian Tribe 2022). Due to the looming threat of a tsunami, the entire community is in the process of relocating to higher ground within the next 6 to 7 years. The Hoh Indian Tribe does not have a fire station, leading them to depend on neighboring communities for fire response services. Unfortunately, communication with the nearest emergency response is inadequate due to their remote location. Fire incident response takes a minimum of 45 minutes to reach the Hoh Tribe's reservation, magnifying the tribe's risk to wildfire impact under conditions conducive to rapid fire spread (e.g., high wind, drought, extreme heat). Recently, they experienced a fire incident where they had to allow the structure to burn due to these communication challenges and insufficient local suppression resources to fight the fire. The severity of a wildfire for the Hoh Tribe depends on existing conditions and the availability of fire resources at the time of the incident(Hoh Indian Tribe 2022). A recently constructed fire station will now serve the Hoh Highlands, providing additional fire response capacity to meet the needs of the community. The community is extremely isolated with only one way in and out of the existing location, however, upon relocating to the new community site, ingress and egress should be improved. The new site also includes an existing facility for housing fire and other emergency management equipment and apparatus to improve the self-sufficiency of the tribe and allow for more immediate fire suppression. Quinault Indian Tribe The Quinault Indian Nation (QIN) comprises the Quinault and Queets Tribes, along with descendants of five other coastal tribes. Guided by bylaws dating back to 1922 and a constitution from 1975, the QIN places great importance on self-governance and the management of their own affairs. The Quinault Indian Reservation features rich forests, water bodies, and Pacific coastline. The Reservation supports both cultural preservation and economic growth, hosting socioeconomic values such as the Quinault Pride Seafood and the Quinault Beach Resort. With a strategic plan emphasizing unity and resilience, the QIN remains determined to overcome challenges and build a promising future (QIN 2023a). Emergency fire response within the reservation faces challenges due to the tribe's limited size, potential access issues, and roadways often affected by water inundation or other natural impacts. The QIN is exploring the possibility of establishing additional tribal fire departments to address these issues as they anticipate future growth (QIN n.d.). In compliance with the Disaster Mitigation Act of 2000, the QIN is actively updating its 2017 HMP to enhance resilience throughout its territory (QIN 2023b). The tribe is also planning to relocate to a higher elevation. Page 49 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA 2.5.3.2 U.S. Forest Service Olympic National Forest The Olympic National Forest is located in the northwestern part of Washington State on the Olympic Peninsula, a distinct geographic region surrounded by saltwater on three sides. U.S. Highway 101 runs along the west coast, the Strait of Juan de Fuca to the north, and Hood Canal and Puget Sound to the east. This 6,500-square-mile area features complex terrain with winding ridges, steep mountains, canyons, and dense forests (USFS 2024). The wildfire response strategy in the Olympic National Forest emphasizes cost-effectiveness and alignment with land and resource management goals. An "Escaped Fire Situation Analysis" is conducted for wildfires that exceed established limits, weighing suppression costs against potential resource impacts. Priorities for protection include life and property, soil productivity, endangered species habitat, fish and wildlife habitat, timber investments, and air quality. For moderate to high-intensity wildfires, the strategy is control and contain, with an emphasis on minimizing visual and environmental impacts. Fuels management and prescribed fire are employed to meet management objectives and reduce fire hazards, with a focus on air quality maintenance. Resource Advisors provide guidance on reducing equipment- related impacts and rehabilitating affected areas (USFS 2024). 2.5.3.3 National Park Service Olympic National Park Located in the center of the Washington State's Olympic Peninsula, Olympic National Park is characterized by its exceptional natural diversity, covering 922,651 acres of three distinct ecosystems, including glacier-capped mountains, extensive Pacific coastline, and ancient temperate rainforests (NPS 2008). The park's extensive river systems are home to numerous native freshwater fish species and Pacific salmon, including the federally threatened bull trout. The park also provides habitat for over 1,100 native plant species, 300 bird species, 70 mammal species, and 24 endemic species found only within the park. Numerous federally listed species can also be found within the park. With boundaries spanning rugged, mountainous terrain into the Pacific Ocean, Olympic National Park is home to coastal environments, intertidal areas, valleys, and mountain peaks (NPS 2008). The management goals and strategies for the park have been defined in the Olympic National Park General Management Plan. The plan outlines a 15-to 20-year vision focused on preserving natural and cultural resources and enhancing visitor experiences. Among the numerous key elements touched on within the plan is fire management(NPS 2008). The park's fire management approach aims to restore and maintain natural fire patterns while making necessary modifications for compliance with regulations, protection of wildlife and cultural resources, and human safety. Land managers within the park aim to use advanced technology and ongoing monitoring to enhance their fire management program, with a focus on reducing hazardous fuels near structures and cultural sites (NPS 2008). 2.5.3.4 U.S. Fish and Wildlife Service The USFWS has three primary areas of focus regarding fire management strategies, including fuels management, wildfire management, and wildfire prevention. The USFWS aims to carry out fire management and land improvements in a safe and cost-effective manner to benefit both people and the landscapes. This will be achieved through the prioritization of fuel management programs such as Page 50 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA prescribed burns, fuel treatment projects, maintaining previous projects, leveraging funding, and promoting safety and security (USFWS 2023a). Washington Maritime National Wildlife Refuge Complex Washington Maritime National Wildlife Refuge Complex is an administrative grouping of multiple National Wildlife Refuges in the State of Washington. Two refuges, the Quillayute Needles Wildlife Refuge and Protection Island, are located in Jefferson County. Quillayute Needles Wildlife Refuge is a remote and rugged area that is home to a diverse range of seabirds, including tufted puffins, common murres, and black oystercatchers. In addition to its bird populations, the refuge provides critical habitat for marine mammals like sea otters, harbor seals, and California sea lions (USFWS 2023b). Protection Island National Wildlife Refuge also houses seabirds and marine mammals, including nesting bald eagles, tufted puffins, glaucous-winged gulls, and northern elephant seals. The island serves as a critical breeding site for these species and has recovered from past damage, now thriving with wildlife (USFWS 2023b). Wildfire response for these coastal refuges is tailored to the unique challenges of their island settings (USFWS 2007). Given the remoteness and inaccessibility of the islands, initial attack actions may be limited. As a result, strategies such as monitoring from a distance or on-site, as well as confinement, may be employed. Suppression tactics and the use of certain equipment are carefully approved to minimize damage to the natural habitats and resources of the refuges, with consultation involving Resource Advisors and Agency Administrators. All fire response actions within the refuges consider factors like firefighter and public safety, resource management objectives, weather, fuel conditions, and the potential cost of these actions. The Olympic National Park has entered into an agreement with Quillayute Needles Wildlife Refuge, offering wildfire suppression assistance on refuge lands when resources permit(USFWS 2007). 2.5.4 MUTUAL AID The wildland fire community is well known for its development of mutual aid agreements at the federal, state, and local levels. Such automatic aid agreements allow for the closest resources to respond to an incident as quickly as possible regardless of jurisdiction. Such agreements may also describe how reimbursement will be conducted; state resources responding to wildfires on federal land may have their associated costs reimbursed by the responsible federal agency, and the reverse is true for federal resources suppressing a wildfire on state land. In Washington state, mutual aid agreements are highly encouraged by the legislature to ensure public safety, health, and the protection of people's lives and property. There are two types of mutual aid agreements: Emergency Proclamation Mutual Aid, activated during a state of emergency declared by the governor, and Local Agency Mutual Aid, used in the absence of such a proclamation. Both agreements involve tribes and have cost recovery provisions (Washington State Department of Transportation [WSDOT] 2023). Mutual aid facilitates the mobilization of various resources, including fire services, transportation, and emergency management, across the state. The Washington state fire services mobilization plan outlines the framework for large-scale resource mobilization and grants the chief of the Washington state patrol the authority to implement this plan. The chief can activate fire resources under specific conditions, such as when the local mutual aid network is exhausted; there's a threat to life, property, or natural resources; local resources are insufficient; and the fire has significant statewide or even international implications (Washington State Fire Marshal's Office 2023). n Page 51 Table of Co tells Jefferson County Community Wildfire Protection Plan SWCA Jefferson County has multiple mutual aid agreements in place to ensure a robust response is on hand in any situation, and East Jefferson Fire Response has agreements with Kitsap and Clallam Counties and Quilcene Fire Rescue. Quilcene Fire Rescue maintains agreements with Kitsap and Clallam Counties, as well as a forest land agreement with WA DNR. The Brinnon Fire Department has mutual aid agreements with Mason, Kitsap, and Clallam Counties. Fire response in the region is coordinated through the Northwest Interagency Coordination Center which monitors fire activity and dispatches response resources across the state. The center is responsible for allocating federal hotshot crew and aviation resources to fires on federal and state lands in Jefferson County. Additionally, WA DNR maintains a regional dispatch for the Olympic Peninsula based out of Forks. WA DNR is responsible for wildfire mitigation efforts and incident response on state- and privately owned lands. Many timber companies additionally maintain some degree of response resources for addressing incidents on their land. Generally, these companies are willing to provide these resources to neighboring lands if it will aid in a strategic response, especially if the fire has spread from their privately owned lands. 2.5.5 EMERGENCY NOTIFICATIONS AND EVACUATION The safe and efficient evacuation from wildfire involves several factors, including: • Public Alert and Warning: Jefferson County DEM (2023) has implemented a countywide notification system in cooperation with its municipalities. The Jefferson County Emergency Notification System allows residents to register phone numbers and emails to receive alerts. This allows county and municipal emergency agencies to rapidly communicate information regarding severe weather and disasters, evacuation notices, road closures, and any other relevant emergency information (Jefferson County DEM 2023). Because a portion of the local population lacks access to cell phones, the county is exploring alternative communication methods, such as ham radio, to ensure effective outreach and information dissemination. Other pathways for informing the community during an emergency are the local radio stations, WSDOT email alerts, social media, etc. (Jefferson County DEM 2023). • Public Awareness: Through public outreach and education, agencies should encourage the community to sign up for emergency notifications, know their emergency evacuation zone, and plan for emergencies. 2.5.5.1 Evacuation Resources The Jefferson County comprehensive plan discusses the importance of evaluation of existing subdivisions for evacuation routes and future planning needs, particularly in wildfire-prone areas, and emphasizes collaboration with the Jefferson County DEM to prioritize roadway improvements. Additionally, the plan calls for evaluations of how new developments may impact emergency response (Jefferson County 2023a). Housed within the annexes of the Jefferson County—City of Port Townsend All Hazard Mitigation Plan is the Jefferson County Evacuation Plan, outlining the scope and purpose of evacuation procedures within the County. The plan defines the authorities, emphasizing that an evacuation order serves as a formal notice for their protection. Law enforcement and incident command agencies are responsible for implementing and coordinating evacuation, with a focus on minimizing risk, protecting lives, and communicating warnings effectively. The plan also addresses various evacuation levels, warning methods, destination points, transportation considerations, and re-entry planning levels. Additionally, Page 52 able of Contents Jefferson County Community Wildfire Protection Plan SWCA it emphasizes the importance of assisting vulnerable populations and ensuring the safety of emergency responders during evacuation (Jefferson County DEM 2016). The Jefferson County DEM website provides information and resources related to evacuation and emergency response in the Jefferson County area of Washington. The website outlines the department's primary objectives, such as public education, coordination, field operations, and activation of the Emergency Operations Center during emergencies (Jefferson County 2023a). Included on the website is a Wildland-Interface Fire Evacuation Plan pamphlet, providing essential homeowner guidelines for mitigative actions and evacuation preparedness for wildfire incidents (Jefferson County 2023a). The Jefferson County DEM website can be accessed here: https://www.co.jefferson.wa.us/950/Dept-of- Emergency-Management While the fire department plays a vital role in managing and responding to fires, it is not the role of the fire chief nor other fire department staff to personally guide neighborhood evacuations. Residents are encouraged to stay informed on local evacuation protocols, practicing individual preparedness and timely response in the event of an evacuation. These actions significantly contribute to community safety. For more information, see Appendix K, Evacuation Recommendations. Jefferson County worked with Ladris to run simulations of wildfire evacuation scenarios to plan for emergency management and promote community awareness. 2.5.5.2 Emergency Notification The Jefferson County DEM webpage hosts a tab dedicated to emergency alerts and warnings for disasters or other incidents requiring public notification. Through this website, residents are encouraged to stay informed and prepared for emergency conditions through various resources. Requiring no sign-up and broadcasting alerts through a variety of channels, the Emergency Alert System (EAS) serves as a national warning system that provides alerts for local weather emergencies. Residents are encouraged to sign up to receive emergency alerts via text, voice message, and email from the Jefferson County DEM, which can be done on the"Alerts &Warnings" tab of the Jefferson County DEM webpage. Local radio stations like KPTZ 91.9 FM, KROH 91.1 FM, and KIRO 97.3 FM play a vital role in communication efforts and can be useful tools for residents responding to emergency events. Additionally, WSDOT offers specialized email alerts on traffic conditions, mountain pass reports, and construction updates by region to keep residents informed about transportation-related emergencies. Please visit the following webpage to sign up for Jefferson County Emergency Alerts and learn more about alerts within the county: https://www.co.jefferson.wa.us/1066/Alerts-Warnings 2.5.5.3 Animals and Livestock In the event of a wildfire, it is important that residents, fire responders, and Jefferson County DEM have a plan for evacuation of pets and livestock. While creating evacuation plans, residents should take into consideration the time needed to load livestock into stock vehicles and evacuate during a wildfire incident. A local livestock animal team composed of volunteers assists with livestock evacuation in the areas, conducting simulated exercises to ensure proper execution and animal safety in the event of a disaster (personal communication, Fire Chief Tim Manly, 2023). There is also a need to pre-identify where animals can be taken for large animal shelter. Similarly, locations where small animals such as dogs and cats are picked up in the fire area should be pre- identified, as well as the lead agencies coordinating this work. Page 53 Table of Contents Jefferson County Community Wildfire Protection Plan SWicA Washington State Department of Natural Resources Emergency Preparedness: Pets The WA DNR's guidance for pet owners in disaster preparedness is designed to protect the lives of pets and enhance the safety of disaster response efforts. Before a disaster has taken place, WA DNR recommends that homeowners carry out the following actions (WA DNR 2023e): • Ensure your pets have proper identification (microchip if possible). • Identify safe places to take your pets, such as pet-friendly hotels or the homes of friends or relatives outside the area. • Create a pet emergency kit with food, water, medications, and veterinary records. • Make plans with a trusted person to evacuate your pets or set them up with necessary supplies if you are not home during a disaster. • Identify safe locations within your house for your pets in case of an emergency is advised. During disasters pet owners are advised to evacuate with their animals whenever possible to ensure their well-being. It is crucial to check for wild animals around your property as disasters can disorient them, potentially causing them to seek refuge nearby. Additionally, the WA DNR recommends separating animals as one distraught pet's behavior during disasters can cause usually relaxed pets to become agitated (WA DNR 2023e). After a disaster, the WA DNR recommends keeping pets close and secured when evacuating, as they may become anxious. Upon returning home, it is recommended that pet owners help their pets adjust to a normal routine, preparing for potential behavioral issues stemming from the stress of the disaster and consulting a veterinarian if the issue persists (WA DNR 2023e). 2.5.6 WATER AVAILABILITY AND SUPPLY In Jefferson County, water availability and supply for wildfire management are primarily managed through a combination of public and private water distribution systems. These water systems have emergency plans and procedures in place for responding to emergencies and are coordinated with broader emergency response plans (Jefferson County DEM 2016). The goals and policies related to water resources within the Jefferson County comprehensive plan aim to ensure a sustainable and safe water supply while protecting the quality and quantity of surface, ground, and marine water resources (Jefferson County DEM 2018). Jefferson County Public Utility District follows Jefferson County Ordinance No. 134, which dictates the location and placement of fire hydrants. Additionally, they ensure that fire hydrant installations and flow requirements adhere to the specifications and standards outlined in the same ordinance's current revision. This approach ensures that fire hydrants are strategically located and meet the necessary standards to support firefighting efforts effectively within the jurisdiction (Jefferson County Public Utility District 2023). The majority of communities within Jefferson County are equipped with fire hydrants that meet county codes (personal communication, Fire Chief Tim Manly, 2023). Examples of additional water supply sources in Jefferson County include boating docks along with water from the ocean and nearby ponds. Increasing human demand for groundwater, particularly during severe droughts, can lead to declining groundwater levels in certain areas, affecting water availability and the health of vegetation. The past practice of straightening rivers and streams has caused channels to incise and function as a drainage ditches, thereby reducing the groundwater in some areas. Groundwater levels may be enhanced by Page 54 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA implementing restoration actions to restore the "large wood cycle" and by re-introducing beavers where feasible, especially on public lands (Collins et al. 2012). Under extreme drought conditions, drained and desiccated peat or muck soils could become flammable. Once ignited, such fires are often very difficult to extinguish (Watts and Kobziar 2013). Page 55 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA This page intentionally left blank. Page 56 Table of Contents :11" 4 .. * naew. wl�It ( s{s . CHAPTER 3 - WI INTERFACE RISK AND HAZARD Disclaimer The purpose of the risk assessment process described herein is solely to provide a community and landscape-level overview of general wildfire risks within County as of the date hereof, and to provide a potential resource for community pre-fire planning. This risk assessment process is premised on various assumptions and models which include and are based upon data, software tools, and other information provided by third parties (collectively, "Third-Party Information and Tools"). SWCA, Incorporated, doing business as SWCA Environmental Consultants (`SWCA') relied on various Third-Party Information and Tools in the preparation of this plan, and SWCA shall have no liability to any party in connection with this plan including, without limitation, as a result of incomplete or inaccurate Third-Party Information and Tools used in the preparation hereof. SWCA hereby expressly disclaims any responsibility for the accuracy or reliability of the Third-Party Information and Tools relied upon by SWCA in preparing this plan. SWCA shall have no liability for any damage, loss (including loss of life), injury, property damage, or other damages whatsoever arising from or in connection with the risk assessment products contained herein, including any person's use or reliance on the information contained in those risk assessment products. Any reproduction or dissemination of the risk assessment products or any portion hereof shall include the entirety of this plan disclaimer. 3. 1 PURPOSE CWPPs utilize wildfire risk and hazard analysis in order to guide wildfire mitigation efforts in the WUI and vulnerable landscapes. Although many definitions exist for hazard and risk, for the purpose of this document these definitions follow those used by the firefighting community: Risk is defined as the chance of a fire starting as determined by the presence and activity of causative agents (National Wildfire Coordinating Group [NWCG] 1998). Page 57 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA Fire Hazard is defined as the potential fire behavior or fire intensity in an area, given the type(s) of fuel present— including both the natural and built environment—and their combustibility (NWCG 1998). The Jefferson County CWPP utilizes two separate methodologies for determining risk and hazard: field assessments that consider structural ignitability at a communityscale (Section 3.2) and desktopmodeling Y that integrates fire behavior analysis at a broader landscape scale based on wildland fuels (Section 3.3). The field assessments (see Appendix C), using NFPA Structure Ignition Form 1144, evaluate structural hazards on a community scale through direct observation by trained personnel, resulting in an overall community risk rating. In contrast, the desktop analysis results in a Composite Risk-Hazard Model which illustrates potential wildfire behavior in wildland fuels on a countywide scale using established fire behavior models and GIS tools, relying on national data sources like LANDFIRE. These two methods inform development of the CWPP at differing scales, but are separate from each other. Using these methods, land managers, fire officials, planners, and others can begin to prepare strategies and methods for reducing the threat of wildfire, as well as work with community members to inform them about methods for reducing the damaging impacts of fire. The fuels reduction treatments can be implemented on both private and public land, so community members have the opportunity to actively apply the treatments on their properties, as well as recommend treatments on public land. The Jefferson County—City of Port Townsend All Hazard Mitigation Plan recognizes wildfire occurrence as an annual threat, exacerbated by heavy fuel loads, highly susceptible topography, and critical weather conditions (Jefferson County DEM 2016). 3.2 FIELD ASSESSMENTS Field assessments were conducted using the NFPA Wildland Fire Risk and Hazard Severity Form 1144 (see Appendix C). The NFPA standard focuses on individual structure hazards and requires a spatial approach to assessing and mitigating wildfire hazards around existing structures. The purpose of the field assessments and subsequent ratings is to identify fire hazards and risks at a community scale and prioritize areas requiring mitigation and more detailed planning. Each community was rated based on conditions within the community and immediately surrounding structures, including access, vegetation (fuels), defensible space, topography, roof and building characteristics, available fire protection, and placement of utilities. Each score was given a corresponding rating of low, moderate, high, or extreme, as described in Appendix C. It is important to note that the WA-WUI map does not contribute to the field assessment process or community ratings described in Appendix C in any way. The WA-WUI map was developed at a state scale using different assessment parameters. Field assessments for Jefferson County were conducted in September 2023. The full community-at-risk hazard ratings from the field assessments are provided in Appendix C. Page 58 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA 3.3 COMPOSITE RISK-HAZARD MODEL INPUTS 3.3.1 FIRE BEHAVIOR MODELING APPROACH The wildfire environment consists of three factors that influence the spread of wildfire: fuels, topography, and weather. Understanding how these factors interact to produce a range of fire behavior is fundamental to determining treatment strategies and priorities in the WUI. In the wildland environment, vegetation is synonymous with fuels. When sufficient fuels for continued combustion are present, the level of risk for those residing in the WUI is heightened. There are three primary modes of fire spread: surface fire spread (e.g., grasses and shrubs), crown fire (e.g., ladder fuels), and spotting (embers) (Figure 3.1). Surface fire spread occurs at ground level, crown fire spreads through the upper forest canopy, and spotting involves the transportation of embers ahead of the main fire. For this plan, an analysis of fire behavior has been carried out using well-established fire behavior models: FARSITE, FlamMap, BehavePlus, and FireFamily Plus housed within the Interagency Fuel Treatment Decision Support System (IFTDSS), as well as ArcGIS Desktop Spatial Analyst tools. Data used in the Composite Risk-Hazard Model is largely obtained from LANDFIRE. Page 59 Table of Contents C d c O .0 U CO O L CD ca 0. 25 iiJ d L N Q se R3 .0 0 L tn us F� L d cc sr Of uS d oo R cn a) R cat• tr_ 0 U N v o c 2 h Cv 'O p 0) y m r N '§z,= 03 oak L N 2 _ai o Q...) aD m CO .m 9 mo 1' r m a) ' 0 co 0 Q. E U O. N c c _ c co N 'w Q) 7 m .- • a) - L w 8 ,Y O _c y s N '0 3 j 0 c cu E . c o a ?' �, v v) 4a aQ a c E 0 0 In a) N ' L d a) = ' $ ..+ m 0 ` M t W Q ...- L U ,., C1 m m Jefferson County Community Wildfire Protection Plan SVVCA 3.3.2 FIRE BEHAVIOR MODELING PLATFORMS 3.3.2.1 LANDFIRE LANDFIRE is a national remote sensing project that provides land managers a data source for all inputs needed for FARSITE, FlamMap, and other fire behavior models. The database is managed by the USFS and the U.S. Department of the Interior. More information can be obtained from http://www.landfire.gov. 3.3.2.2 FARSITE FARSITE is a computer model based on Rothermel's spread equations (Rothermel 1983). FARSITE uses spatial data on fuels, canopy cover, crown bulk density, canopy base height, canopy height, aspect, slope, elevation, wind, and weather to model fire behavior across a landscape. Information on fire behavior models can be obtained from http://www.fire.orq. 3.3.2.3 FlamMap Like FARSITE, FlamMap uses a spatial component for its inputs but only provides fire behavior predictions for a single set of weather inputs. In essence, FlamMap gives fire behavior predictions across a landscape for a snapshot of time; however, FlamMap does not predict fire spread across the landscape. FlamMap has been used for the Plan to predict fire behavior across the landscape under extreme (97% worst case)weather scenarios. 3.3.3 FIRE BEHAVIOR MODEL INPUTS 3.3.3.1 Fuels The fuels in Jefferson County are classified using Scott and Burgan's (2005) Standard Fire Behavior Fuel Model classification system. This classification system is based on the Rothermel surface fire spread equations, and each vegetation and litter type is broken down into 40 fuel models. The general classification of fuels is by fire-carrying fuel type (Scott and Burgan 2005): • (NB) Non-burnable • (TU)Timber-Understory • (GR) Grass • (TL) Timber Litter • (GS) Grass-Shrub • (SB) Slash-Blowdown • (SH) Shrub Table 3.1 provides a description of each fuel type included in Jefferson County. Figure B.1 in Appendix B illustrates the fuels classification throughout the county. It is important to note that due to limitations of the fuel model classification system, areas that are under active timber management may be classified as non-burnable, which does not accurately reflect fire behavior known to occur in these fuel types. As a result, fire behavior modeling in these areas may underpredict the potential fire behavior parameters—flame length and rate of spread. The Advisory Group is aware of this limitation but accepts that these are the best available data at the time of writing. The Advisory Group has included recalibration of fuel models as a project for the next revision of the CWPP. Page 61 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA Table 3.1. Fuel Model Classification for the Jefferson County Planning Area 1. Nearly pure grass and/or forb type(Grass) i. GR1: Grass is short, patchy, and possibly heavily grazed. Spread rate is moderate(5-20 chains/hour); flame length low(1-4 feet);fine fuel load (0.40 ton/acre). ii. GR2: Moderately coarse continuous grass, average depth about 1 foot. Spread rate high (20-50 chains/hour);flame length moderate(4-8 feet);fine fuel load (1.10 tons/acre). 2. Mixture of grass and shrub,up to about 50%shrub cover(Grass-Shrub) i. GS1: Shrubs are about 1-foot high, low grass load. Spread rate moderate(5-20 chains/hour); flame length low(1-4 feet);fine fuel load (1.35 tons/acre). ii. GS2: Shrubs are 1-3 feet high, moderate grass load. Spread rate high (20-50 chains/hour);flame length moderate(4-8 feet);fine fuel load (2.1 tons/acre). 3. Shrubs cover at least 50%of the site; grass sparse to non-existent(Shrub) SH1: Low fuel load, depth about 1 foot, some grass fuels present. Spread rate very low (0-2 chains/hour);flame length very low(0-1 feet). ii. SH2: Moderate fuel load (higher than SH1), depth about 1 foot, no grass fuels present. Spread rate low (2-5 chains/hour);flame length low(1-4 feet); fine fuel load (5.2 tons/acre). iii. SH3: Moderate shrub load. Fuel bed depth 2-3 feet. Spread rate low(2-5 chains/hour),flame length low (1-4 feet). iv. SH6: Dense shrubs, little to no herb fuels. Fuel bed depth about 2 feet. Spread rate high (20-50 chains/ hour);flame length high (8-12 feet). 4. Grass or shrubs mixed with litter from forest canopy (Timber-Understory) i. TU1: Low load of grass and/or shrub with litter. Spread rate low(2-5 chains/hour);flame length low (1-4 feet); fine fuel load (1.3 tons/acre). ii. TU2: Moderate litter load with shrub component. Spread rate moderate(5-20 chains/hour);flame length low(1-4 feet). iii. TU3: Moderate litter load with grass and shrub components. Spread rate high (20-50 chains/hour);flame length moderate (4-8 feet). iv. TU5: High load conifer litter with shrub understory. Spread rate moderate(5-20 chains/hour);flame length moderate(4-8 feet). 5. Dead and downed woody fuel(litter)beneath a forest canopy(Timber Litter) i. TL1: Low to moderate load,fuels 1-2 inches deep. Spread rate very low(0-2 chains/hour);flame length very low(0-1 foot). ii. TL2: Low load, compact. Spread rate very low(0-2 chains/hour);flame length very low(0-1 foot). iii. TL3: Moderate load. Spread rate very slow(0-2 chains/hour);flame length low(1-4 foot); fine fuel load (0.5 ton/acre). iv. TL4: Moderate load. Spread rate very slow(0-2 chains/hour);flame length low(1-4 foot). v. TL5: High load conifer litter. Spread rate slow(2-5 chains/hour);flame length low(1-4 foot). vi. TL6: Moderate load. Spread rate moderate(5-20 chains/hour);flame length low(1-4 foot). vii. TL7: Heavy load. Spread rate slow(2-5 chains/hour);flame length low(1-4 foot). viii. TL8: Long needle litter; long needle fuel. Spread rate moderate (5-20 chains/hour);flame length low (1-4 feet). ix. TL9: Very high load fluffy dead and downed fuel littler. Spread rate moderate (5-20 chains/hour);flame length moderate(4-8 feet). Page 62 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA 6. Insufficient wildland fuel to carry wildfire under any condition(Non-burnable) i. NB1: Urban or suburban development; insufficient wildland fuel to carry wildfire. ii. NB2: Snow/ice. iii. NB3: Agricultural field, maintained in non-burnable condition. iv. NB8: Open water. v. NB9: Bare ground. 7. Activity fuel(slash)or debris from wind damage(blowdown)(Slash-Blowdown) i. SB1: Fine fuel load is 10 to 20 tons/acre,weighted toward fuels 1 to 3 inches diameter class, depth is less than 1 foot. Spread rate moderate(5-20 chains/hour); flame length low(1-4 feet). Notes: Based on Scott and Burgan's(2005)40 Fuel Model System. 3.3.3.2 Topography Topography plays a vital role in shaping fire behavior as it encompasses several key factors. The steepness of slopes significantly influences how a fire progresses, as steeper slopes can accelerate the spread of flames due to increased fuel availability and the potential for fire to travel uphill more rapidly. Assets close to steep The aspect, which refers to the direction a slope faces, also impacts fire behavior by influencing the amount of slopes and dense fuel sunlight received and the moisture levels in the loads have the highest vegetation. Variations in elevation contribute to variations risk of loss. in temperature, which in turn affect fuel moisture content and atmospheric stability, further influencing fire behavior. Additionally, landscape features such as canyons, ridges, and valleys can channel winds, potentially affecting fuels and intensifying fire behavior by directing flames and increasing the rate of fire spread. Understanding and considering these topographic factors are crucial for assessing fire risk, predicting fire behavior, and implementing effective wildfire management strategies. 3.3.3.3 Weather Of the three fire behavior components, weather is the most likely to fluctuate. As downslope winds from the Olympic Mountains and rising temperatures dry fuels in the spring and summer, conditions can deteriorate rapidly, creating an environment that is susceptible to wildfire. Fine fuels (grass and leaf litter) can cure rapidly, making them highly flammable in as little as 1 hour following light precipitation. Low live fuel moistures of shrubs and trees can significantly contribute to fire behavior in the form of crowning and torching. With high winds, grass fires can spread rapidly, engulfing communities, often with limited warning for evacuation. The creation of defensible space is of vital importance in protecting communities from this type of fire. For instance, a carefully constructed fuel break placed in an appropriate location could protect homes or possibly an entire community from fire. This type of defensible space can also provide safer conditions for firefighters, improving their ability to suppress fire and protect life, property, and the environment. One of the critical inputs for FlamMap is the fuel moisture files. The initial run of the Composite Risk- Hazard Model utilized the IFTDSS Auto 97th modeling parameters, which integrate historic fire weather data from nearby remote automated weather(RAW) stations. Page 63 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA 3.3.4 FIRE BEHAVIOR MODEL OUTPUTS The following is a discussion of the fire behavior outputs from IFTDSS. 3.3.4.1 Flame Length Figure B.2 in Appendix B illustrates the flame length classifications for Jefferson County. Flame lengths are determined by fuels, weather, and topography. Flame length is a particularly important component of the Risk-Hazard Model because it relates to potential crown fire (particularly important in timber areas) and suppression tactics. Direct attack by hand lines is usually limited to flame lengths less than 4 feet. In excess of 4 feet, indirect suppression is the dominant tactic. Suppression using engines and heavy equipment will move from direct to indirect with flame lengths in excess of 8 feet. Flame lengths across the county range from 0 to more than 25 feet. The highest flame lengths are associated with the timber fuels found in the higher elevations of the county. It is important to note that due to limitations of the fuel model classification system, areas that are under active timber management may be classified as non-burnable, which does not accurately reflect fire behavior known to occur in these fuel types. As a result, fire behavior modeling in these areas may underpredict the potential fire behavior parameters—flame length and rate of spread. The Advisory Group is aware of this limitation but accepts that these are the best available data at the time of writing. The Advisory Group has included recalibration of fuel models as a project for the next revision of the CWPP. 3.3.4.2 Suppression Difficulty Index Figure B.3 in Appendix B shows the level of difficulty in performing fire control work on the landscape. The index considers topography, fuels, expected fire behavior under severe fire weather conditions, firefighter line production rates in various fuel types, and accessibility (distance from roads/trails). 3.3.4.3 Slope and Rate of Spread Figure B.4 in Appendix B illustrates the rate of spread classifications for the county. The rate of spread, or the speed with which fire moves away from the point of origin, is influenced by the slope. Fire moves at a faster rate uphill than downhill, thus the steeper the slope the faster the rate of spread. Additionally, steep slopes bring the fuels above the fire closer to a growing fire, making them more susceptible to ignition. Another issue with steep slopes is the possibility of burning debris rolling down the hill and igniting fuel below the main fire. This is illustrated in Figure 3.2. The rates of spread in the area range from 0 up to greater than 150 chains/hour(one chain is approximately 66 feet and is a common measure in wildland firefighting). Low rates of spread are associated with timber-dominated areas, while moderate and high rates of spread are associated with grass and shrub fuels and riparian vegetation. Page 64 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA Slope and Rate of Spread Slope influences fire behavior Faster ignition and spread 'Fx�xxt k i 4. d kV i t 1 Fresh air Burning debris rolling down rz `' slope v _� Figure 3.2. Demonstration of the effect of topography and wind patterns on fire behavior. 3.3.4.4 Crown Fire Potential Figure B.5 in Appendix B illustrates the range of crown fire activity from surface fire (in grass-dominated areas) to Surface fires burn on the passive and active crown fire (in timber-dominated fuels). ground (in grasses, shrubs, small trees, etc.) 3.3.4.E Burn Probability and are more receptive to Figure B.6 in Appendix B shows the likelihood of a given control through location on the landscape burning. Burn probabilities suppression efforts. consider the size and frequencies of fires that occur on a Crown fires spread given landscape as well as the rate of spread and weather through the canopy of conditions. trees and are extremely difficult to control. 3.3.4.6 Composite Risk-Hazard Removing ladder fuels Modeling Process and reducing fuel loads Our Composite Risk-Hazard Model uses various inputs, before a fire ignites is the which can be categorized into wildfire hazards and best way to lower the risk potential loss of valued assets. These inputs contribute to of crown fires. a raster data layer that assesses risk through weighting and summation. Hazard data sets consist of historical weather data, topography, vegetation, and fuel regimes. Threat data sets encompass ember exposure zones, burn probability, and fire history. Lastly, the values category includes data for the WUI, critical infrastructure, and natural, cultural, and socioeconomic assets. Page 65 Jefferson County Community Wildfire Protection Plan SWCA SWCA utilized the IFTDSS application to generate a landscape file for the county, incorporating various LANDFIRE data sets (fuels, slope, elevation, and aspect) into a single layer(Figure 3.3). Advisory Group input was used to refine the fuels model, resulting in customized fire behavior outputs. Subsequently, in Esri ArcGIS Pro, SWCA combined the fire history, fire station, WUI, suppression difficulty, and highly valued resource and asset (HVRA) data sets. Finally, to assess risk, a weighted sum raster process was conducted in ArcGIS Pro, assigning weights based on significance and Advisory Group input. All 10 inputs were given equal weight due to their potential impact to wildfire risk. Fire Behavior Weather DataFire Weather Crown Fire Activity (daily,10+years) Parameters (wind speed Flame Length Topography(slope, and direction) Rate of Spread aspect,elevation) Burn Probability Landscape File Vegetation Regimes and Ember Zone Fuel Models In IFTDSS Fire History 4 (burn areas) Fire Perimeters. 1.ortl oslte Fire Stations Vegetation/Fuels-based or Population and Infrastructure-based Wildland Urban "" 1E1= Interface WUl "` <; ( ) Composite Risk` Assessment and , Reclassed MI= Highly Valued (Categorized) ' Resources orAsse ,. Risk Assessment '- , Socio-economic Assets Suppression Difficulty Figure 3.3. Composite Risk-Hazard Model breakdown. The distance from the nearest fire station(s) to the community typically determines fire response times, and the level of suppression difficulty impacts effectiveness and feasibility of suppression efforts. The WUI and HVRAs designate areas that constitute life, property, and critical infrastructure. Lastly, fire occurrence, ember exposure, burn probability, and fire behavior characteristics (crown fire activity, flame length, and rate of spread) determine where a fire is likely to occur and the type, intensity, and speed at which the fire will spread. It is important to note that information gathered during the field assessments is not used in the Composite Risk-Hazard Model. Only data gathered through the desktop analysis process is included. Page 66 Table of Contents Jefferson County Community Wildfire Protection Plan S\CA 3.4 COMPOSITE RISK-HAZARD MODEL RESULTS Figure 3.4 illustrates the individual data sets and the relative weights assigned within the modeling framework. Table 3.2 shows the same data sets and weights but includes the data source. These include fire behavior parameters, HVRAs, WA-WUI, fire history, suppression difficulty index, burn probability, and distance from fire stations. Approximately 50 percent of the weight accounts for wildfire hazards and 50 percent accounts for resources and assets at risk, using HVRA and the WUI communities' data layers to indicate the location of community values exposed to wildfire. Without the inclusion of these resources and asset layers, the modeling approach would only yield wildfire hazard, not risk. Figure 3.5 is the Composite Risk-Hazard Model for Jefferson County and classifies the county into low, moderate, high, and extreme risk categories. Overall, the Composite Risk-Hazard Model (see Figure 3.5) shows high and extreme risk areas along the eastern portion of the county, with extreme risk areas particularly concentrated along the Puget lowlands on the eastern coast in the communities of Port Townsend, Irondale, Port Hadlock, Chimacum, and Quilcene. Due to the resolution of the data used in the modeling process, the Composite Risk-Hazard Model is not designed to be used to determine risk to individual parcels. Burn Probability Crown Fire Activity Rate of Spread Flame Length 10% 514 5% 15% • • Suppression Difficulty Index Fire Occurrence Density , 5% 15% Composite Risk Hazard Model Highly Valued Resources&Assets Wildland Urban Interface Fire Stations Drive Times 10% 40% 5% Figure 3.4. Composite Risk-Hazard Model overlay process. Page 67 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA Table 3.2. Composite Risk-Hazard Model Inputs, Sources, and Weights Inputs Source Weight WUI WA DNR 40% HVRAs Jefferson County GIS and IFTDSS 10% Burn probability IFTDSS, LANDFIRE 10% Flame length IFTDSS, LANDFIRE 5% Rate of spread IFTDSS, LANDFIRE 5% Crown fire activity IFTDSS, LANDFIRE 5% Fire station drive time* Fire station data from fire protection districts/fire departments 5% Suppression difficulty index NIFC 5% Fire occurrence density IFTDSS, LANDFIRE, and SWCA 5% Note: IFTDSS and LANDFIRE are federal databases for fire planning. *Distance from fire stations was partitioned in 5-minute(rated 0), 10-minute(rated 1). 15-minute(rated 2), and>15-minute(rated 3) drive time intervals. SWCA used the Esri tool—generate service areas—and configured the analysis for access for emergency vehicles. Washington Department of Natural Resources (WA DNR) Revising WA-WUI Layer The WA DNR is in the process of revising the WA-WUI map, per Senate Bill 6120. This process is expected to be concluded in 2025. Information on the Bill can be found on the Washington State Legislature website: During the development of the Composite Risk-Hazard Model, stakeholders in the Advisory Group identified some limitations with the WA-WUI map developed by WA DNR. These limitations are being adjudicated through the SB 6120 process. However, at the time of development of the CWPP, the Advisory Group determined that the WA-WUI map is the best available data to inform the CWPP and therefore the current WA-WUI classification should continue to be used in this iteration of the plan. Upon conclusion of the SB 6120 process, and release of a revised WA-WUI map by WA DNR, the Advisory Group will evaluate the current Composite Risk-Hazard Model and will revise the model as needed. It is important to note that the classification of WUI for any community is a complex process comprising many spatially derived data sets, each with inherent imperfections. However, the Advisory Group is unified in seeing the value of the current WA-WUI map as a tool for education and communication for this iteration of the CWPP planning process. The CWPP is a live document and all data layers used in the development of the plan will be continually evaluated and updated as new and improved data becomes available. Page 168 Table of Contents 0zz y c N ` Y O 2 Z T 23 g IP Y�� V` r 15 o N Om� 40 0,,,‘ V o 2 S To U cn r:i� � �/wy SE I-- =w ♦+ O a m C T 2 m E z O U ce N T L 'C 3 L 3 -0 L N ' e O ZO d O -0 ,-.. 2 S. U N O 0 01 X r �= Q� U = a. c.) m 2 S w a o0 ,^ r. a. O �11',4 k za' W ` _ CD Q t4 + ± !1 U T I L _ L i-= E o ^ p i Q �+r #... , � 2 cn • 3 Y r w f ) f- C 7 'w"£Y,r ,?"c 1. 3s` ... r 0 ay .,� r O fn i 1-. ii , 4 3� t CD 0 N CCI 2 Y 0 ii to O U ul M rn 3 LL a Jefferson County Community Wildfire Protection Plan SWCA 3.5 COMMUNITY VALUES Earlier compilation of the critical infrastructure in the county, coupled with the community assessments, public outreach, and Advisory Group input, has helped in the development of a list of community values that may be exposed to wildfire. These data are also supplemented with HVRA data, which is a data set that is being gathered nationwide and available through the IFTDSS. In addition to critical infrastructure, other community values exposed to wildfire can include natural, social, and cultural resources. It is important to note that although an identification of values potentially exposed to fire can inform treatment recommendations, a number of factors must be considered in order to fully prioritize areas for treatment; these factors include appropriateness of treatment, land ownership constraints, locations of ongoing projects, available resources, and other physical, social, or ecological barriers to treatment. Page 70 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA 3.5.1 NATURAL VALUES Jefferson County contains a wide variety of natural resources, including rare habitats and listed species (see Table 1.3 in Chapter 1); parks and open spaces owned by city, state, federal, and private entities; waterways; and other important natural areas and resources (Figure B.8 in Appendix B). A majority of the county is publicly owned, with 75% of land falling under the jurisdiction of the NPS, Washington State Parks, Department of Fish and Wildlife, WA DNR, and other public entities (Jefferson County Parks and Recreation 2022). Public outreach throughout the county has emphasized the importance of protecting natural/ecological values to the general public (Figure 3.6). The county manages a combined 1,151 acres of parks and open space. Examples of natural values and places identified by the public, Advisory Group, and previous planning efforts include the following: • Local and regional parks o Elwha-Dungeness Watershed o Indian Island County Park and Trial • NPS lands o Gibbs Lake County Park o Olympic National Park o Cape George Trailhead • USFS lands o Irondale Community Park o Buckhorn Wilderness o Chimacum County Park o The Brothers Wilderness o H.J. Carroll County Park and Trail o Colonel Bob Wilderness o Oak Bay County Park o Broad Spit County Park • Washington State Parks Lands Jefferson Land Trust protected o Anderson Lake State Park • properties: o Kinney Point State Park o Chimacum Creek watershed o Fort Flagler State Park o Chimacum Ridge Community Forest o Fort Worden Historical State Park o Illahee Preserve o Fort Townsend Historical State Park o Quimper wildlife corridor o Dosewallips State Park o Duckabush Riparian Forest and o Triton Cave State Park Duckabush Oxbow and Wetland o Pleasant Harbor State Park Preserve o Triton Cove State Park o Dabob Bay and Tarboo Valley o Mystery Bay State Park • Tamanowas Rock Sanctuary • Washington Department of Fish and Outdoor recreation areas Wildlife—managed lands: • o Chimacum Wildlife Area o Scenic viewsheds o Trail systems o Discovery Bay wildlife Area o Scenic rural areas o Tarboo Wildlife Area o North Olympic Wildlife Area • Watershed Resource Inventory Areas o Duckabush Wildlife Area o Quilcene—Snow Watershed • Wildlife critical habitats o Skokomish — Dosewallips Watershed 0 Bull trout o Sol Duc— Hoh Watershed 0 Chinook salmon o Queets—Quinault Watershed 0 Steelhead Page 71 Table of Contents Jefferson County Community Wildfire Protection Plan SV1VCA o Island marble butterfly o Northern spotted owl o Killer whale o Taylor's checkerspot o Marbled murrelet x5' s A c Figure 3.6. Example of scenic viewsheds present within Jefferson County. Page 72 Table of Contents Jefferson County Community Wildfire Protection Plan } �A 3.5.2 SOCIOECONOMIC VALUES Socioeconomic values include population, recreation, infrastructure, commercial, and economic resources and the built environment(Figure B.9 in Appendix B). Large portions of communities in the county are located within the WUI. Examples include the following: • Communications infrastructure (e.g., cell • Commercial timber lands (Figure 3.7) phone and radio towers) Churches • Tourism values (e.g., restaurants, • recreational facilities) • Care homes, senior housing, day care, and other group homes • Schools • Water storage • Public safety infrastructure • Recreation sites (e.g., golf courses, • Highways trails, parks) • Municipal infrastructure ▪ Agricultural land and food systems Industrial infrastructure (local farms, fish and shellfish habitat) • Water trea• tment plants �'..�q� �f�� '�# .�*�ssf+ ,y�.�< � "��,F c��'' �r 2i� � ��.a ' pq�^ "iF.Y "— r( 3/" .,s¢o. ..y�J►e ! :. :'w."x,.a� • • Figure 3.7. Example of a socioeconomic value: timber industry lands. Wildfire impact could result in the loss of valuable timber resources and disrupt the supply chain. Source: Rayonier(2023) Page 73 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA 3.5.3 CULTURAL VALUES Many historical landmarks are scattered throughout the county (Figure B.10 in Appendix B). Cultural values include buildings, sites, and districts that are part of the National Register of Historic Places, tribal lands, and other structures and places identified by the public and Advisory Group. Examples of cultural values that have been identified by the Advisory Group and the public in the planning area are the following: • Gicmehan Trail Point Wilson Lighthouse • Port Townsend Historic District Kuhn Spit Archeological Site • Chimacum Dairy and Finnriver Orchard Jefferson County Courthouse • Duckabush River Bridge Enchanted Valley Chalet(Figure 3.8) • Fort Flagler • Tamanowas Rock Sanctuary • Fort Worden ,-. � vt �,� ate'€4i.{�«a _ Figure 3.8.An example of a cultural value, the National Register of Historic Places—listed Enchanted Valley Chalet. Source: National Register of Historic Places(2023) Page 74 Tie of Cow �r '.. a 7fit : • tr -1.,*::*,. ... . ` ',. r ,fi � e. er, a�_. ', a a' s H 4- 9::°� * � 4.4^' +aw' '" 4 ,, M.n::* ^r" �-4= � .. CHAPTER 4 - MITIGATION STRATEGIES „,,,„:.,, - ____ _ , The Plan recommendations have been structured around the three main goals of the Cohesive Strategy: restoring and maintaining landscapes, fire-adapted communities, and wildfire response. Many of the recommendations listed can be implemented at the homeowner or community level. Projects requiring large-scale support can be further prioritized based on the Composite Risk-Hazard Assessment. Recommendations in this chapter have also been aligned with the strategies in the 2016 Jefferson County—City of Port Townsend All Hazard Mitigation Plan (Jefferson County DEM 2016) wherever possible. 4. 1 GOAL 1 : RESTORE AND MAINTAIN RESILIENT LANDSCAPES LANDSCAPES , 4` Efforts to restore and maintain landscapes should focus on Landscapes are resilient to fire.Insect. and disease disturbances regardless of vegetation management and hazardous fuel reduction. Jurisdictional boundaries. Jefferson County is largely composed of public lands managed by federal and state agencies including the USFS, NPS, Washington State Parks, and other entities that actively manage fuels and forest health. Figure 4.1 shows fuels treatments that are proposed, planned, or in progress in and around the county. Olympic National Park maintains a policy of managing fires for forest health and ecological benefit when the fire poses no direct threat to life or property (NPS 2005). The park also recently updated its fire management plan with an environmental assessment completed in 2019. The environmental assessment evaluated impacts and benefits of manual and mechanical fuels treatments across the park allowing future treatments to be prioritized in areas with high wildfire hazard, where values are at risk, and where sequential treatment or cross-boundary treatments would be beneficial to landscape-scale forest health (SWCA 2019). Olympic National Forest operates under the guidance of a similar fire management policy that directs how wildfires will be managed based on proximity to resources and fire intensity. The USFS also maintains a webpage that gives details on proposed and active projects in the forest(USDA 2023). Currently, no specific projects are proposed on national forest or national park lands; however, in discussions with forest managers for the two federal agencies, priority treatment areas have been Page 75 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA identified and both agencies are working to map priority treatment areas (USDA 2023). Areas identified as critical treatments have included roadways, especially park entrances where dense canopy cover poses an evacuation hazard, and national forest land adjacent to Lords Lake, a reservoir with water supply infrastructure and a valuable recreation site (USDA 2023). 4.1 .1 RECOMMENDATIONS FOR HAZARDOUS FUEL MODIFICATION As described in Section 2.2. the County is Fuels management of public and comprised of vegetative fuels that historically private land in the WUI is key to and naturally would burn every 50 years to over the survival of homes during a 1,000 years (Fryer and Luensmann 2012; wildfire event, as well as the LANDFIRE 2020). For wildfire frequency, these means to meet the criteria of are considered as long return intervals that result in fire events that are often very intense Goal 1. because fuels establish over long periods, wildfires can consume entire forest stands. While these are natural processes that have occurred for millennia, development in the WUI has increased exposure of values to this intense fire behavior. Research has shown how fuel treatments in the WUI can change fire behavior to support suppression activities and protect homes (Evans et al. 2015). Fuels can be modified with a strategic approach to reduce the threat high-intensity wildfires pose to lives, property, and other values. Recommendations focus on reducing fire intensity and fire spread rates proximate to structures, consistent with Firewise and International Fire Code standards. Further into open space areas, treatments tend to emphasize forest health and increasing resiliency to catastrophic wildfire and other disturbances. Recommended projects focus on fuels management on and adjacent to roadways, near WUI communities, and improving opportunities for private landowner actions. Projects are also identified to streamline future treatments by standardizing techniques, ensuring other county planning documents integrate mitigation, and introducing unique and community focused programs and incentives to land management. For broader recommendations, such as fuel modification in high-hazard areas, recommendations are provided which detail required steps for implementing the defined project. Implementation timelines are dependent upon available funding sources, agency and personnel capacity, and NEPA and State Environmental Policy Act(SEPA) requirements for treatments pursued on public lands. Treatments on state-owned lands will require SEPA compliance as well as any treatment that receives state funding to complete. Projects implemented on national forest and national park lands will require coordination with forest or park representatives to complete NEPA requirements and submit documentation as the lead agency. Coordination with these agencies should also include discussion on existing documents and assessments that may be tiered to or adopted for new projects which may reduce time to meet federal compliance requirements. Through the planning process the Advisory Group identified high-risk wildland areas and communities at risk of wildfire. Areas of concern include portions of the county with a high concentration of HVRAs and WUI communities with high potential exposure to wildfire. Other priority areas are those with active management activities that could be built on to increase landscape-scale resilience. Land managers should consider prioritizing these areas to protect life, property, and resources. Treatment types will be site specific but should address a need to slow fire spread or mitigate potential extreme fire behavior Page 76 Table of Contents Jefferson County Community Wildfire Protection Plan SWCR parameters, such as high flame lengths or fireline intensity. Wildfire does not stop at jurisdictional boundaries, and therefore, it is crucial that projects are implemented across borders with coordination at all jurisdictional levels. While residents within these areas of concern should prioritize fuel treatments in the home ignition zone (HIZ), it is advisable to reduce fuels beyond the HIZ for properties within the WUI. See Appendix E for home hardening strategies to reduce the ignitability of your home and build greater resilience to wildfire impacts. "This plan can help the Land Trust, County, DNR, and other forest managers by identifying priority risk areas, defining a path forward and opportunities to fund projects-and to work together in priority areas."—Jefferson Land Trust When possible, simultaneously planning for the management of multiple resources while reducing fuels will ensure that the land remains viable for multiple uses in the long term. The effectiveness of any fuel modification depends on the degree of maintenance and monitoring that is employed. Monitoring will also ensure that objectives are being met in a cost-effective manner. The treatment list is by no means exhaustive and serves to provide a baseline of recommended projects for the future management of Jefferson County. Many projects may be eligible for grant funds available from federal and/or state sources. For a list of funding sources, please refer to Appendix D. Page 77 Table of Contents N czz :51- ' r. C'm sv � ,1`��jNIE `t 0O a mi 3h T C C � Rr�`` < d Oays _ >. N t y 3M 8 li 2 V N Q) = O C C '� O E f0 N C C N LL 4 O 0 2 = r W W O LL O L N N N 'L N 2 O O z_ ._ i a v o "m c> x x o a a` g I z o0 0 co to- �a ° v _ Q Q o - 3 a) 161 :% o L'O .o. > -0 v a Odic." J t .. t c 3 �E v �^ z c 3 g o--%E °m m E a1 - tom O R' t 1i. 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O _ N cn " U a u) ,ate—) a) = 3a c a) ._ o o C CD U .— C CD 42.a) U a3 a) w 4) ) ... -a 0_a °_ 0� 57 CO 5 p w a) f0 2 U C U To a) N w O a) a) T.) a) E < ,a5 LL ! 42 E >, C- C a) " E ,O a) a) w c 0 N z U) OQ OO c6 a) G. c6 L > C a)" a) O u Cl) Y E (6 a) ) o m C O m U = "E) a) N a Q c a) 0 T O a) C C.) oo co LL ii) a) a Z Dca Jefferson County Community Wildfire Protection Plan SWCA 4.1 .1 .1 Ongoing, Planned, and Proposed Fuels Treatments State, federal, and private landowners have been active in managing forested lands and attention to the need and benefit of these actions has been steadily increasing across the county. National Park Service The NPS conducts targeted fuels reductions and thinning to protect properties, reduce fuel continuity, and limit ladder fuels. The agency has a target of treating up to 200 acres of forest per year to maintain fuel loads (NPS 2005). In discussions with NPS personnel, the Hoh rainforest park entrance was identified as a hazard risk due to narrow, single-entrance roads and dense fuels loads (personal communication, Joseph Crowe, USFS, 2023). Work in this area will require cooperation between the national park and bordering landowners. U.S. Forest Service In early 2023, the Hood Canal Ranger District, part of Olympic National Forest, contracted a local silviculture specialist to complete thinning and hazardous fuels removal on 182 acres of land within the ranger district. This project is anticipated to be completed by the end of February 2024. Approximately 28% of the fuels reduction work was completed as of November 2023 (USFS 2023b). Jefferson County Jefferson County has been active in managing the forested lands it owns and, in 2020, established a pilot forest management program. The program is intended to identify and prioritize action on County-held lands to reduce fuel loads. In 2019, a forestry study was completed that assessed all parks and other land held by Jefferson County and recommended priority actions with mapped project boundaries (Jefferson County 2019). The forestry program targeted a total of 312 acres of treated land. Completed projects have included treatments near Gibbs Lake County Park and Camp Beausite (2020), Chimacum County Park Complex (2020), Trailhead Park (2021), Larry Scott Trail (2021), and Cape George (2021) (Jefferson County 2020). Jefferson Land Trust Jefferson Land Trust owns and manages a variety of primarily forested lands with the mission of permanently protecting their conservation values, such as fish and wildlife habitat, water quality, and productive timberland. They also hold conservation easements on primarily forested land owned and managed by other private landowners, which are designed to also permanently protect the conservation values of those lands, including resilient and healthy forests. The organization has been active in managing forested areas for project specific objectives such as climate resilience, timber production, bird habitat improvement, and stand diversity and succession. These actions also improve the fire resilience of the properties (Jefferson County Trust 2010). As concern about forest health has risen, more private forest owners have grown interested in proactively managing their lands. The Northwest Natural Resource Group, a nonprofit group dedicated to strengthening ecological and economic value of northwest forests, partnered with the Jefferson Land Trust to host a hands-on forest health strategies workshop where private forest owners can learn about forest management science and techniques to implement on their land (Northwest Natural Resource Group 2021). Communities that have been active in managing the forests adjacent to them include Queets, the Hoh Indian Reservation, Leland, Dabob and Camp Discovery, Beaver Valley and Port Ludlow, and Gardiner. Page 85 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA Washington State Department of Natural Resources The Western Washington Financial Assistance Program, administered by the WA DNR Service Forestry Program, aims to enhance forest resiliency, and minimize the risk of catastrophic fires. The program supports projects such as thinning dense tree stands, creating firebreaks, removing invasive species, pruning, slash disposal, tree planting, and prescribed burning. The program provides financial assistance for up to half of the actual incurred costs for projects such as thinning dense stands, creating firebreaks, removing invasive species, and more. However, it excludes activities like the removal of select trees due to mortality, post-timber harvest activities, and landscaping. Eligibility is determined by WA DNR field staff, following the landowner's completion of the application process. The application process involves an initial property visit by the field staff, submission of a Request for Financial Assistance form, agreement to forest treatment prescriptions, and obtaining at least three bids from contractors. Upon WA DNR's review and approval, the landowner is then responsible for project completion and tracking costs, and maintaining the treated area for at least 15 years following the project's completion. Financial assistance is available for forest stewardship plans, with varying amounts based on acreage. Landowners are required to comply with legal requirements and permit regulations. Applications for stewardship plans are encouraged throughout the year, with funding available from both federal and state sources, emphasizing non-discrimination and equal opportunity. Page 86 Table of Contents Np C L c0 C G N (, E w y I c• 9 8 ?) t .2 Q 8*6 a e 28 -.E. m v H fc6 j f� a O C J C J O rn �E o rna V E3 m Z vz O c 3o m o o cS-S COO Z K� O ILL�. ii. N C y a) N C N E C a T p cn C T._ O 3.4 c c p T cE 0E (1, av c o� Ec m O cow c) �c . co y o V He aavio oy= oy � g� n2H 8 21 a U C N 2 - W 0N aEv ` 1 '3- Z �'3 t a s o..E 'R ) o E p � �m ow v F `` Ea C O j N «C L uo C u y O p a)2 yw V C 3 j N 3 o U _tp C> aNO H m ,„; 5 , 000ov .L.. 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Jefferson County Community Wildfire Protection Plan SWCA 4.2 GOAL 2: FIRE-ADAPTED FIRE ADAPTED COMMUNITIES COMMUNITIES -`e 6 Efforts to create fire-adapted communities include public education People and communities are prepared to receive,respond to and outreach actions and actions to reduce structural ignitability. and recover from wiidfiire. 4.2.1 RECOMMENDATIONS FOR PUBLIC EDUCATION AND OUTREACH Just as environmental hazards must be mitigated to reduce the risk of fire loss, so must human hazards. Lack of knowledge, lack of positive actions (e.g., failing to create adequate defensible space), and negative actions (e.g., keeping large amounts of flammable debris and rubbish on the property) all contribute to increased risk of loss in the WUI. Methods to improve public education could include increasing awareness about fire department response and resource needs; providing workshops at demonstration sites showing Firewise landscaping techniques or fuels treatment projects; organizing community cleanups to remove green waste; publicizing availability of government funds for treatments on private land; providing specific outreach targeted toward seasonal and recreational visitors to the Olympic Peninsula; developing resources to support vulnerable populations, such as elderly residents; and, most importantly, improving communication between homeowners and local land management agencies to improve and build trust, particularly since the implementation of fuel treatments and better maintenance of existing treatments needs to occur across property boundaries and in the interface between public and private land. The Advisory Group emphasizes that wildfire resilience requires residents to not be complacent in their role and responsibility for mitigating wildfire risk. The Jefferson DEM provides the community with a webpage containing resources for various disaster and emergency scenarios including wildfires. Included are general recommendations for implementing defensible space on one's property and various home hardening strategies such as clearing vegetation around homes and structures and prepping for various levels of evacuation. In addition, county fire departments and districts are active in addressing the necessity of community engagement with the implementation of various education programs, tools, and safety guidelines. 4.2.2 RECOMMENDATIONS FOR REDUCING STRUCTURAL IGNITABILITY Reducing structural ignitability is a core focus that should be implemented throughout the county. Reduction of structural ignitability depends largely on public education, which provides homeowners the information they need to take responsibility for protecting their own properties. Carrying out fuels reduction treatments on public land may only be effective in reducing fire risk to some communities. If homeowners have failed to provide mitigation efforts on their own land, the risk of home ignition remains high, and firefighter lives are put at risk when they carry out structural defense. Preparing for wildfire by creating defensible space around the home is an effective strategy for reducing structural ignitability as discussed under Cohesive Strategy Goal 1: Resilient Landscapes. Studies have Page 95 Table of Conte Jefferson County Community Wildfire Protection Plan SWCA shown that burning vegetation beyond 120 feet of a structure is unlikely to ignite that property through radiant heat(Butler and Cohen 1996), but firebrands that travel independently of the flaming front have been known to destroy houses that had not been impacted by direct flame impingement. Hardening the home to ignition from embers, through a series of actionable steps including maintaining vent coverings and other openings, is also strongly advised and imperative to protect a home from structural ignitability. It is highly encouraged that homeowners prioritize this step to reduce the structural ignitability of their homes in the event of wildfire. Managing the landscape around a structure by removing weeds and debris within a 30-foot radius and keeping the roof and gutters clean are two maintenance measures proven to limit combustible materials that could provide an ember bed and ignite the structure. Unplanned developments, such as those discussed in Chapter 1, pose a significant hazard to WUI communities and forest lands. The Jefferson County Department of Community Development maintains a Wildland Urban Interface Property Development Guide, which provides requirements for defensible space and building construction materials along with a checklist to guide WUI home construction. As of July 2023, the county adopted the International WUI Code with all new building plans required to meet code standards (Jefferson County 2023b). These requirements should be administered to all planned and unplanned housing units to reduce the potential of WUI ignitions and spread. More information is on the City of Port Townsend's Building Code is found here: https://www.codepublishing.com/WA/PortTownsend/#I/PortTownsend16/PortTownsend1604.html#16.04. Detailed information regarding defensible space practices, as well as a list of actions for reducing structural ignitability, can be found in Appendix E. Page 96 Table of Content- Q. 0 . ` H V 2 C W v C C N N U E2 R = mC D C /A a i `: y m `, o °a .0 w m a m y dmN«• p v ° a m ew ' w !° u Uc a'c f D• W Eco JmEE ' 3 5 LL co oa c° oa E � . E , o d >p aa,c, So V o c :o re UU i0W W Nc J 2 LL • a` 2 m4, 2 ti. t EE `a a) 'a rn oy y JEE c , a 9 oa mmEnc'- z` c an cE nc20 3 c c •NOV --p8 �'rn t=c O q 'N d NO.C .` . 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N 2 • • • • • O y >, N m O N C C W N Z 3 n e E rn m o OQm m cNN.� as OUry w >Ou cm m z g O m a JJ iiUoU �OmW m0 c t O 71 C O O O J 0 U m c m c m c ya n m 0 O LO O ; C O pp2%V y a C = N Y �,c u 2 o 5 > € m m v O m m a C ; yyj m 0 C 0 m a m r m tc c m $ a >o O €a €y N a aim-m 0 i 5a a` $2;°10 '.. N (V N N N C N O C 0 E ra cn .4'J CT x g C NN a U O E. O N a_ LL LL d C 0 E E 0 0 C 0 O 0 C 0 N •O N N 0 N a) Co o 0 h Jefferson County Community Wildfire Protection Plan SWCA 4.3 GOAL 3: WILDFIRE RESPONSE WISAFE,EFFECTIVE LDFIRE RESPONSE All jurisdictions participate in making and implementing safe, effective, efficient risk-based wildfire management decisions. All jurisdictions coordinate to Implement safe,effective,risk based management decisions. 4.3.1 RECOMMENDATIONS FOR IMPROVING FIRE RESPONSE CAPABILITIES Informing and empowering the public so they can reduce dependence on fire departments is essential because these resources are often stretched thin due to limited personnel. Increasing awareness and knowledge to enhance community preparedness is a key factor in supporting local fire departments in fire response, particularly educating residents about emergency notifications and evacuation protocols so that residents can safely evacuate an area while emergency responders prepare to protect life and property. These recommendations for promoting safe and effective wildfire response incorporate a variety of measures and actions that aim to enhance the county's fire safety and emergency response capabilities. They include establishing improved response coordination, creating new positions, improving public safety communications, and enhancing fire response resources and capabilities. Additionally, there is a focus on increasing budget and funding support. Descriptions of each fire response recommendation, with the goal of accomplishing Cohesive Strategy Goal 3, can be found in Appendix H. Appendix H also includes details regarding these recommendations, including a broad timeline, location specifics, potential collaborators, approach methodology, monitoring approaches, and potential funding channels. Page 103 Table of Cont Jefferson County Community Wildfire Protection Plan SWCA This page intentionally left blank. Page 104 Table of Content- •V 03 U N 2 C Z v C m r y (a E o N 3 c c E x a 2 2 c 2 6 c E d m E °w m N Z rn rnm E Q a N La o c 2& 1,2 F � R d o o U p O) O c O 0 LL > a 2 mm a C(„) a N 2 a a, a C c 8.0 _.. a1 w O` C K 8 a Z w a s r c v a 1. N -92 O N a t w m N na N« w U LLO.V c ` i. c a'cN ,x N � a a a ; .N 1 .2 i VN.c m c W y K miL m �� _d aW T2 0, m. co d�o g s vE T. wK m a (y � E ' co ° _ a, a 0 c -_-_.-- c I Ea rn � E � �z a U E U v ad - U o a ryN mv O c) o a oy y m Uooc _Z W(.9 a� 01 U F.C. ap CC CO IL U IL. a S W > CO Z a' N-, W e• U • • • • • • • • • • • • • • • • • o_ O) N 2 J 2 a 'a C t • � s . 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U 2 0 0 d) 0 a` a, 0 C E E 0 U a c 0 0 c 0 a) a) CO N O CD 7) CO) n y j 4 CHAPTER 5 - MONITORING AND EVALUATION All stakeholders and signatories to this Plan desire worthwhile outcomes. The amount of money and effort invested in implementing a plan such as this requires that there be a means to describe whether the goals and objectives expressed in this plan are being accomplished according to expectations. Furthermore, as the Plan evolves over time, there may be a need to track changes in policy, requirements, stakeholder changes, and levels of preparedness. These can be significant for any future revisions and/or addendums to the Plan. It is recommended that project monitoring be a collaborative effort. There are many resources for designing and implementing community-based, multi-party monitoring that could support and further inform a basic monitoring program for the Plan (Egan 2013). Table 5.1 identifies suggested monitoring strategies. Table 5.1. Recommended Monitoring Strategies Strategy Task/Tool Lead Remarks Project tracking system Online web app to track County Interactive tool will be hazardous fuels projects easily updated and identify spatially, integrating wildfire areas that require risk layer to show progress additional efforts toward wildfire hazard and risk reduction. The web app would include attribute tables that outline project details Photographic record Establish field GPS location; Advisory Group Relatively low cost; (documents pre-and post-fuels photo points of cardinal member repeatable over time; used reduction work, evacuation directions; keep photos for programs and tracking routes,workshops, classes, protected in archival location objectives field trips, changes in open space,treatment type, etc.) Number of acres treated (by GPS/GIS/fire behavior Advisory Group Evaluating costs, potential fuel type, treatment method) prediction system member fire behavior Page 111 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA Strategy Task/Tool Lead Remarks Number of HIZs/defensible GPS Homeowner Structure protection space treated to reduce structural ignitability Number of residents/citizens Meetings, media interviews, Advisory Group Evaluate culture change participating in any Plan articles member objective projects and events Number of homeowner Visits, phone Agency Evaluate objective contacts (brochures,flyers, representative posters, etc.) Number of jobs created Contracts and grants Advisory Group Evaluate local job growth member Education outreach: number, Workshops,classes,field trips, Advisory Group Evaluate objectives kinds of involvement signage member Emergency management: Collaboration Agency Evaluate mutual aid changes in agency response representative capacity Codes and policy changes Qualitative Advisory Group Plan changes affecting the Plan Number of stakeholders Added or dropped Advisory Group Plan changes Wildfire acres burned, human Wildfire records Advisory Group Compare with 5-or 10-year injuries/fatalities, infrastructure average loss, environmental damage, suppression, and rehabilitation costs 5. 1 IMPLEMENTATION This Plan makes recommendations for prioritized fuels reduction projects, measures to reduce structural ignitability, and methods for carrying out public education and outreach. Implementation of projects must be tailored to the specific project and will be unique to the location depending on available funding resources and regulations. Information pertaining to funding is provided in Appendix D. 5.2 PLAN EVALUATION CWPPs are intended to reduce the risk from wildfire for a community and surrounding environment. However, over time, communities change and expand, vegetation grows back, and forests and wildlands evolve. As such, the risk of wildfire to communities is constantly changing. The plans and methods to reduce risk must be dynamic to keep pace with the changing environment. An evaluation of this Plan will gather information and identify whether the plans and strategies are on course to meet the desired outcomes or if modifications are needed to meet expectations. It is recommended that the Plan be evaluated on an annual basis, which should be completed by convening the existing Advisory Group so that all entities contribute to the evaluation. The Plan document and planning goals and objective should be updated annually, based on findings from the evaluation. Page 112 Tabs of Contents < t V 0 c mo o —. m O 3 a) p U V. N .0 ,a, c c ,� to g• o) N -6 v N m U > c ,T m "O .T.- GO C > I.� G C CB W c .V 'vl y a• 9 " .G ,G C W 0_ E O N U G C' ` C U G m m 2 t0 o) m O� a ,a m tU .m. N C a`�.. _0 a m m W Y C- ra p . .Q v h 5 c E 0 c 3 E c h c 173C m v E �i 0 U E. Q.s r0 O a' W .° •d c D G a m G, 4) a, a is m p m -- 3�•`. Jfl III 01 ii Hi h e Ill a,?v i �C .O. qcN C y 4 y E �' a R m N C N m > m 2 a n N m E. a O c O N N C C N y m m ' y W C O G �_' Cr)• • a ,,rm, v n.2 c t0 '• m 9 c 2 2 d g 3 o v 5 m ^ 3 a C to O C 7 C a S W C, 3 p > 0 N - P. y liI, O y '(.• L O_ G G m U co y t J p •C m E N y m c W yN D. a m N W G p 7 a C - > C E. N m m c 7 -c„, C ie p j c� m L c �+ m a - q m•F. yf C � E =a m G N C. 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C a) ....=a >• C W c c y N O W l`i. to a p C� c .., •_-� E S" c >. _ L ca W C v, c a ~ 'tn U E . X = +' rn U 6.c .c L a) c - _ c C� M' O N a) a) Mt r -. o W v c F— o U E > a y o c " co o U N c = LL r u en C!') o- <7 O Q, O 42 O L � Y w w w 5 fC F— _ _ t4 _ a a to > > > E W m e = v y m H a r N o W L a) a) a) ,a d =_ ea ti) u. a w cr) — o a c > 0 a c, w LL o 5 ra U •o -a a y C G = Cn o c 0 a m W a, . . . . CO Q = > Cr a r-g- C%Iin a _a) c"J LL cp co 2 Jefferson County Community Wildfire Protection Plan S Y V CA 5.3 TIMELINE FOR UPDATING THE PLAN The HFRA allows for maximum flexibility in the planning process, permitting the Advisory Group to determine the time frame for updating the Plan. The Advisory Group members are encouraged to meet on an annual basis to review the project list, discuss project successes, and strategize regarding project implementation funding. It is suggested that the evaluation framework above be used annually to make plan updates, and a more formal revision be made on the fifth anniversary of signing and every 5 years following. Page 114 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA ABBREVIATIONS AND ACRONYMS BAER Burned Area Emergency Response BIA Bureau of Indian Affairs BLM Bureau of Land Management BRIO Building Resilient Infrastructure and Communities CAL FIRE California Department of Forestry and Fire Protection CA GOPR California Governor's Office of Planning and Research CCFPD1 Clallam County Fire District No. 1 CCFPD3 Clallam County Fire District No. 3 CIG Conservation Innovation Grant CLT cross-laminated timber CUSP Coalition for the Upper South Platte CWDG Community Wildfire Defense Grants CWPP community wildfire protection plan EAS Emergency Alert System EFRP Emergency Forest Restoration Program EMD Emergency Management Division EPA U.S. Environmental Protection Agency EQIP Environmental Quality Incentives Program EWP Emergency Watershed Protection FACLN Fire Adapted Communities Learning Network FEMA Federal Emergency Management Agency FHSP Forest Health Strategic Plan FMAG Fire Management Assistance Grant FMP fire management plan FP&S Fire Prevention and Safety GIS geographic information system HFRA Healthy Forests Restoration Act of 2003 HIZ home ignition zone HMGP Hazard Mitigation Grant Program HMP hazard mitigation plan HVRA highly valued resource and asset IBHS Insurance Institute for Business and Home Safety IFTDSS Interagency Fuel Treatment Decision Support System Page 115 Table of Contents Jefferson County Community Wildfire Protection Plan SPCA JCCD Jefferson County Conservation District Jefferson County DEM Jefferson County Department of Emergency Management NFP National Fire Plan NFPA National Fire Protection Association NIFC National Interagency Fire Center NPS National Park Service NRCA natural resource conservation area NRCS Natural Resources Conservation Service NWCG National Wildfire Coordinating Group OIC Office of the Insurance Commissioner PG&E Pacific Gas and Electric Company Plan Jefferson County Community Wildfire Protection Plan PUD Public Utility District PWFC Washington State Post-Wildfire Flood Committee QIN Quinault Indian Nation RAW remote automated weather RCP Regional Catastrophic Preparedness RWC Revised Code of Washington SAFER Staffing for Adequate Fire and Emergency Response SEPA State Environmental Policy Act SWCA SWCA Environmental Consultants ULI Urban Land Institute USDA U.S. Department of Agriculture USFA U.S. Fire Administration USFS U.S. Forest Service USFWS U.S. Fish and Wildlife Service WAC Washington Administrative Code WA DNR Washington State Department of Natural Resources WAFAC Washington State Fire Adapted Communities Learning Network WA-WUI Washington Wildland-Urban Interface WSDOT Washington Department of Transportation WUI wildland-urban interface Page 1116 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA GLOSSARY Aspect: Cardinal direction toward which a slope faces in relation to the sun (NWCG 2021). Active Crown Fire: A crown fire in which the entire fuel complex is involved in flame, but the crowning phase remains dependent on heat released from surface fuel for continued spread. An active crown fire presents a solid wall of flame from the surface through the canopy fuel layers. Flames appear to emanate from the canopy as a whole rather than from individual trees within the canopy. Active crown fire is one of several types of crown fire and is contrasted with passive crown fires, which are less vigorous types of crown fire that do not emit continuous, solid flames from the canopy (SWCA). Available Canopy Fuel: The mass of canopy fuel per unit area consumed in a crown fire. There is no postfrontal combustion in canopy fuels, so only fine canopy fuels are consumed. We assume that only the foliage and a small fraction of the branchwood is available (Wooten 2021). Available Fuel: The total mass of ground, surface and canopy fuel per unit area available fuel consumed by a fire, including fuels consumed in postfrontal combustion of duff, organic soils, and large woody fuels (Wooten 2021). Backfiring: Intentionally setting fire to fuels inside a control line to contain a fire (Wooten 2021). Biomass: Organic material. Also refers to the weight of organic material (e. g. biomass roots, branches, needles, and leaves)within a given ecosystem (Wooten 2021). Burn Severity: A qualitative assessment of the heat pulse directed toward the ground during a fire. Burn severity relates to soil heating, large fuel and duff consumption, consumption of the litter and organic layer beneath trees and isolated shrubs, and mortality of buried plant parts (SWCA). Canopy: The more or less continuous cover of branches and foliage formed collectively by adjacent trees and other woody species in a forest stand. Where significant height differences occur between trees within a stand, formation of a multiple canopy (multi-layered) condition can result(SWCA). Chain: Unit of measure in land survey, equal to 66 feet(20 m) (80 chains equal 1 mile). Commonly used to report fire perimeters and other fireline distances. Popular in fire management because of its convenience in calculating acreage (example: 10 square chains equal one acre) (New Mexico Future Farmers of America 2010). Climate adaptation: Adaptation is an adjustment in natural or human systems to a new or changing environment. Adaptation to climate change refers to adjustment in natural or human systems in response to actual or expected climatic stimuli or their effects, which moderates harm or exploits beneficial opportunities (California Governor's Office of Planning and Research [CA GOPR] 2020). Climate Change: A change of climate that is attributed directly or indirectly to human activity that alters the composition of the global atmosphere and which is in addition to natural climate variability observed over comparable time periods (CA GOPR 2020). Community Assessment: An analysis designed to identify factors that increase the potential and/or severity of undesirable fire outcomes in WUI communities (SWCA). Communities at Risk: Defined by the HFRA as "Wildland-Urban Interface Communities within the vicinity of federal lands that are at high risk from wildfire." Page 117 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA Community Wildfire Protection Plan (CWPP): A planning document that seeks to reduce the threat to life and property from wildfire by identifying and mitigating wildfire hazards to communities and infrastructure located in the WUI. Developed from the HFRA, a CWPP addresses issues such as wildfire response, hazard mitigation, community preparedness, or structure protection (SWCA). Conditional Surface Fire: A potential type of fire in which conditions for sustained conditional surface fire active crown fire spread are met but conditions for crown fire initiation are not. If the fire begins as a surface fire, then it is expected to remain so. If it begins as an active crown fire in an adjacent stand, then it may continue to spread as an active crown fire (Wooten 2021). Contain: A tactical point at which a fire's spread is stopped by and within specific contain features, constructed or natural; also, the result of stopping a fire's spread so that no further spread is expected under foreseeable conditions. For reporting purposes, the time and date of containment. This term no longer has a strategic meaning in federal wildland fire policy (Wooten 2021). Control: To construct fireline or use natural features to surround a fire and any control spot fires therefrom and reduce its burning potential to a point that it no longer threatens further spread or resource damage under foreseeable conditions. For reporting purposes, the time and date of control. This term no longer has a strategic meaning in federal wildland fire policy (Wooten 2021). Cover Type: The type of vegetation (or lack of it) growing on an area, based on cover type minimum and maximum percent cover of the dominant species, species group or non-living land cover(such as water, rock, etc.). The cover type defines both a qualitative aspect(the dominant cover type) as well as a quantitative aspect(the abundance of the predominant features of that cover type; Wooten 2021). Creeping Fire: A low-intensity fire with a negligible rate of spread (Wooten 2021). Crown Fire: A fire that advances at great speed from crown to crown in tree canopies, often well in advance of the fire on the ground (National Geographic 2021). Defensible Space: An area around a structure where fuels and vegetation are modified, cleared, or reduced to slow the spread of wildfire toward or from a structure. The design and distance of the defensible space is based on fuels, topography, and the design/materials used in the construction of the structure (SWCA). Duff: The layer of decomposing organic materials lying below the litter layer of freshly fallen twigs, needles, and leaves and immediately above the mineral soil (SWCA). Ecosystem: An interacting natural system including all the component organisms together with the abiotic environment and processes affecting them (SWCA). Environmental Conditions: That part of the fire environment that undergoes short-term changes: weather, which is most commonly manifest as windspeed, and dead fuel moisture content (Wooten 2021). Escape Route: A preplanned and understood route firefighters take to move to a temporary refuge area or other low-risk area. When escape routes deviate from a defined physical path, they should be clearly marked (SWCA). Evacuation: The temporary movement of people and their possessions from locations threatened by wildfire (SWCA). Page 118 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA Fire-Adapted Community: A fire-adapted community collaborates to identify its wildfire risk and works collectively on actionable steps to reduce its risk of loss. This work protects property and increases the safety of firefighters and residents (USFA 2021 b). Fire Behavior: The manner in which fuel ignites, flame develops, and fire spread and exhibits other related phenomena as determined by the interaction of fuels, weather, and topography (Fire Research and Management Exchange System 2021). Fire Break: Areas where vegetation and organic matter are removed down to mineral soil (SWCA). Fire Environment: The characteristics of a site that influence fire behavior. In fire modeling the fire environment is described by surface and canopy fuel characteristics, windspeed and direction, relative humidity, and slope steepness (Wooten 2021). Fire Frequency: A broad measure of the rate of fire occurrence in a particular area. For historical analyses, fire frequency is often expressed using the fire return interval calculation. For modern-era analyses, where data on timing and size of fires are recorded, fire frequency is often best expressed using fire rotation (SWCA). Fire Hazard: Fire hazard is the potential fire behavior or fire intensity in an area, given the type(s) of fuel present— including both the natural and built environment—and their combustibility (CA GOPR 2020). Fire History: The chronological record of the occurrence of fire in an ecosystem or at a specific site. The fire history of an area may inform planners and residents about the level of wildfire hazard in that area (SWCA). Fire Intensity: A general term relating to the heat energy released in a fire (SWCA). Fireline Intensity: Amount of heat release per unit time per unit length of fire front. Numerically, the product of the heat of combustion, quantity of fuel consumed per unit area in the fire front, and the rate of spread of a fire, expressed in kilowatts per minute (SWCA). This expression is commonly used to describe the power of wildland fires, but it does not necessarily follow that the severity, defined as the vegetation mortality, will be correspondingly high (Wooten 2021). Fire Prevention: Activities such as public education, community outreach, planning, building code enforcement, engineering (construction standards), and reduction of fuel hazards that is intended to reduce the incidence of unwanted human-caused wildfires and the risks they pose to life, property or resources (CA GOPR 2020). Fire Regime: A measure of the general pattern of fire frequency and severity typical to a particular area or type of landscape: The regime can include other metrics of the fire, including seasonality and typical fire size, as well as a measure of the pattern of variability in characteristics (SWCA). Fire Regime Condition Class: Condition classes are a function of the degree of fire regime condition class departure from historical fire regimes resulting in alterations of key ecosystem components such as composition structural stage, stand age, and canopy closure (Wooten 2021). Fire Return Interval: Number of years (interval) between two successive fires in a designated area (SWCA). Fire Severity: A qualitative measure of the immediate effects of fire on the fire severity ecosystem. It relates to the extent of mortality and survival of plant and animal life both aboveground and belowground and to loss of organic matter. It is determined by heat released aboveground and belowground. Fire Severity is dependent on intensity and residence dependent of the burn. For trees, Page 119 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA severity is often measured as percentage of basal area removed. An intense fire may not necessarily be severe (Wooten 2021). Fire Risk: "Risk" takes into account the intensity and likelihood of a fire event to occur as well as the chance, whether high or low, that a hazard such as a wildfire will cause harm. Fire risk can be determined by identifying the susceptibility of a value or asset to the potential direct or indirect impacts of wildfire hazard events (CA GOPR 2020). Flammability: The relative ease with which fuels ignite and burn regardless of the quantity of the fuels (SWCA). Flame Length: The length of flames in the propagating fire front measured along the slant of the flame from the midpoint of its base to its tip. It is mathematically related to fireline intensity and tree crown scorch height(Wooten 2021). Foliar Moisture Content: Moisture content(dry weight basis) of live foliage, foliar moisture content expressed as a percent. Effective foliar moisture content incorporates the moisture content of other canopy fuels such as lichen, dead foliage, and live and dead branchwood (Wooten 2021). Forest Fire: uncontrolled burning of a woodland area (National Geographic 2021). Fuel Bed: An array of fuels usually constructed with specific loading, depth, and particle size to meet experimental requirements; also, commonly used to describe the fuel composition. Fuel Break: A natural or manmade change in fuel characteristics which affects fire behavior so that fires burning into them can be more readily controlled (NWCG 2021). Fuel Complex: The combination of ground, surface, and canopy fuel strata (Wooten 2021). Fuel Condition: Relative flammability of fuel as determined by fuel type and environmental conditions (SWCA). Fuel Continuity: A qualitative description of the distribution of fuel both horizontally and vertically. Continuous fuels readily support fire spread. The larger the fuel discontinuity, the greater the fire intensity required for fire spread (Wooten 2021). Fuel Loading: The volume of fuel in a given area generally expressed in tons per acre (SWCA). Dead woody fuel loadings are commonly described for small material in diameter classes of 0 to 0.25, 0.25 to 1, and 1 to 3 inches and for large material greater than 3 inches (Wooten 2021). Fuel Management: Manipulation or removal of fuels to reduce the likelihood of ignition and to reduce potential damage in case of a wildfire. Fuel management methods include prescribed fire, mechanical treatments (mowing, chopping), herbicides, biomass removal (thinning or harvesting or trees, harvesting of pine straw), and grazing. Fuel management techniques may sometimes be combined for greater effect (SWCA). Fuel Model: A set of surface fuel bed characteristics (load and surface-area-to-fuel model volume-ratio by size class, heat content, and depth) organized for input to a fire model (Wooten 2021). Fuel Modification: The manipulation or removal of fuels (i.e., combustible biomass such as wood, leaves, grass, or other vegetation) to reduce the likelihood of igniting and to reduce fire intensity. Fuel modification activities may include lopping, chipping, crushing, piling and burning, including prescribed burning. These activities may be performed using mechanical treatments or by hand crews. Herbicides Page 120 Table of Cont Jefferson County Community Wildfire Protection Plan SWCA and prescribed herbivory (grazing) may also be used in some cases. Fuel modification may also sometimes be referred to as "vegetation treatment" (CA GOPR 2020). Fuel Moisture Content: This is expressed as a percent or fraction of oven dry fuel moisture content weight of fuel. It is the most important fuel property controlling flammability. In living plants, it is physiologically bound. Its daily fluctuations vary considerably by species but are usually above 80 to 100 percent. As plants mature, moisture content decreases. When herbaceous plants cure, their moisture content responds as dead fuel moisture content, which fluctuates according to changes in temperature, humidity, and precipitation (Wooten 2021). Fuel Treatment: The manipulation or removal of fuels to minimize the probability of ignition and/or to reduce potential damage and resistance to fire suppression activities (NWCG 2021). Synonymous with fuel modification. Grazing: There are two types of grazing: 1) traditional grazing, and 2) targeted grazing. Traditional grazing refers to cattle that are managed in extensive pastures to produce meat. Targeted grazing involves having livestock graze at a specific density for a given period of time for the purpose of managing vegetation. Even though both kinds of grazing manage fuel loading in range-and forested lands, targeted grazing is different in that its sole purpose is to manage fuels. Targeted grazing is done by a variety of livestock species such as sheep, goats, or cows (University of California Division of Agriculture and Natural Resources [UCANR] 2019). Ground Fire: Fire that burns organic matter in the soil, or humus; usually does not appear at the surface (National Geographic 2021). Ground Fuels: Fuels that lie beneath surface fuels, such as organic soils, duff, decomposing litter, buried logs, roots, and the below-surface portion of stumps (Wooten 2021). Hazard: A"hazard" can be defined generally as an event that could cause harm or damage to human health, safety, or property (CA GOPR 2020). Hazardous Areas: Those wildland areas where the combination of vegetation, topography, weather, and the threat of fire to life and property create difficult and dangerous problems (SWCA). Hazardous Fuels: A fuel complex defined by type, arrangement, volume, condition, and location that poses a threat of ignition and resistance to fire suppression (NWCG 2021). Hazardous Fuels Reduction: Any strategy that reduces the amount of flammable material in a fire- prone ecosystem. Two common strategies are mechanical thinning and prescribed burning (Wooten 2021). Hazard Reduction: Any treatment that reduces the threat of ignition and spread of fire (SWCA). Highly Valued Resources and Assets (HVRAs): Landscape features that are influenced positively and/or negatively by fire. Resources are naturally occurring, while Assets are human made (IFTDSS 2021). Ignition: The action of setting something on fire or starting to burn (SWCA). Incident: An occurrence or event, either natural or person-caused, which requires an emergency response to prevent loss of life or damage to property or natural resources (Wooten 2021). Page 121 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA Y CA Influence Zone: An area that, with respect to wildland and urban fire, has a set of conditions that facilitate the opportunity for fire to burn from wildland fuels to the home and or structure ignition zone (NWCG 2021). Initial Attack: The actions taken by the first resources to arrive at a wildfire to protect lives and property and prevent further extension of the fire (SWCA). Invasive Species: An introduced, nonnative organism (disease, parasite, plant, or animal) that begins to spread or expand its range from the site of its original introduction and that has the potential to cause harm to the environment, the economy, or to human health (USGS 2021). Ladder Fuels: Fuels that provide vertical continuity allowing fire to carry from surface fuels into the crowns of trees or shrubs with relative ease (SWCA). Litter: Recently fallen plant material that is only partially decomposed and is still discernible (SWCA). Manual Treatments: Felling and piling of fuels done by hand. The volume of material generated from a manual fuel treatment is typically too small to warrant a biomass sale therefore collected material is disposed of by burning or chipping. The work can be performed by either a single individual or a large, organized crew with powered equipment(UCANR 2021a). Mechanized Treatments: Mechanical treatments pulverize large continuous patches of fuel to reduce the volume and continuity of material. Mechanical treatments can be applied as either mastication or chipping treatments. Both treatments shred woody material, but mastication leaves residue on-site while chipping collects the particles for transportation off site. Similar to hand treatments, mechanical treatments can target specific areas and vegetation while excluding areas of concern. In addition, mechanical treatment is easily scalable to large areas (>30 acres) with little added cost. (UCANR 2021 b). Mitigation: Action that moderates the severity of a fire hazard or risk (SWCA). Mutual Aid: Assistance in firefighting or investigation by fire agencies, irrespective of jurisdictional boundaries (NWCG 2021). Native Revegetation: The process of replanting and rebuilding the soil of disturbed land (e.g., burned) with native plant species (USDA 2005). Native Species: A species that evolved naturally in the habitat, ecosystem, or region as determined by climate, soil, and biotic factors (USDA 2005). National Cohesive Strategy: The National Cohesive Wildland Fire Management Strategy is a strategic push to work collaboratively among all stakeholders and across all landscapes, using best science, to make meaningful progress toward three goals: • Resilient Landscapes • Fire-Adapted Communities • Safe and Effective Wildfire Response Vision:To safely and effectively extinguish fire when needed; use fire where allowable; manage our natural resources; and as a nation, to live with wildland fire (Forests and Rangelands 2023). Overstory: That portion of the trees in a forest which forms the upper or uppermost layer(SWCA). Passive Crown Fire: A type of crown fire in which the crowns of individual trees or small groups of trees burn, but solid flaming in the canopy cannot be maintained except for short periods. Passive crown fire Page 122 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA encompasses a wide range of crown fire behavior, from occasional torching of isolated trees to nearly active crown fire. Passive crown fire is also called torching or candling. A fire in the crowns of the trees in which trees or groups of trees torch, ignited by the passing front of the fire. The torching trees reinforce the spread rate, but these fires are not basically different from surface (SWCA). Prescribed Burning: Any fire ignited by management actions under specific, predetermined conditions to meet specific objectives related to hazardous fuels or habitat improvement. Usually, a written, approved prescribed fire plan must exist, and NEPA requirements must be met, prior to ignition (USFS n.d.). Rate of Spread: The relative activity of a fire in extending its horizontal dimensions. It is expressed as rate of increase of the total perimeter of the fire, as rate of forward spread of the fire front, or as rate of increase in area, depending on the intended use of the information. Usually, it is expressed in chains or acres per hour for a specific period in the fire's history (NWCG 2021). Resilience: Resilience is the capacity of any entity—an individual, a community, an organization, or a natural system—to prepare for disruptions, to recover from shocks and stresses, and to adapt and grow from a disruptive experience (CA GOPR 2020). Resilient Landscape: Landscapes or ecosystems that resist damage and recover quickly from disturbances (such as wildland fires) and human activities (Forests and Rangelands 2014). Response: Movement of an individual firefighting resource from its assigned standby location to another location or to an incident in reaction to dispatch orders or to a reported alarm (SWCA). Roadside Buffer: Intentional change or alteration in land cover and vegetation composition along roadways intended to reduce ladder fuels and canopy continuity. Buffers can reduce fire spread across roadways and improve the safety of designated evacuation routes. Safety Element: One of the seven mandatory elements of a local general plan (a county plan that forms the foundation for future development), the safety element must identify hazards and hazard abatement provisions to guide local decisions related to zoning, subdivisions, and entitlement permits. The element should contain general hazard and risk reduction strategies and policies supporting hazard mitigation measures (CA GOPR 2020). Shaded Fuel Break: Fuel breaks where understory vegetation in primarily cleared, leaving the forest canopy in-tact. These areas maintain higher relative humidity, lower temperatures, and sustain higher biodiversity while also reducing fuel loads. Slash: Debris left after logging, pruning, thinning, or brush cutting. Slash includes logs, chips, bark, branches, stumps, and broken trees or brush that may be fuel for a wildfire (SWCA). Slope Percent: The ratio between the amount of vertical rise of a slope and horizontal distance as expressed in a percent. One hundred feet of rise to 100 feet of horizontal distance equals 100 percent (NWCG 2021). Suppression: The most aggressive fire protection strategy, it leads to the total extinguishment of a fire (SWCA). Surface Fire: fire that typically burns only surface litter and undergrowth (National Geographic 2021). Surface Fuel: Fuels lying on or near the surface of the ground, consisting of leaf and needle litter, dead branch material, downed logs, bark, tree cones, and low stature living plants (SWCA). Structural Ignitability: The ability of structures (such as homes or fences) to catch fire (SWCA). Page 123 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA Topography: The arrangement of the natural and artificial physical features of an area (SWCA). Total Fuel Load: The mass of fuel per unit area that could possibly be consumed in a hypothetical fire of the highest intensity in the driest fuels (Wooten 2021). Tree Crown: The primary and secondary branches growing out from the main stem, together with twigs and foliage (SWCA). Understory: Low-growing vegetation (herbaceous, brush or reproduction) growing under a stand of trees. Also, that portion of trees in a forest stand below the overstory (SWCA). Understory Fire: A fire burning in the understory, more intense than a surface fire with flame lengths of 1 to 3 m (Wooten 2021). Values and Assets at Risk: The elements of a community or natural area considered valuable by an individual or community that could be negatively impacted by a wildfire or wildfire operations. These values can vary by community and can include public and private assets (natural and manmade) --such as homes, specific structures, water supply, power grids, natural and cultural resources, community infrastructure--as well as other economic, environmental, and social values (CA GOPR 2020). Vulnerable Community: Vulnerable communities experience heightened risk and increased sensitivity to natural hazard and climate change impacts and have less capacity and fewer resources to cope with, adapt to, or recover from the impacts of natural hazards and increasingly severe hazard events because of climate change. These disproportionate effects are caused by physical (built and environmental), social, political, and/or economic factor(s), which are exacerbated by climate impacts. These factors include, but are not limited to, race, class, sexual orientation and identification, national origin, and income inequality (CA GOPR 2020). Wildfire: A"wildfire" can be generally defined as any unplanned fire in a "wildland" area or in the WUI (CA GOPR 2020). Wildfire Exposure: During fire suppression activities, an exposure is any area/property that is threatened by the initial fire, but in National Fire Incident Reporting System a reportable exposure is any fire that is caused by another fire, i.e., a fire resulting from another fire outside that building, structure, or vehicle, or a fire that extends to an outside property from a building, structure, or vehicle (USFA 2020). Wildfire Influence Zone: A wildland area with susceptible vegetation up to 1.5 miles from the interface or intermix WUI (CA GOPR 2020). Wildiand: Those unincorporated areas covered wholly or in part by trees, brush, grass, or other flammable vegetation (CA GOPR 2020). Wildiand Fire: Fire that occurs in the wildland as the result of an unplanned ignition (CA GOPR 2020). Wildland Fuels (aka fuels): Fuel is the material that is burning. It can be any kind of combustible material, especially petroleum-based products, and wildland fuels. For wildland fire, it is usually live, or dead plant material, but can also include artificial materials such as houses, sheds, fences, pipelines, and trash piles. In terms of vegetation, there are six wildland fuel types (fuel type: an identifiable association of fuel elements of distinctive species, form, size, arrangement, or other characteristics that will cause a predictable rate of spread or resistance to control under specified weather conditions.) The six wildland fuel types are (NWCG 2021): • Grass Page 124 Table Of Contents Jefferson County Community Wildfire Protection Plan SWCA • Shrub • Grass-Shrub • Timber Litter • Timber-Understory • Slash-Blowdown Wildland-Urban Interface (WUI): The WUI is the line, area or zone where structures and other human development meet or intermingle with undeveloped wildland or vegetative fuels (USFA 2021a). WUI areas in the state of Washington are determined using the WA-WUI map for implementing and enforcing building codes across all counties and cities. Chapter 51-55 WAC outlines the adoption and amendment of the 2021 edition of the Wildland-Urban Interface Code. The code mandates compliance in construction within the interface or intermix areas and specifies the process for updating or designating new WUI, with only the local jurisdiction's code official having the authority to modify the WA-WUI map (WA DNR 2023a). Section 302.3.6 of WAC 51-55 outlines the process for WUI area designation. It involves determining structure density, vegetation density, and proximity categories for a given area, and based on these criteria, the site is designated as either intermix or interface, depending on the specified conditions. Compliance with the code, including the Wildland-Urban Interface Code, is then determined accordingly. Page 125 Tate of Contents Jefferson County Community Wildfire Protection Plan SWCA This page intentionally left blank. Page 126 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA REFERENCES Acker, S., and J. Kertis. 2004. Rapid Assessment Reference Condition Model, Sitka Spruce - Hemlock. Available at: https://www.fs.usda.gov/database/feis/pdfs/PNVGs/Pacific_NW/R-SSHE.pdf. Accessed December 2023. After the Fire WA. 2023. After the Fire Resources Homepage. Available at: https://afterthefirewa.org. Accessed December 2023. Bressette, D.K. 2014a. Sitka Spruce, Picea sitchensis. In Native Plants PNW. Available at: https://nativeplantspnw.com/sitka-spruce-picea-sitchensis/. Accessed December 2023. . 2014b. Western Red Cedar, Thuja Plicata. In Native Plants PNW. Available at: https://nativeplantspnw.com/western-red-cedar-thuja-plicata/. Accessed December 2023. . 2014c. Mountain Hemlock, Tsuga mertensiana. In Native Plants PNW. Available at: https://nativeplantspnw.com/mountain-hemlock-tsuga-mertensiana/. Accessed December 2023. . 2014d. Subalpine Fir, Abies lasiocarpa. In Native Plants PNW. Available at: https://nativeplantspnw.com/subalpine-fir-abies-lasiocarpa/. Accessed December 2023. Brinnon Fire Rescue. 2023. Home Page. Available at: https://brinnonfire.org. Accessed September 2023. Bureau of Indian Affairs (BIA). 2023. Wildfire Response. Available at: https://www.bia.gov/service/wildfire- response. Accessed October 2023. Butler, B.W., and J.D. Cohen. 1996. An Analytical Evaluation of Firefighter Safety Zones. 12th Fire and Forest Meteorology Conference, Lorne, Australia, 1996. California Department of Forestry and Fire Protection (CAL FIRE). 2019. Post-wildfire Recovery. Available at: https://www.readyforwildfire.org/post-wildfire/after-a-wildfire/. Accessed December 2023. . 2022. Defensible Space. Available at: https://www.fire.ca.gov/programs/communications/defensible-space-prc-4291/. Accessed October 2023. California Department of Public Health. 2017. Reduce Exposure to Ash When Returning Home After a Fire. Available at: https://www.cdph.ca.gov/Programs/CCDPHP/DEODC/CDPH%20Document%20Library/ReturnHo meAshGuide.pdf. Accessed December 2023. California Governor's Office of Planning and Research (CA GOPR). 2020. Fire Hazard Planning Technical Advisory. Available at: https://www.opr.ca.gov/docs/20201109-Draft_Wildfire_TA.pdf. Accessed December 2023. Casualty Actuarial Society (CAS). 2023. Mitigation That Matters: A Wildfire Case Study. Available at: https://ar.casact.org/mitigation-that-matters-a-wildfire-case-study/. Accessed October 2023. City of Port Townsend. 2023. Chapter 16.04 Building Construction Code. Available at: https://www.codepublishing.com/WA/PortTownsend/#I/PortTownsend 16/PortTownsend 1604.html . Accessed October 2023. Page 127 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA Clallam County Emergency Management. 2019. Clallam County Multi-Jurisdictional Hazard Mitigation Plan. Available at: https://www.clallamcountywa.gov/DocumentCenter/View/3304/Hazard- Mitigation-Plan-2019-Plan-Update-PDF. Accessed October 2023. Clallam County Fire District No. 1 (CCFPD1). 2023. The Department. Available at: https://www.clallamfire1.org/department/. Accessed December 2023. Clallam County Fire District No. 3 (CCFPD3). 2024. About. Available at: https://www.ccfd3.org/about#::text=District%20Overview,fire%20suppression%2C%20and%20p ublic%20education. Accessed June 2024. Coalition for the Upper South Platte (CUSP). 2016. The Phoenix Guide. Available at: https://cusp.ws/wp- content/uploads/2016/12/phoenix_guide.pdf. Accessed September 2023. Collins, B.D., D.R. Montgomery, K.L. Fetherston, and T.B. Abbe. 2012. The floodplain large-wood cycle hypothesis: A mechanism for the physical and biotic structuring of temperate forested alluvial valleys in the North Pacific coastal ecoregion. Geomorphology 139-140:460-470. Available at: https://www.sciencedirect.com/science/article/abs/pii/S0169555X11006088. Accessed May 2024. Congressional Research Service. 2023. Wildfire Statistics. Available at: https://sgp.fas.org/crs/misc/IF10244.pdf. Accessed December 2023. Cope, A.B. 1992. Abies amabilis. In: Fire Effects Information System. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory. Available: https://www.fs.usda.gov/database/feis/plants/tree/abiama/all.html. Accessed October 2023. Discover Washington State. 2023. Washington State Parks in Jefferson County. Available at: https://www.discoveringwashingtonstate.com/visit-these-10-washington-state-parks-in-jefferson- county/. Accessed October 2023. Discovery Bay Volunteer Fire and Rescue. 2023. Home Page. Available at: www.dbvfr.org/index.html. Accessed September 2023. Dye, A.W., M.J. Reilly, A. McEvoy, R. Lemons, K.L. Riley, J.B. Kim, and B.K. Kerns. 2024. Simulated future shifts in wildfire regimes in moist forests of Pacific Northwest, USA. Journal of Geophysical Research: Biogeosciences 129:e2023JG007722. Available at: https://doi. org/10.1029/2023JG007722. Accessed April 2024. East Jefferson Fire Rescue. 2022. East Jefferson Fire Rescue Strategic Plan 2022. Available at: https://www.ejfr.org/wp-content/uploads/2020/05/EJ FR-Strategic-Plan-2022-Accepted-11-10- 22.pdf. Accessed September 2023. . 2023. Home Page. Available at: https://www.ejfr.org. Accessed September 2023. Egan, D. 2013. Monitoring- Organizing a Landscape-Scale Forest Restoration Multi-Party Monitoring Program. 38pp. Available at: https://openknowledge.nau.edu/id/eprint/2501/1/Dubay_C_etal_2013_HandbookBreakingBarriers 3.pdf. Accessed September 2023. Evans, A., S. Auerbach, L.W. Miller, R. Wood, K. Nystrom, J. Loevner, A. Argon, M. Piccarello, and E. Krasilovsky. 2015. Evaluating the Effectiveness of Wildfire Mitigation Activities in the Wildland Urban Interface. Forest Guild, October 2015. Page 128 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA Federal Emergency Management Agency (FEMA). 2023. Social Vulnerability. Available at: https://hazards.fema.gov/nri/social-vulnerability. Accessed September 2023. Fire Adapted Communities Learning Network(FACLN). 2017. Telling the "Good Fire" Story: Two Communities' Prescribed Fire Outreach Efforts. Available at: https://fireadapted network.org/telling-good-fire-story-two-communities-prescribed-fire-outreach- efforts/. Accessed October 2023. Fire Research and Management Exchange System. 2021. Applied Wildland Fire Behavior Research and Development. Available at: https://www.frames.gov/applied-fire-behavior/home. Accessed December 2023. Forests and Rangelands. 2014. The National Strategy: The Final Phase in the Development of the National Cohesive Wildland Fire Management Strategy. Available at: https://www.forestsandrangelands.gov/strategy/documents/strategy/CSPhasel I I NationalStrategyA pr2014.pdf. Accessed December 2023. . 2023. National Cohesive Wildland Fire Management Strategy Addendum Update. Available at: https://www.forestsandrangelands.gov/documents/strategy/natl-cohesive-wildland-fire-mg mt- strategy-addendum-update-2023.pdf. Accessed December 2023. Fryer, J.L., and P.S. Luensmann. 2012. Fire regimes of the conterminous United States. Available at: https://www.fs.usda.gov/database/feis/fire_regime_table/fire_regime_table.html#3. Accessed December 2023. Graham, R., S. McCaffrey, and T. Jain. 2004. Science Basis for Changing Forest Structure to Modify Wildfire Behavior and Severity. Gen. Tech Rep. RMRS-GTR-120. Fort Collins, Colorado: U.S. Department of Agriculture Forest Service, Rocky Mountain Research Station. Grays Harbor County Department of Emergency Management. 2018. Grays Harbor County Multi- Jurisdictional 2018 Hazard Mitigation Plan Update. Available at: https://cros5.revize.com/revize/graysharborcounty/Emergency%20Management/Planning/Grays% 20Harbor%20County%20HMP_Plan_Final_2018.pdf. Accessed October 2023. Griffith, R.S. 1992. Picea sitchensis. In: Fire Effects Information System. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory (Producer). Available at: https://www.fs.usda.gov/database/feis/plants/tree/picsit/all.html. Accessed October 2023. Halofsky, J.E., D.L. Peterson, K.A. O'Halloran, and C.H. Hoffman (eds.). 2011. Adapting to climate change at Olympic National Forest and Olympic National Park. Gen. Tech. Rep. PNW-GTR-844. Portland, OR: U.S. Department of Agriculture, Forest Service, Pacific Northwest Research Station. Hoh Indian Tribe. 2022. Hoh Indian Tribe 2022 Hazard Mitigation Plan Tribe. Available at: https://hohtribe- nsn.org/wp-content/uploads/2022/10/Hoh_Tribe_HM P_Public_Review_10172022.pdf. Accessed October 2023. . 2023. Government. Available at: https://hohtribe-nsn.org/government/natural-resources/. Accessed October 2023. Page 129 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA Interagency Fuel Treatment Decision Support System (IFTDSS). 2021. About Map Values - Highly Valued Resources or Assets (HVRAs). Available at: https://iftdss.firenet.gov/firenetHelp/help/pageHelp/content/30- tasks/qwra/mapvalues/hvraabout.htm. Accessed December 2023. Island County Department of Emergency Management. 2020. Multi-Jurisdiction Hazard Mitigation Plan 2020 Update Volume 1: Planning-Area-Wide Elements. Available at: https://www.islandcountywa.gov/DocumentCenterNiew/2262/Island-County-Hazard-Mitigation- Plan-2020-Vol-1-pdf. Accessed October 2023. Jefferson County. 2019. Jefferson County Forestry Study. Available at: https://www.co.jefferson.wa.us/DocumentCenterNiew/8174/JCForestryStudy?bidld=. Accessed November 2023. . 2020. Jefferson County Forest Management Program Web Map. Available at: https://www.arcgis.com/home/webmap/viewer.html?webmap=df3327387852447492e7f147a9db9 c0f. Accessed November 2023. . 2023a. Office of the Fire Marshal. Available at: https://www.co.jefferson.wa.us/1687/Office-of-the- Fire-Marshal. Accessed October 2023. . 2023b. WUI Property Development Guide. Available at: https://www.co.jefferson.wa.us/DocumentCenterNiew/16526/WUI-Brochure. Accessed December 2023. . 2024. Noxious Weed Resources. Available at: https://jeffersoncountypublichealth.org/1046/Noxious-Weed-Resources. Accessed May 2024. Jefferson County Conservation District(JCCD). 2023. Resource Hub. Available at: https://www.jeffersoncd.org/resources/. Accessed December 2023. Jefferson County Department of Community Development. 2023a. Declaration of Ban on All Recreational Fires for All of Unincorporated Jefferson County. Available at: https://www.co.jefferson.wa.us/DocumentCenterNiew/16709/2023-Declaration-of-Burn-Ban--- final. Accessed October 2023. . 2023b. Amended Declaration of High Fire Hazard. Available at: https://www.co.jefferson.wa.us/DocumentCenterNiew/16724/Amended-High-Fire-hazard- Declaration---FINAL. Accessed October 2023. Jefferson County Department of Emergency Management(Jefferson County DEM). 2016. Jefferson County - City of Port Townsend All Hazard Mitigation Plan. Available at: https://www.co.jefferson.wa.us/DocumentCenterNiew/3318/2016-Hazard-Mitigation-Plan?bidld=. Accessed September 2023. . 2018. Comprehensive Emergency Management Plan. Available at: ttps://www.co.jefferson.wa.us/DocumentCenterNiew/3255/2018-Comprehensive-Emerg-Mgt- Plan?bidld=. Accessed October 2023. . 2023. Alerts and Warnings. Available at: https://www.co.jefferson.wa.us/1066/Alerts-Warnings. Accessed September 2023. Jefferson County Land Trust. 2010. Conservation Plan. Available at: https://www.saveland.org/wp- content/uploads/2016/06/2010_JLT_ConservationPlan_LoRes.pdf. Accessed November 2023. Page 130 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA Jefferson County Parks and Recreation. 2022. Jefferson County Parks, Recreation, Trails, & Open Space Comprehensive Plan 2022. Available at: https://jeffersoncountywa.myrec.com/forms/7581 Jefferson_county_parks_recreation_open_spac e_and_trails_comprehensive_plan_october 10_2022.pdf. Accessed September 2023. Jefferson County Public Utility District. 2023. Jefferson County PUD 2021 Water System Plan -Technical Standards and Specifications. Available at: https://www.jeffpud.org/wp- content/uploads/2021/05/Standards-and-Specs-Workbook.pdf. Accessed December 2023. Kertis, J., K. Kopper, and S. Acker. 2004. Rapid Assessment Reference Condition Model, Douglas-fir Hemlock-Wet Mesic. Available at: https://www.fs.usda.gov/database/feis/pdfs/PNVGs/Pacific_NW/R-DFHEwt.pdf. Accessed October 2023. Kitsap County Department of Emergency Management. 2020. Kitsap County Multi-hazard Mitigation Plan. Available at: https://www.kitsapdem.com/wp-content/uploads/2021/08/2019-multi-hazard- mitigation-plan-for-Kitsap-County-WA.pdf. Accessed October 2023. Kopper, K., and S. Acker. 2004. Rapid Assessment Reference Condition Model, Subalpine Fir. Available at: https://www.fs.usda.gov/database/feis/pdfs/PNVGs/Pacific_NW/R-ABLA.pdf. Accessed October 2023. LANDFIRE. 2020. LANDFIRE Remap 2016 Biophysical Settings (BPS) CONUS. Available at: https://landfire.gov/frg.php. Accessed January 2023. Long, J.W., F.K. Lake, and R.W. Goode. 2021. The importance of Indigenous cultural burning in forested regions of the Pacific West, USA. Forest Ecology and Management 500 (2021):119597, ISSN 0378-1127, https://doi.org/10.1016/j.foreco.2021.119597. Lovreglio, R., O. Meddour-Sahar and V. Leone. 2014. Goat grazing as a wildfire prevention tool: a basic review. iForest 7:260-268. doi: 10.3832/ifor1112-007 Mason County Division of Emergency Management. 2023. Mason County Multi-Jurisdictional 2023 Hazard Mitigation Plan Update. Available at: https://masoncountywa.gov/dem/plan- update/H MP_Hazard_Chapters_04192023.pdf. Accessed October 2023. Mathys, A., N.C. Coops, R.H. Waring. 2014. Soil water availability effects on the distribution of 20 tree species in western North America. Forest Ecology and Management 313:144-152. McDougall, Susan. 1991. Photo Credit of Pacific silver fir. United State, Washington, Mount Rainier National Park. Available at: https://plants.usda.gov/home/plantProfile?symbol=ABAM. Accessed December 2023. National Fire Protection Association (NFPA). 2022. Preparing Homes for Wildfire. Available at: https://www.nfpa.org/Public-Education/Fire-causes-and-risksW Idfire/Preparing-homes-for- wildfire. Accessed October 2023. National Geographic Society. 2021. Resource Library, Wildfires. Available at: https://www.nationalgeographic.org/encyclopedia/wildfires/. Accessed December 2023. Page 131 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA National Institute of Standards and Technology. 2023. WUI Definitions. Available at: https://www.nist.gov/el/fire-research-division-73300/wildland-urban-interface-fire-73305/hazard- mitigation-methodology- 9#:-:text=Interface%3A%20High%2Ddensity%20development%20adjacent,mingled%20with%20 undeveloped%20wildland%20vegetation. Accessed March 2024. National Interagency Fire Center(NIFC). 2022. Post Fire Recovery. Available at: https://www.nifc.gov/programs/post-fire-recovery. Accessed December 2023. National Park Service (NPS). 2005. Olympic National Park Fire Management Plan. Available at: https://www.nps.gov/olym/learn/management/upload/FI NAL-OLYM-FMP-11212005.pdf. Accessed September 2023. . 2008. Olympic National Park General Management Plan. Available at: https://parkplanning.nps.gov/projectHome.cfm?projectlD=10233. Accessed October 2023. . 2015. Invasive Exotic Plants. Available at: https://www.nps.gov/olym/learn/nature/invasiveplants.htm. Accessed May 2024. . 2016. Olympic National Park Fire History. Available at: https://www.nps.gov/olym/learn/management/fire-history.htm. Accessed September 2023. National Wildfire Coordinating Group (NWCG). 1998. Fireline Handbook. NWCG Handbook 3. PMS 410- 1. NFES 0065. Boise: National Interagency Fire Center. . 2020. Smoke Management Guide for Prescribed Fire. Available at: https://www.nwcg.gov/sites/default/files/publications/pms420-3.pdf. Accessed September 2023. . 2021. NWCG Glossary of Wildland Fire, PMS 205. Available at: https://www.nwcg.gov/publications/pms205/nwcg-glossary-of-wildland-fire-pms-205. Accessed June 2024. National Park Service (NPS) and U.S. Department of the Interior. 2005. Olympic National Park Fire Management Plan. Available at: https://www.nps.gov/olym/learn/management/upload/FINAL- OLYM-FMP-11212005.pdf. Accessed December 2023. National Register of Historic Places. 2023. Washington-Jefferson County. Available at: https://nationalregisterofhistoricplaces.com/wa/jefferson/state.html. Accessed September 2023. National Science Foundation. 2022. Climate change increases risks of tree death. Available at: https://new.nsf.gov/news/climate-change-increases-risks-tree-death. Accessed December 2023. National Weather Service. 2023a. NOWData- NOAA Online Weather Data, Quilcene station. Available at: https://www.weather.gov/wrh/climate?wfo=sew. Accessed September 2023. . 2023b. NOWData-NOAA Online Weather Data, Chimacum station. Available at: https://www.weather.gov/wrh/climate?wfo=sew. Accessed September 2023. . 2023c. NOWData- NOAA Online Weather Data, Olympic Area, WA. Available at: https://www.weather.gov/wrh/climate?wfo=sew. Accessed December 2023. Page 132 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA New Mexico Future Farmers of America. 2010. Introduction to Wildland Fire Behavior for NM Forestry CDE. Available at: http://www.nmffa.org/uploads/4/1/0/7/41075673/wildland_fire_behavior.pdf#: :text=Wildland%20f uels%20are%20basically%20live%20and%2For%20dead%20plant,fire%20behavior%20is%20de pendent%20on%20certain%20fue1%20characteristics%3A. Accessed December 2023. Northwest Climate Adaptations Science Center. 2020. Decline of Western Redcedar: Using Tree Rings to Understand Mortality Patterns and Identify Drought-Resilient Populations Under Climate Change. Available at: https://nwcasc.uw.edu/science/project/decline-of-western-red-cedar-using-tree-rings- to-understand-mortality-patterns-and-identify-drought-resilient-populations-under-climate- change/. Accessed January 2024. Northwest Interagency Coordination Center. 2023. Welcome to the Northwest Coordination Center. Available at: https://gacc.nifc.gov/nwcc/. Accessed: October 2023. Northwest Natural Resource Group. 2021. Hands-On Forest Health Strategies for Jefferson County Forest Owners. Available at: https://www.nnrg.org/hands-on-forest-health-strategies-for-jefferson- county-forest-owners/. Accessed November 2023. Olympic Region Fire Defense Board. 2021. Olympic Region Fire Defense Plan. Available at: https://www.quilcenefirerescue.org/files/728b70119/orfdp_v7.1.pdf. Accessed December 2023. Powell, D. 2002. Photo credit from Pseudotsuga menziesii var. glauca. In: Fire Effects Information System. Available at: https://www.fs.usda.gov/database/feis/plants/tree/psemeng/all.html. Accessed December 2023. Quinault Indian Nation (QIN). 2023a. About Us. https://www.quinaultindiannation.com/. Accessed October 2023. . 2023b. Quinault Indian Nation Tribal Hazard Mitigation Plan Update. Available at: https://www.quinaultindiannation.com/THMP.htm. Accessed October 2023. . n.d. Quinault Indian Nation Hazard Summary. Available at: https://www.quinaultindiannation.com/documents/Synposis%20of%20Risk%20Analysis%202023. pdf. Accessed October 2023. Quilcene Fire Rescue. 2023. Home Page. Available at: https://www.quilcenefirerescue.org/about-us. Accessed September 2023. Rayonier. 2023. Image credit from Working to Prevent Wildfire Through Responsible Management. Clear cut image. Available at: https://www.rayonier.com/our-land-base/wildfire-prevention/. Accessed December 2023. Read, W. 2015. The 1962 Columbus Day Storm. Available at: https://www.climate.washington.edu/stormking/October1962.html. Accessed September 2023. Reeves, S.L. 2007. Arbutus menziesii. In: Fire Effects Information System. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory. Available at: https://www.fs.usda.gov/database/feis/plants/tree/arbmen/all.html#::text=Pacific%20madrone%2 Ois%20most%20abundant,northern%20portion%20of%20its%20range. Accessed November 2023. Page 133 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA Rothermel, R.C. 1983. How to Predict the Spread and Intensity of Forest and Range Fires. Gen. Tech. Rep. INT-143. Ogden, Utah: U.S. Department of Agriculture, Forest Service, Intermountain Forest and Range Experiment Station. Scott, J.H., and R.E. Burgan. 2005. Standard Fire Behavior Fuel Models: A Comprehensive Set for Use with Rothermel's Surface Fire Spread Model. Available at: https://www.resolutionmineeis.us/sites/default/files/references/scott-burgan-2005.pdf. Accessed September 2023. Society of American Foresters. 2004. Preparing a Community Wildfire Protection Plan: A Handbook for Wildland Urban Interface Communities. Sponsored by Communities Committee, National Association of Counties, National Association of State Foresters, Society of American Foresters, and Western Governors' Association. Available at: https://gacc.nifc.gov/gbcc/dispatch/wy- tdc/documents/information/education-prevention/cwpphandbook.pdf. Accessed December 2023. Snover, A.K, G.S. Mauger, L.C. Whitely Binder, M. Krosby, and I. Tohver. 2013. Climate Change Impacts and Adaptation in Washington State: Technical Summaries for Decision Makers. State of Knowledge Report prepared for the Washington State Department of Ecology. Climate Impacts Group, University of Washington, Seattle. Available at: https://cig.uw.edu/wp- content/uploads/sites/2/2020/12/snoveretalsok816.pdf. Accessed November 2023. Suzuki, S., and S.L. Manzello. 2021. Ignition vulnerabilities of combustibles around houses to firebrand showers: further comparison of experiments. Sustainability 13(4). SWCA Environmental Consultants (SWCA). 2019. Environmental Assessment Olympic National Park Fire Management Plan. Available at: https://parkplanning.nps.gov/document.cfm?documentlD=93963. Accessed October 2023. Tesky, J.L. 1992a. Thuja plicate. In: Fire Effects Information System, U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory. Available at: https://www.fs.usda.gov/database/feis/plants/tree/thupli/all.html#BOTANICAL%20AND%20ECOL OGICAL%20CHARACTERISTICS. Accessed November 2023. Team Rubicon. 2022. Capabilities and Services. Available at: https://teamrubiconusa.org/capabilities- services/. Accessed December 2023. Uchytil, R.J. 1991. Abies lasiocarpa. In: Fire Effects Information System. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory. Available: https://www.fs.usda.gov/database/feis/plants/tree/abilas/all.html. Accessed October 2023. University of California Division of Agriculture and Natural Resources (UCANR). 2019. Grazing for fire fuels management. Available at: https://ucanr.edu/blogs/blogcore/postdetail.cfm?postnum=31445. Accessed November 2023. . 2021a. Manual. Available at: https://ucanr.edu/sites/fire/Prepare/Treatment/Manual/. Accessed November 2023. . 2021 b. Mechanical. Available at: https://ucanr.edu/sites/fire/Prepare/Treatment/Mechanical/. Accessed November 2023. . 2024. UCANR Fire Network: Assess risks and prioritize your actions. Available at: https://ucanr.edu/sites/fire/Preparedness/Building/. Accessed June 2024. Page 134 Table of Contents Jefferson County Community Wildfire Protection Plan SVVCA University of Washington Climate Impact Group. 2009. The Washington Climate Change Impacts Assessment. Available at: https://cig.uw.edu/wp- content/uploads/sites/2/2020/12/wacciareport681-3.pdf. Accessed October 2023. . 2023a. How will climate change affect Northwest forests? Part two of five in the series: Climate Impacts In The Northwest. Available at: https://express.adobe.com/page/udaAw5GCBxYBe/. Accessed November 2023. . 2023b. Climate Impacts in the Northwest; Forests. Available at: https://express.adobe.com/page/udaAw5GCBxYBe/. Accessed October 2023. U.S. Census Bureau. 2022a. Quick Facts: Jefferson County, Washington. Available at: https://www.census.gov/quickfacts/fact/table/jeffersoncountywashington/PST040222#PST040222 . Accessed September 2023. . 2022b. ACS Demographic and Housing Estimates. Available at: https://data.census.gov/table?q=Jefferson+County,+Washington. Accessed September 2023. U.S. Department of Agriculture(USDA).2005.Terminology and Definitions Associated with Revegetation. Available at: https://www.nres.usda.gov/I nternet/FSE_PLANTMATERIALS/publications/ wapmctn6333.pdf. Accessed November 2023. . 2012a. Fire regimes of Pacific Northwest coastal forests, Fire Effects Information System. Available at: https://www.fs.usda.gov/database/feis/fire_regimes/PN_coastal_forest/all.html. Accessed October 2023. . 2012b. Fire regimes of mesic-dry western hemlock communities, Fire Effects Information System. Available at: https://www.fs.usda.gov/database/feis/fire_regimes/Western_hemlock_dry/all.html. Accessed October 2023. . 2012c. Fire regimes of wet-mesic western hemlock communities, Fire Effects Information System. Available at: https://www.fs.usda.gov/database/feis/fire_regimes/Western_hemlock_wet/all.html. Accessed October 2023. . 2012d. Fire regimes of Pacific Northwest mountain hemlock communities, Fire Effects Information System. Available at: https://www.fs.usda.gov/database/feis/fire_regimes/PN_mountain_hemlock/all.html. Accessed October 2023. . 2023. Olympic National Forest Current and Recent Projects. Available at: https://www.fs.usda.gov/projects/olympic/landmanagement/projects. Accessed October 2023. U.S. Environmental Protection Agency (EPA). 2019. Wildfire Smoke: A Guide for Public Health Officials. Available at: https://www.airnow.gov/sites/default/files/2021-05/wildfire-smoke-guide-revised- 2019.pdf. Accessed September 2023. . 2023a. Air Plan Approval; WA; Smoke Management Plan Update. Available at: https://www.federalregister.gov/documents/2023/08/10/2023-16409/air-plan-approval-wa-smoke- management-plan-update. Accessed September 2023. . 2023b. EPA approves Washington's Smoke Management Plan to allow strategic use of prescribed fires to manage forest health and protect air quality. Available at: https://www.epa.gov/newsreleases/epa-approves-washingtons-smoke-management-plan-allow- strategic-use-prescribed-fires. Accessed September 2023. Page 135 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA U.S. Fire Administration (USFA). 2020. Exposures. Available at: https://www.usfa.fema.gov/nfirs/coding- help/nfirsgrams/nfirsgram-including-exposures.html. Accessed November 2023. . 2021. Fire-Adapted Communities. Available at: https://www.usfa.fema.gov/wui/communities/. Accessed December 2023. U.S. Forest Service (USFS). 2022. Pacific Southwest Region (R5) Post-Fire Recovery Action Plan 2022 (Version 1.0). Available at: https://www.fs.usda.gov/Internet/FSE_DOCUMENTS/fseprd1062404.pdf. Accessed December 2023. . 2023a. Root Diseases in Oregon and Washington Conifers. Available at: https://www.fs.usda.gov/detail/r6/forest-grassland health/insects-diseases/?cid=fsbdev2_027376. Accessed October 2023. 2023b. Olympic Non-Commercial Thinning Olympic National Forest Hood Canal Ranger District. Available at: https://www.highergov.com/document/1240bd23g0067-1095999-oly-non- commercialthinning-pdf-07de50/. Accessed November 2023. . 2024. Olympic National Forest. Available at: https://www.fs.usda.gov/olympic/. Accessed June 2024. n.d. After the Fire. Available at: https://www.fs.usda.gov/science-technology/fire/after-fire. Accessed December 2023. U.S. Fish and Wildlife Service (USFWS). n.d. Information for Planning and Consultation Tool. Available at: https://ipac.ecosphere.fws.gov/location/FBTDFVX7ZNAJ BFV7Y4ZMQCM KEM/resources#endan gered-species. Accessed January 2023. . 2007. Washington Island National Wildlife Refuges Comprehensive Conservation Plan. Available at. https://permanent.fdlp.gov/LPS105595/LPS 105595/www.fws.gov/pacific/planning/main/docs/WA/ waislands/WAIsICCP.pdf. Accessed October 2023. . 2022. Fire Management. Available at: https://www.fws.gov/program/fire-management. Accessed December 2023. . 2023a. Fire Management. Available at: https://www.fws.gov/program/fire-management. Accessed October 2023. . 2023b. Quillayute Needles Wildlife Refuge. Available at: https://www.fws.gov/refuge/quillayute- needles. Accessed October 2023. U.S. Geological Survey (USGS). 2021. What is an invasive species and why are they a problem? Available at: https://www.usgs.gov/faqs/what-invasive-species-and-why-are-they-a-problem?qt- news_science_products=0#qt-news_science_products. Accessed November 2023. Van Pelt, R. 2007. Identifying Mature and Old Growth Forests in Western Washington. Available at: https://www.dnr.wa.gov/publications/Im_hcp_west_oldgrowth_guide_full_lowres.pdf. Accessed December 2023. Page 136 Table of Contents Jefferson County Community Wildfire Protection Plan SWC1 Washington Geospatial Open Data Portal. 2024. Washington Large Fires 1973-2023. Available at: https://geo.wa.gov/datasets/6f31 b076628d4f8ca5a964cbefd2cccc_0/about. Accessed March 2024. Washington Smoke Information. 2023. Washington Smoke Information Blog. Available at: https://wasmoke.blogspot.com. Accessed September 2023. Washington State Building Code Council. 2023. 2021 Washington Wildland-Urban Interface Code First Edition. Available at: https://www.sbcc.wa.gov/sites/default/files/2023- 05/2021%20WAWU IC%201nsert%20Pages%201st%20Printing.pdf. Accessed 2023. Washington State Department of Ecology. 2024. Statewide drought declared due to low snowpack and dry forecast. Available at: https://ecology.wa.gov/about-us/who-we-are/news/2024-news- stories/april-16-drought-declaration. Accessed April 2024. Washington State Department of Natural Resources (WA DNR). 2018. Washington State Wildland Fire Protection 10-Year Strategic Plan. Available at: https://www.dnr.wa.gov/publications/rp_wildfire_plan_summary.pdf. Accessed October 2023. . 2019. Washington State Wildland Fire Protection 10-Year Strategic Plan. Available at: https://www.dnr.wa.gov/publications/rp_wildfire_strategic_plan.pdf. Accessed September 2023. . 2020a. Forest Health Treatment Prioritization and Implementation on State Trust Lands in Eastern Washington. Available at: https://www.dnr.wa.gov/sites/default/files/publications/rp_2020_hb1711_report.pdf. Accessed October 2023. . 2020b. Plan for Climate Resilience. Available at: https://www.dnr.wa.gov/publications/em_climateresilienceplan_lpager.pdf. Accessed October 2023. . 2021. Forest Health Highlights in Washington. Available at: https://www.dnr.wa.gov/publications/rp_fh_2022_forest_health_high lights.pdf. Accessed October 2023. . 2022a. 2022 Forest Action Plan Annual Report. Available at: https://www.dnr.wa.gov/sites/default/files/publications/rp_2022_forest_action_plan_annual_report .pdf. Accessed October 2023. . 2022b. 20-Year Forest Health Strategic Plan: Eastern Washington I Summary. Available at: https://www.dnr.wa.gov/publications/rp_forest_health_summary.pdf?hiyez. Accessed October 2023. . 2022c. Washington Large Fires 1973-2022. Available at: https://geo.wa.gov/datasets/6f31 b076628d4f8ca5a964cbefd2cccc/explore?location=47.336210% 2C-120.225150%2C8.22. Accessed October 2023. . 2023a. Community Wildfire Protection Plan Guidance. Available at: https://www.dnr.wa.gov/sites/default/files/publications/rp_cwpp_gu idance_04102023.pdf.pdf. Accessed October 2023. . 2023b. Fighting Fire. Available at: https://www.dnr.wa.gov/FightingFire. Accessed October 2023. Page 137 Table of Contents Jefferson County Community Wildfire Protection Plan SWCA . 2023c. Wildfire Resources. Available at: https://www.dnr.wa.gov/programs-and-services/wildfire- resources. Accessed October 2023. . 2023d. DNR Regions and Districts. Available at: https://www.dnr.wa.gov/about/dnr-regions-and- districts. Accessed October 2023. . 2023e. Emergency Preparedness. Available at: https://www.dnr.wa.gov/programs-and- services/geology/geologic-hazards/emergency-preparedness#families,-individuals,-and-pets.4. Accessed December 2023. . 2023f. Prescribed Fire Program. Available at: https://www.dnr.wa.gov/prescribedfire. Accessed October 2023. . 2023g. Managed Lands. Available at: https://www.dnr.wa.gov/managed-lands. Accessed October 2023. . 2023h. Forest and Trust Lands. Available at: https://www.dnr.wa.gov/managed-lands/forest-and- trust-lands. Accessed October 2023. . 2023i. Aquatics. Available at: https://www.dnr.wa.gov/programs-and-services/aquatics. Accessed October 2023. . 2023j. Natural Areas. Available at: https://www.dnr.wa.gov/managed-lands/natural-areas . 2023k. Wildfire Smoke. Available at: https://www.dnr.wa.gov/smoke. Accessed September 2023. . 20231. Prescribed Fire Program. Available at: https://www.dnr.wa.gov/prescribedfire. Accessed September 2023. . 2023m. WA DNR Burn Portal. Available at: https://burnportal.dnr.wa.gov. Accessed September 2023. . 2023n. Wildfire-Associated Debris Flows. Available at: https://www.dnr.wa.gov/wildfire-debris- flows. Accessed October 2023. Washington State Department of Transportation (WSDOT). 2023. Emergency management. Available at: https://wsdot.wa.gov/about/emergency-management. Accessed October 2023. Washington State Emergency Management Division (Washington State EMD). 2023. Recovery. Available at: https://mil.wa.gov/recovery. Accessed October 2023. Washington State Fire Adapted Communities Learning Network (WAFAC). 2023. Our Work. Available at: https://www.fireadaptedwashington.org/our-work/. Accessed October 2023. Washington State Fire Marshal's Office. 2023. Washington State Fire Services Resource Mobilization Plan. Available at: https://www.wsp.wa.gov/wp-content/uploads/2023/06/2023-Mobilization-Plan- 1.pdf. Accessed October 2023. Washington State Legislature. 2017. SB 5546-2017-18. Available at: https://app.leg.wa.gov/billsummary?BillNumber=5546&Year=2017. Accessed October 2023. . 2018a. HB 2561 -2017-18. Available at: https://app.leg.wa.gov/billsummary?BillNumber=2561&Year=2017. Accessed October 2023. . 2018b. Substitute House Bill 2733. Available at: https://lawfilesext.leg.wa.gov/biennium/2017- 18/Pdf/Bills/House%20Bills/2733-S.pdf. Accessed October 2023. Page 138 Table of Contents Jefferson County Community Wildfire Protection Plan C S A W . 2018c. Final Bill Report. Available at: https://apps.leg.wa.gov/documents/billdocs/2017- 18/Pdf/Bill%20Reports/Senate/6211.E%20SBR%20FBR%2018.pdf. Accessed October 2023. . 2023a. HB 1168 -2021-22. Available at: https://app.leg.wa.gov/billsummary?BiIlNumber=1168&Year=2021. Accessed October 2023. . 2023b. Chapter 51-54A WAC. Available at: https://apps.leg.wa.gov/wac/default.aspx?cite=51- 54A. Accessed October 2023. . 2023c. SB 5126 -2021-22. Available at: https://app.leg.wa.gov/billsummary?billnumber=5126&year=2021. Accessed October 2023. -. 2024. HB 1578 -2023-24. Available at: https://app.leg.wa.gov/billsummary?BiIlNumber=1578&Year=2023#::text=Improving%20commu nity%20preparedness%2C%20response%2C%20recovery,in%20the%20wildland%20urban%20i nterface. Accessed January 2024. Washington State Noxious Weed Control Board. 2023. Noxious Weed List. Available at: https://www.nwcb.wa.gov/printable-noxious-weed-list. Accessed September 2023. Washington State Office of the Insurance Commissioner(OIC). 2023a. Wildfires And Homeowner Insurance. Available at: https://www.insurance.wa.gov/wildfires-and-homeowner-insurance. Accessed October 2023a. -. 2023b. Consumer alert: Kreidler's advice for claims from wildfire damage. Available at: https://www.insurance.wa.gov/news/consumer-alert-kreidlers-advice-claims-wildfire-damage. Accessed October 2023b. Washington State Post-Wildfire Flood Committee (PWFC). 2023. Available at: https://afterthefirewa.org/about-the-pwfc/. Accessed October 2023. Washington State University. 2023. Photo credit from Pacific Madrone About Madrone. Available at: https://ppo.puyallup.wsu.edu/madrone/about/. Accessed December 2023. Watts, A.C., and L.N. Kobziar. 2013. Smoldering combustion and ground fires: ecological effects and multi-scale significance. Fire Ecology 9:124-132. https://doi.org/10.4996/fireecology.0901124 Western Regional Climate Center. 2023a. Quilcene 2 SW, Washington Daily Precipitation Average and Extreme. Available at: https://wrcc.dri.edu/cgi-bin/cliMAIN.pl?wa6846. Accessed November 2023. -. 2023b. Chimacum 4 S, Washington Daily Precipitation Average and Extreme. Available at: https://wrcc.dri.edu/cgi-bin/cliMAlN.pl?wa1414. Accessed November 2023. -. 2023c. Clearwater, Washington Daily Precipitation Average and Extreme. Available at: https://wrcc.dri.edu/cgi-bin/cliMAIN.pl?wa1496. Accessed November 2023. Wooten, George.2021. Fire and fuels management: Fire and fuels management: Definitions, ambiguous terminology and references. Available at: https://www.nps.gov/olym/learn/management/upload/fire-wildfire-definitions-2.pdf. Accessed December 2023. Wray, J., and M. K. Anderson. 2003. Restoring Indian-set fires to Prairie ecosystems on the Olympic Peninsula. Available at: https://doi.org/10.3368/er.21.4.296.Accessed January 2024. Page 139 Table of Contents Jefferson County Community Wildfire Protection Plan S V V IA This page intentionally left blank. Page 140 Table of Contents