Wildland Fire Smoke in the United States : : A Scientific Assessment.

Wildland Fire Smoke in the United States : : A Scientific Assessment.

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This open access book synthesizes current information on wildland fire smoke in the United States, providing a scientific foundation for addressing the production of smoke from wildland fires. This will be increasingly critical as smoke exposure and degraded air quality are expected to increase in e...

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Peterson, David L.
TeilnehmendeR:
McCaffrey, Sarah M.
Patel-Weynand, Toral.
Place / Publishing House:Cham : : Springer International Publishing AG,, 2022.
©2022.
Year of Publication:2022
Language:English
Physical Description:1 online resource (346 pages)
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spelling Peterson, David L.
Wildland Fire Smoke in the United States : A Scientific Assessment.
Cham Springer Nature 2022
Cham : Springer International Publishing AG, 2022.
©2022.
1 online resource (346 pages)
text txt rdacontent
computer c rdamedia
online resource cr rdacarrier
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Intro -- Foreword -- Acknowledgments -- Disclaimer -- Contents -- 1 Assessing the State of Smoke Science -- 1.1 Recent Trends -- 1.2 Environmental and Social Context -- 1.3 Overview of This Assessment -- References -- 2 Fuels and Consumption -- 2.1 Introduction -- 2.1.1 Understanding How Fuels Contribute to Smoke -- 2.2 Wildland Fuels -- 2.2.1 Fuel Characteristics -- 2.2.2 Traditional Methods to Estimate Wildland Fuel Loadings -- 2.2.3 Emerging Technologies and Methods -- 2.3 Fuel Consumption -- 2.3.1 Indirect Estimates of Fuel Consumption -- 2.3.2 Direct Measures of Fuel Consumption -- 2.4 Gaps in Wildland Fuels Characterization -- 2.4.1 Scaling from Fine-Scale to Coarse-Scale Fuel Characterization -- 2.4.2 Challenges in Forest Floor Characterization -- 2.4.3 Modeling Spatial and Temporal Dynamics of Wildland Fuels -- 2.5 Vision for Improving Fuel Science in Support of Smoke Science -- 2.6 Science Delivery to Managers -- 2.7 Research Needs -- 2.8 Conclusions -- References -- 3 Fire Behavior and Heat Release as Source Conditions for Smoke Modeling -- 3.1 Introduction -- 3.2 Current State of Science -- 3.2.1 Representing Fire in Smoke Models -- 3.2.2 Remote Sensing -- 3.2.3 Effects of Management Actions -- 3.3 Gaps in Understanding the Link Between Fire Behavior and Plume Dynamics -- 3.3.1 Heat Release -- 3.3.2 Fire Spread -- 3.3.3 Plume Cores -- 3.4 Vision for Improving Smoke Science -- 3.5 Emerging Issues and Challenges -- 3.5.1 Magnitude of Fire and Smoke Impacts -- 3.5.2 Managing Fuels to Minimize Air Quality Impacts -- 3.5.3 Need for Dispersion Climatologies -- 3.5.4 When and Where is Coupled Fire-Atmosphere Modeling Needed? -- 3.6 Conclusions -- 3.7 Key Findings -- 3.8 Key Information Needs -- References -- 4 Smoke Plume Dynamics -- 4.1 Introduction -- 4.1.1 Scientific Significance -- 4.1.2 Management Significance.
4.2 Current State of Science -- 4.2.1 Theoretical Framework -- 4.2.2 Smoke Measurements -- 4.2.3 Smoke Plume Modeling -- 4.2.4 Interactive Processes -- 4.2.5 Smoke Decision Support Systems -- 4.3 Gaps in Understanding Plume Dynamics -- 4.3.1 Measurements -- 4.3.2 Plume Rise -- 4.3.3 Dispersion and Transport Modeling -- 4.3.4 Nighttime Smoke -- 4.3.5 Physics-Based Fire Models -- 4.3.6 Smoke Management for Prescribed Fires -- 4.4 Vision for Improving Plume Dynamics Science -- 4.4.1 New Research on Observational and Computational Capabilities -- 4.4.2 New Approaches and Tools -- 4.4.3 New Projects -- 4.4.4 Recent Policies and Integration with Smoke Impacts Research -- 4.5 Emerging Issues and Challenges -- 4.5.1 Coupled Modeling Systems -- 4.5.2 Improving Modeling Tools with Field Campaign Data -- 4.5.3 Real-Time Smoke Transport Modeling and Prediction -- 4.5.4 Smoke from Duff Burning Under Drought Conditions -- 4.5.5 Smoke Plume Dynamics and Climate Change -- 4.5.6 Smoke Dynamics in the Earth System -- 4.6 Conclusions -- 4.7 Key Findings -- References -- 5 Emissions -- 5.1 Introduction -- 5.2 Current State of the Science -- 5.2.1 Fuel Properties, Combustion Processes, and Emissions -- 5.2.2 Smoke Composition and Emission Factors -- 5.2.3 Emission Calculations -- 5.3 Existing Data, Tools, Models, and Other Technology -- 5.3.1 Emission Factors -- 5.3.2 Emission Inventories -- 5.3.3 Emission Models for Land Management -- 5.4 Gaps in Data, Understanding, and Tools/Technology -- 5.4.1 Emission Factors for Wildfires -- 5.4.2 Connecting Laboratory Studies with Field Observations -- 5.4.3 Variability of EFs with Combustion Conditions -- 5.4.4 Validation of Emission Inventories -- 5.4.5 Forecasting Wildfire Emissions -- 5.4.6 Measuring and Modeling PM2.5 -- 5.4.7 Emissions of Hazardous Air Pollutants -- 5.4.8 Emissions from Structure Fires -- 5.5 Conclusions.
References -- 6 Smoke Chemistry -- 6.1 Introduction -- 6.1.1 Overview and Context of the Issues -- 6.1.2 Need for Decision Support -- 6.1.3 Scientific Challenges -- 6.2 Current State of the Science -- 6.2.1 Well-Understood Aspects of Smoke Chemistry -- 6.2.2 Existing Data, Tools, Models, and Other Technology -- 6.3 Gaps in Data, Understanding, and Tools/Technology -- 6.3.1 Ozone Data Gaps -- 6.3.2 Secondary Organic Aerosol Data Gaps -- 6.3.3 Model Gaps -- 6.4 Vision for Improving Our Understanding of Smoke Chemistry -- 6.4.1 Near-Term Opportunities -- 6.4.2 Long-Term Priorities for Improving Smoke Chemistry Knowledge -- 6.5 Emerging Issues -- 6.5.1 Higher Particulate Matter, Ozone, and Hazardous Air Pollutants from Fires in Western States -- 6.5.2 How Prescribed Burning Affects Smoke Chemistry -- 6.5.3 Clarifying Specific Health Effects -- 6.6 Links with Other Components of the Smoke Assessment -- 6.6.1 Fire Behavior and Plume Dynamics -- 6.6.2 Fuel Characterization -- 6.6.3 Smoke Emissions -- 6.6.4 Effects on People, Health, Transportation, and Commerce -- 6.7 Conclusions -- 6.7.1 Key Research Needs and Priorities -- 6.7.2 Opportunities for Shared Stewardship to Improve Smoke Science and Management -- References -- 7 Social Considerations: Health, Economics, and Risk Communication -- 7.1 Introduction -- 7.2 Health Effects Attributed to Wildland Fire Smoke -- 7.2.1 Wildland Fire Smoke Exposure -- 7.2.2 Epidemiologic Evidence-Wildfire Smoke and PM2.5 -- 7.2.3 Other Smoke Pollutants Associated with Health Risks -- 7.2.4 Occupational/Cumulative and Chronic Exposures -- 7.3 Economic Costs and Losses from Smoke -- 7.3.1 Theoretical Costs and Losses -- 7.3.2 Health Costs and Losses -- 7.3.3 Evacuation as an Averting Behavior -- 7.3.4 Displaced Recreation and Tourism -- 7.4 Social Acceptance and Risk Communication -- 7.4.1 Social Acceptability.
7.4.2 Risk Communication -- 7.5 Key Findings -- 7.6 Key Information Needs -- 7.6.1 Understudied Health Effects -- 7.6.2 Health Benefits and Trade-Offs of Public Health Interventions -- 7.6.3 Economic Impacts -- 7.6.4 Central Repository of Standards and Actions -- 7.7 Conclusions -- References -- 8 Resource Manager Perspectives on the Need for Smoke Science -- 8.1 Introduction -- 8.2 Managing Wildland Fire to Improve Ecosystem Conditions While Minimizing Smoke Impacts -- 8.2.1 Smoke Concerns and Barriers to Prescribed Fire -- 8.2.2 Applying Prescribed Fire Across Large Landscapes -- 8.2.3 Utilizing Wildfires and Natural Ignitions -- 8.2.4 Implications of Wildfire Response Actions and Suppression for Air Quality -- 8.2.5 Alternatives to Burning-Evaluating Emissions Reduction -- 8.2.6 Effects of Fuel Moisture on Emissions and Dispersion -- 8.2.7 Fuel Type, Fuel Loading, and Fuel Consumption -- 8.2.8 Techniques for Minimizing Smoke Impacts -- 8.2.9 Components of Wildland Fire Smoke -- 8.2.10 Soils and Emissions -- 8.2.11 Remote Sensing and Data for Fuels, Fire, and Smoke -- 8.2.12 Prescribed Fire Tracking Data -- 8.2.13 Fire Emissions and the National Emissions Inventory -- 8.3 Wildland Fire and Smoke Decision Tools -- 8.3.1 Multiple Fires and Airshed Analysis -- 8.3.2 Fire Growth Models and Smoke Dispersion -- 8.3.3 Background Air Quality Conditions -- 8.3.4 Smoke Models for Fire Planning -- 8.3.5 Use of Air Quality Measurements -- 8.3.6 Air Quality Impacts of Prescribed Fire Versus Wildfire -- 8.3.7 Smoke Model Performance and Accuracy -- 8.3.8 Long-Range Forecasts and Projections for Planning and Early Warning -- 8.3.9 Tools and Data Needs for the Future -- 8.3.10 Identifying Areas at High Risk from Wildfire and Smoke -- 8.4 Health, Safety, and Societal Impacts of Smoke -- 8.4.1 What is a Smoke-Affected Day?.
8.4.2 Effects of Smoke Exposure on Human Health for Different Exposure Scenarios -- 8.4.3 Health Effects of Constituents of Smoke Beyond Particulate Matter -- 8.4.4 Smoke and Mental Health -- 8.4.5 Smoke and Visibility Reduction on Roadways -- 8.4.6 Visibility Conditions in Class I Areas -- 8.5 Outreach and Messaging About Smoke -- 8.5.1 Smoke Ready Interventions -- 8.5.2 Air Quality Conditions and Advisories -- 8.5.3 National Weather Service -- 8.5.4 Interagency Wildland Fire Air Quality Response Program and Air Resource Advisors -- 8.6 Transfer of Smoke and Air Quality Science and Tools to Managers -- 8.6.1 Formal Fire and Smoke Training Opportunities -- 8.6.2 Informal Training and Collaboration Opportunities -- 8.6.3 Websites, Webinars, Etc. -- 8.6.4 Learning Pathways -- 8.6.5 Maintaining Contact -- 8.7 Managing Smoke in a Changing Environment -- References -- Appendix A Regional Perspectives on Smoke Issues and Management -- Alaska Region -- Ecological and Social Context -- Prescribed Fire and Smoke -- Smoke Research Needs and Scientific Efforts Applicable to the Region -- Eastern Region -- Ecological and Social Context -- Prescribed Fire and Smoke -- Smoke Research Needs and Scientific Efforts Applicable to the Region -- Intermountain Region -- Ecological and Social Context -- Prescribed Fire and Smoke -- Smoke Research Needs and Scientific Efforts Applicable to the Region -- Northern Region -- Ecological and Social Context -- Prescribed Fire and Smoke -- Smoke Research Needs and Current Efforts Applicable to the Region -- Pacific Northwest Region -- Ecological and Social Context -- Prescribed Fire and Smoke -- Smoke Research Needs and Scientific Efforts Applicable to the Region -- Pacific Southwest Region -- Ecological and Social Context -- Prescribed Fire and Smoke -- Smoke Research Needs and Scientific Efforts Applicable to the Region.
Rocky Mountain Region.
This open access book synthesizes current information on wildland fire smoke in the United States, providing a scientific foundation for addressing the production of smoke from wildland fires. This will be increasingly critical as smoke exposure and degraded air quality are expected to increase in extent and severity in a warmer climate. Accurate smoke information is a foundation for helping individuals and communities to effectively mitigate potential smoke impacts from wildfires and prescribed fires. The book documents our current understanding of smoke science for (1) primary physical, chemical, and biological issues related to wildfire and prescribed fire, (2) key social issues, including human health and economic impacts, and (3) current and anticipated management and regulatory issues. Each chapter provides a summary of priorities for future research that provide a roadmap for developing scientific information that can improve smoke and fire management over the next decade.
English
Natural disasters bicssc
Ecological science, the Biosphere bicssc
Forestry & silviculture: practice & techniques bicssc
Pollution & threats to the environment bicssc
Life sciences: general issues bicssc
Mathematics & science bicssc
Wildland Fire and Smoke
Global Warming and Climate Change
Smoke Plumes
Fire related Physical, Chemical and Biological Issues
Smoke and Fire Management
Smoke Impacts from Wild and Planned Fires
3-030-87044-8
McCaffrey, Sarah M.
Patel-Weynand, Toral.
language English
format eBook
author Peterson, David L.
spellingShingle Peterson, David L.
Wildland Fire Smoke in the United States : A Scientific Assessment.
Intro -- Foreword -- Acknowledgments -- Disclaimer -- Contents -- 1 Assessing the State of Smoke Science -- 1.1 Recent Trends -- 1.2 Environmental and Social Context -- 1.3 Overview of This Assessment -- References -- 2 Fuels and Consumption -- 2.1 Introduction -- 2.1.1 Understanding How Fuels Contribute to Smoke -- 2.2 Wildland Fuels -- 2.2.1 Fuel Characteristics -- 2.2.2 Traditional Methods to Estimate Wildland Fuel Loadings -- 2.2.3 Emerging Technologies and Methods -- 2.3 Fuel Consumption -- 2.3.1 Indirect Estimates of Fuel Consumption -- 2.3.2 Direct Measures of Fuel Consumption -- 2.4 Gaps in Wildland Fuels Characterization -- 2.4.1 Scaling from Fine-Scale to Coarse-Scale Fuel Characterization -- 2.4.2 Challenges in Forest Floor Characterization -- 2.4.3 Modeling Spatial and Temporal Dynamics of Wildland Fuels -- 2.5 Vision for Improving Fuel Science in Support of Smoke Science -- 2.6 Science Delivery to Managers -- 2.7 Research Needs -- 2.8 Conclusions -- References -- 3 Fire Behavior and Heat Release as Source Conditions for Smoke Modeling -- 3.1 Introduction -- 3.2 Current State of Science -- 3.2.1 Representing Fire in Smoke Models -- 3.2.2 Remote Sensing -- 3.2.3 Effects of Management Actions -- 3.3 Gaps in Understanding the Link Between Fire Behavior and Plume Dynamics -- 3.3.1 Heat Release -- 3.3.2 Fire Spread -- 3.3.3 Plume Cores -- 3.4 Vision for Improving Smoke Science -- 3.5 Emerging Issues and Challenges -- 3.5.1 Magnitude of Fire and Smoke Impacts -- 3.5.2 Managing Fuels to Minimize Air Quality Impacts -- 3.5.3 Need for Dispersion Climatologies -- 3.5.4 When and Where is Coupled Fire-Atmosphere Modeling Needed? -- 3.6 Conclusions -- 3.7 Key Findings -- 3.8 Key Information Needs -- References -- 4 Smoke Plume Dynamics -- 4.1 Introduction -- 4.1.1 Scientific Significance -- 4.1.2 Management Significance.
4.2 Current State of Science -- 4.2.1 Theoretical Framework -- 4.2.2 Smoke Measurements -- 4.2.3 Smoke Plume Modeling -- 4.2.4 Interactive Processes -- 4.2.5 Smoke Decision Support Systems -- 4.3 Gaps in Understanding Plume Dynamics -- 4.3.1 Measurements -- 4.3.2 Plume Rise -- 4.3.3 Dispersion and Transport Modeling -- 4.3.4 Nighttime Smoke -- 4.3.5 Physics-Based Fire Models -- 4.3.6 Smoke Management for Prescribed Fires -- 4.4 Vision for Improving Plume Dynamics Science -- 4.4.1 New Research on Observational and Computational Capabilities -- 4.4.2 New Approaches and Tools -- 4.4.3 New Projects -- 4.4.4 Recent Policies and Integration with Smoke Impacts Research -- 4.5 Emerging Issues and Challenges -- 4.5.1 Coupled Modeling Systems -- 4.5.2 Improving Modeling Tools with Field Campaign Data -- 4.5.3 Real-Time Smoke Transport Modeling and Prediction -- 4.5.4 Smoke from Duff Burning Under Drought Conditions -- 4.5.5 Smoke Plume Dynamics and Climate Change -- 4.5.6 Smoke Dynamics in the Earth System -- 4.6 Conclusions -- 4.7 Key Findings -- References -- 5 Emissions -- 5.1 Introduction -- 5.2 Current State of the Science -- 5.2.1 Fuel Properties, Combustion Processes, and Emissions -- 5.2.2 Smoke Composition and Emission Factors -- 5.2.3 Emission Calculations -- 5.3 Existing Data, Tools, Models, and Other Technology -- 5.3.1 Emission Factors -- 5.3.2 Emission Inventories -- 5.3.3 Emission Models for Land Management -- 5.4 Gaps in Data, Understanding, and Tools/Technology -- 5.4.1 Emission Factors for Wildfires -- 5.4.2 Connecting Laboratory Studies with Field Observations -- 5.4.3 Variability of EFs with Combustion Conditions -- 5.4.4 Validation of Emission Inventories -- 5.4.5 Forecasting Wildfire Emissions -- 5.4.6 Measuring and Modeling PM2.5 -- 5.4.7 Emissions of Hazardous Air Pollutants -- 5.4.8 Emissions from Structure Fires -- 5.5 Conclusions.
References -- 6 Smoke Chemistry -- 6.1 Introduction -- 6.1.1 Overview and Context of the Issues -- 6.1.2 Need for Decision Support -- 6.1.3 Scientific Challenges -- 6.2 Current State of the Science -- 6.2.1 Well-Understood Aspects of Smoke Chemistry -- 6.2.2 Existing Data, Tools, Models, and Other Technology -- 6.3 Gaps in Data, Understanding, and Tools/Technology -- 6.3.1 Ozone Data Gaps -- 6.3.2 Secondary Organic Aerosol Data Gaps -- 6.3.3 Model Gaps -- 6.4 Vision for Improving Our Understanding of Smoke Chemistry -- 6.4.1 Near-Term Opportunities -- 6.4.2 Long-Term Priorities for Improving Smoke Chemistry Knowledge -- 6.5 Emerging Issues -- 6.5.1 Higher Particulate Matter, Ozone, and Hazardous Air Pollutants from Fires in Western States -- 6.5.2 How Prescribed Burning Affects Smoke Chemistry -- 6.5.3 Clarifying Specific Health Effects -- 6.6 Links with Other Components of the Smoke Assessment -- 6.6.1 Fire Behavior and Plume Dynamics -- 6.6.2 Fuel Characterization -- 6.6.3 Smoke Emissions -- 6.6.4 Effects on People, Health, Transportation, and Commerce -- 6.7 Conclusions -- 6.7.1 Key Research Needs and Priorities -- 6.7.2 Opportunities for Shared Stewardship to Improve Smoke Science and Management -- References -- 7 Social Considerations: Health, Economics, and Risk Communication -- 7.1 Introduction -- 7.2 Health Effects Attributed to Wildland Fire Smoke -- 7.2.1 Wildland Fire Smoke Exposure -- 7.2.2 Epidemiologic Evidence-Wildfire Smoke and PM2.5 -- 7.2.3 Other Smoke Pollutants Associated with Health Risks -- 7.2.4 Occupational/Cumulative and Chronic Exposures -- 7.3 Economic Costs and Losses from Smoke -- 7.3.1 Theoretical Costs and Losses -- 7.3.2 Health Costs and Losses -- 7.3.3 Evacuation as an Averting Behavior -- 7.3.4 Displaced Recreation and Tourism -- 7.4 Social Acceptance and Risk Communication -- 7.4.1 Social Acceptability.
7.4.2 Risk Communication -- 7.5 Key Findings -- 7.6 Key Information Needs -- 7.6.1 Understudied Health Effects -- 7.6.2 Health Benefits and Trade-Offs of Public Health Interventions -- 7.6.3 Economic Impacts -- 7.6.4 Central Repository of Standards and Actions -- 7.7 Conclusions -- References -- 8 Resource Manager Perspectives on the Need for Smoke Science -- 8.1 Introduction -- 8.2 Managing Wildland Fire to Improve Ecosystem Conditions While Minimizing Smoke Impacts -- 8.2.1 Smoke Concerns and Barriers to Prescribed Fire -- 8.2.2 Applying Prescribed Fire Across Large Landscapes -- 8.2.3 Utilizing Wildfires and Natural Ignitions -- 8.2.4 Implications of Wildfire Response Actions and Suppression for Air Quality -- 8.2.5 Alternatives to Burning-Evaluating Emissions Reduction -- 8.2.6 Effects of Fuel Moisture on Emissions and Dispersion -- 8.2.7 Fuel Type, Fuel Loading, and Fuel Consumption -- 8.2.8 Techniques for Minimizing Smoke Impacts -- 8.2.9 Components of Wildland Fire Smoke -- 8.2.10 Soils and Emissions -- 8.2.11 Remote Sensing and Data for Fuels, Fire, and Smoke -- 8.2.12 Prescribed Fire Tracking Data -- 8.2.13 Fire Emissions and the National Emissions Inventory -- 8.3 Wildland Fire and Smoke Decision Tools -- 8.3.1 Multiple Fires and Airshed Analysis -- 8.3.2 Fire Growth Models and Smoke Dispersion -- 8.3.3 Background Air Quality Conditions -- 8.3.4 Smoke Models for Fire Planning -- 8.3.5 Use of Air Quality Measurements -- 8.3.6 Air Quality Impacts of Prescribed Fire Versus Wildfire -- 8.3.7 Smoke Model Performance and Accuracy -- 8.3.8 Long-Range Forecasts and Projections for Planning and Early Warning -- 8.3.9 Tools and Data Needs for the Future -- 8.3.10 Identifying Areas at High Risk from Wildfire and Smoke -- 8.4 Health, Safety, and Societal Impacts of Smoke -- 8.4.1 What is a Smoke-Affected Day?.
8.4.2 Effects of Smoke Exposure on Human Health for Different Exposure Scenarios -- 8.4.3 Health Effects of Constituents of Smoke Beyond Particulate Matter -- 8.4.4 Smoke and Mental Health -- 8.4.5 Smoke and Visibility Reduction on Roadways -- 8.4.6 Visibility Conditions in Class I Areas -- 8.5 Outreach and Messaging About Smoke -- 8.5.1 Smoke Ready Interventions -- 8.5.2 Air Quality Conditions and Advisories -- 8.5.3 National Weather Service -- 8.5.4 Interagency Wildland Fire Air Quality Response Program and Air Resource Advisors -- 8.6 Transfer of Smoke and Air Quality Science and Tools to Managers -- 8.6.1 Formal Fire and Smoke Training Opportunities -- 8.6.2 Informal Training and Collaboration Opportunities -- 8.6.3 Websites, Webinars, Etc. -- 8.6.4 Learning Pathways -- 8.6.5 Maintaining Contact -- 8.7 Managing Smoke in a Changing Environment -- References -- Appendix A Regional Perspectives on Smoke Issues and Management -- Alaska Region -- Ecological and Social Context -- Prescribed Fire and Smoke -- Smoke Research Needs and Scientific Efforts Applicable to the Region -- Eastern Region -- Ecological and Social Context -- Prescribed Fire and Smoke -- Smoke Research Needs and Scientific Efforts Applicable to the Region -- Intermountain Region -- Ecological and Social Context -- Prescribed Fire and Smoke -- Smoke Research Needs and Scientific Efforts Applicable to the Region -- Northern Region -- Ecological and Social Context -- Prescribed Fire and Smoke -- Smoke Research Needs and Current Efforts Applicable to the Region -- Pacific Northwest Region -- Ecological and Social Context -- Prescribed Fire and Smoke -- Smoke Research Needs and Scientific Efforts Applicable to the Region -- Pacific Southwest Region -- Ecological and Social Context -- Prescribed Fire and Smoke -- Smoke Research Needs and Scientific Efforts Applicable to the Region.
Rocky Mountain Region.
author_facet Peterson, David L.
McCaffrey, Sarah M.
Patel-Weynand, Toral.
author_variant d l p dl dlp
author2 McCaffrey, Sarah M.
Patel-Weynand, Toral.
author2_variant s m m sm smm
t p w tpw
author2_role TeilnehmendeR
TeilnehmendeR
author_sort Peterson, David L.
title Wildland Fire Smoke in the United States : A Scientific Assessment.
title_sub A Scientific Assessment.
title_full Wildland Fire Smoke in the United States : A Scientific Assessment.
title_fullStr Wildland Fire Smoke in the United States : A Scientific Assessment.
title_full_unstemmed Wildland Fire Smoke in the United States : A Scientific Assessment.
title_auth Wildland Fire Smoke in the United States : A Scientific Assessment.
title_new Wildland Fire Smoke in the United States :
title_sort wildland fire smoke in the united states : a scientific assessment.
publisher Springer Nature
Springer International Publishing AG,
publishDate 2022
physical 1 online resource (346 pages)
contents Intro -- Foreword -- Acknowledgments -- Disclaimer -- Contents -- 1 Assessing the State of Smoke Science -- 1.1 Recent Trends -- 1.2 Environmental and Social Context -- 1.3 Overview of This Assessment -- References -- 2 Fuels and Consumption -- 2.1 Introduction -- 2.1.1 Understanding How Fuels Contribute to Smoke -- 2.2 Wildland Fuels -- 2.2.1 Fuel Characteristics -- 2.2.2 Traditional Methods to Estimate Wildland Fuel Loadings -- 2.2.3 Emerging Technologies and Methods -- 2.3 Fuel Consumption -- 2.3.1 Indirect Estimates of Fuel Consumption -- 2.3.2 Direct Measures of Fuel Consumption -- 2.4 Gaps in Wildland Fuels Characterization -- 2.4.1 Scaling from Fine-Scale to Coarse-Scale Fuel Characterization -- 2.4.2 Challenges in Forest Floor Characterization -- 2.4.3 Modeling Spatial and Temporal Dynamics of Wildland Fuels -- 2.5 Vision for Improving Fuel Science in Support of Smoke Science -- 2.6 Science Delivery to Managers -- 2.7 Research Needs -- 2.8 Conclusions -- References -- 3 Fire Behavior and Heat Release as Source Conditions for Smoke Modeling -- 3.1 Introduction -- 3.2 Current State of Science -- 3.2.1 Representing Fire in Smoke Models -- 3.2.2 Remote Sensing -- 3.2.3 Effects of Management Actions -- 3.3 Gaps in Understanding the Link Between Fire Behavior and Plume Dynamics -- 3.3.1 Heat Release -- 3.3.2 Fire Spread -- 3.3.3 Plume Cores -- 3.4 Vision for Improving Smoke Science -- 3.5 Emerging Issues and Challenges -- 3.5.1 Magnitude of Fire and Smoke Impacts -- 3.5.2 Managing Fuels to Minimize Air Quality Impacts -- 3.5.3 Need for Dispersion Climatologies -- 3.5.4 When and Where is Coupled Fire-Atmosphere Modeling Needed? -- 3.6 Conclusions -- 3.7 Key Findings -- 3.8 Key Information Needs -- References -- 4 Smoke Plume Dynamics -- 4.1 Introduction -- 4.1.1 Scientific Significance -- 4.1.2 Management Significance.
4.2 Current State of Science -- 4.2.1 Theoretical Framework -- 4.2.2 Smoke Measurements -- 4.2.3 Smoke Plume Modeling -- 4.2.4 Interactive Processes -- 4.2.5 Smoke Decision Support Systems -- 4.3 Gaps in Understanding Plume Dynamics -- 4.3.1 Measurements -- 4.3.2 Plume Rise -- 4.3.3 Dispersion and Transport Modeling -- 4.3.4 Nighttime Smoke -- 4.3.5 Physics-Based Fire Models -- 4.3.6 Smoke Management for Prescribed Fires -- 4.4 Vision for Improving Plume Dynamics Science -- 4.4.1 New Research on Observational and Computational Capabilities -- 4.4.2 New Approaches and Tools -- 4.4.3 New Projects -- 4.4.4 Recent Policies and Integration with Smoke Impacts Research -- 4.5 Emerging Issues and Challenges -- 4.5.1 Coupled Modeling Systems -- 4.5.2 Improving Modeling Tools with Field Campaign Data -- 4.5.3 Real-Time Smoke Transport Modeling and Prediction -- 4.5.4 Smoke from Duff Burning Under Drought Conditions -- 4.5.5 Smoke Plume Dynamics and Climate Change -- 4.5.6 Smoke Dynamics in the Earth System -- 4.6 Conclusions -- 4.7 Key Findings -- References -- 5 Emissions -- 5.1 Introduction -- 5.2 Current State of the Science -- 5.2.1 Fuel Properties, Combustion Processes, and Emissions -- 5.2.2 Smoke Composition and Emission Factors -- 5.2.3 Emission Calculations -- 5.3 Existing Data, Tools, Models, and Other Technology -- 5.3.1 Emission Factors -- 5.3.2 Emission Inventories -- 5.3.3 Emission Models for Land Management -- 5.4 Gaps in Data, Understanding, and Tools/Technology -- 5.4.1 Emission Factors for Wildfires -- 5.4.2 Connecting Laboratory Studies with Field Observations -- 5.4.3 Variability of EFs with Combustion Conditions -- 5.4.4 Validation of Emission Inventories -- 5.4.5 Forecasting Wildfire Emissions -- 5.4.6 Measuring and Modeling PM2.5 -- 5.4.7 Emissions of Hazardous Air Pollutants -- 5.4.8 Emissions from Structure Fires -- 5.5 Conclusions.
References -- 6 Smoke Chemistry -- 6.1 Introduction -- 6.1.1 Overview and Context of the Issues -- 6.1.2 Need for Decision Support -- 6.1.3 Scientific Challenges -- 6.2 Current State of the Science -- 6.2.1 Well-Understood Aspects of Smoke Chemistry -- 6.2.2 Existing Data, Tools, Models, and Other Technology -- 6.3 Gaps in Data, Understanding, and Tools/Technology -- 6.3.1 Ozone Data Gaps -- 6.3.2 Secondary Organic Aerosol Data Gaps -- 6.3.3 Model Gaps -- 6.4 Vision for Improving Our Understanding of Smoke Chemistry -- 6.4.1 Near-Term Opportunities -- 6.4.2 Long-Term Priorities for Improving Smoke Chemistry Knowledge -- 6.5 Emerging Issues -- 6.5.1 Higher Particulate Matter, Ozone, and Hazardous Air Pollutants from Fires in Western States -- 6.5.2 How Prescribed Burning Affects Smoke Chemistry -- 6.5.3 Clarifying Specific Health Effects -- 6.6 Links with Other Components of the Smoke Assessment -- 6.6.1 Fire Behavior and Plume Dynamics -- 6.6.2 Fuel Characterization -- 6.6.3 Smoke Emissions -- 6.6.4 Effects on People, Health, Transportation, and Commerce -- 6.7 Conclusions -- 6.7.1 Key Research Needs and Priorities -- 6.7.2 Opportunities for Shared Stewardship to Improve Smoke Science and Management -- References -- 7 Social Considerations: Health, Economics, and Risk Communication -- 7.1 Introduction -- 7.2 Health Effects Attributed to Wildland Fire Smoke -- 7.2.1 Wildland Fire Smoke Exposure -- 7.2.2 Epidemiologic Evidence-Wildfire Smoke and PM2.5 -- 7.2.3 Other Smoke Pollutants Associated with Health Risks -- 7.2.4 Occupational/Cumulative and Chronic Exposures -- 7.3 Economic Costs and Losses from Smoke -- 7.3.1 Theoretical Costs and Losses -- 7.3.2 Health Costs and Losses -- 7.3.3 Evacuation as an Averting Behavior -- 7.3.4 Displaced Recreation and Tourism -- 7.4 Social Acceptance and Risk Communication -- 7.4.1 Social Acceptability.
7.4.2 Risk Communication -- 7.5 Key Findings -- 7.6 Key Information Needs -- 7.6.1 Understudied Health Effects -- 7.6.2 Health Benefits and Trade-Offs of Public Health Interventions -- 7.6.3 Economic Impacts -- 7.6.4 Central Repository of Standards and Actions -- 7.7 Conclusions -- References -- 8 Resource Manager Perspectives on the Need for Smoke Science -- 8.1 Introduction -- 8.2 Managing Wildland Fire to Improve Ecosystem Conditions While Minimizing Smoke Impacts -- 8.2.1 Smoke Concerns and Barriers to Prescribed Fire -- 8.2.2 Applying Prescribed Fire Across Large Landscapes -- 8.2.3 Utilizing Wildfires and Natural Ignitions -- 8.2.4 Implications of Wildfire Response Actions and Suppression for Air Quality -- 8.2.5 Alternatives to Burning-Evaluating Emissions Reduction -- 8.2.6 Effects of Fuel Moisture on Emissions and Dispersion -- 8.2.7 Fuel Type, Fuel Loading, and Fuel Consumption -- 8.2.8 Techniques for Minimizing Smoke Impacts -- 8.2.9 Components of Wildland Fire Smoke -- 8.2.10 Soils and Emissions -- 8.2.11 Remote Sensing and Data for Fuels, Fire, and Smoke -- 8.2.12 Prescribed Fire Tracking Data -- 8.2.13 Fire Emissions and the National Emissions Inventory -- 8.3 Wildland Fire and Smoke Decision Tools -- 8.3.1 Multiple Fires and Airshed Analysis -- 8.3.2 Fire Growth Models and Smoke Dispersion -- 8.3.3 Background Air Quality Conditions -- 8.3.4 Smoke Models for Fire Planning -- 8.3.5 Use of Air Quality Measurements -- 8.3.6 Air Quality Impacts of Prescribed Fire Versus Wildfire -- 8.3.7 Smoke Model Performance and Accuracy -- 8.3.8 Long-Range Forecasts and Projections for Planning and Early Warning -- 8.3.9 Tools and Data Needs for the Future -- 8.3.10 Identifying Areas at High Risk from Wildfire and Smoke -- 8.4 Health, Safety, and Societal Impacts of Smoke -- 8.4.1 What is a Smoke-Affected Day?.
8.4.2 Effects of Smoke Exposure on Human Health for Different Exposure Scenarios -- 8.4.3 Health Effects of Constituents of Smoke Beyond Particulate Matter -- 8.4.4 Smoke and Mental Health -- 8.4.5 Smoke and Visibility Reduction on Roadways -- 8.4.6 Visibility Conditions in Class I Areas -- 8.5 Outreach and Messaging About Smoke -- 8.5.1 Smoke Ready Interventions -- 8.5.2 Air Quality Conditions and Advisories -- 8.5.3 National Weather Service -- 8.5.4 Interagency Wildland Fire Air Quality Response Program and Air Resource Advisors -- 8.6 Transfer of Smoke and Air Quality Science and Tools to Managers -- 8.6.1 Formal Fire and Smoke Training Opportunities -- 8.6.2 Informal Training and Collaboration Opportunities -- 8.6.3 Websites, Webinars, Etc. -- 8.6.4 Learning Pathways -- 8.6.5 Maintaining Contact -- 8.7 Managing Smoke in a Changing Environment -- References -- Appendix A Regional Perspectives on Smoke Issues and Management -- Alaska Region -- Ecological and Social Context -- Prescribed Fire and Smoke -- Smoke Research Needs and Scientific Efforts Applicable to the Region -- Eastern Region -- Ecological and Social Context -- Prescribed Fire and Smoke -- Smoke Research Needs and Scientific Efforts Applicable to the Region -- Intermountain Region -- Ecological and Social Context -- Prescribed Fire and Smoke -- Smoke Research Needs and Scientific Efforts Applicable to the Region -- Northern Region -- Ecological and Social Context -- Prescribed Fire and Smoke -- Smoke Research Needs and Current Efforts Applicable to the Region -- Pacific Northwest Region -- Ecological and Social Context -- Prescribed Fire and Smoke -- Smoke Research Needs and Scientific Efforts Applicable to the Region -- Pacific Southwest Region -- Ecological and Social Context -- Prescribed Fire and Smoke -- Smoke Research Needs and Scientific Efforts Applicable to the Region.
Rocky Mountain Region.
isbn 3-030-87045-6
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fullrecord <?xml version="1.0" encoding="UTF-8"?><collection xmlns="http://www.loc.gov/MARC21/slim"><record><leader>11141nam a22004333i 4500</leader><controlfield tag="001">993554873804498</controlfield><controlfield tag="005">20220919084607.0</controlfield><controlfield tag="006">m o d | </controlfield><controlfield tag="007">cr cnu||||||||</controlfield><controlfield tag="008">220919s2022 xx o ||||0 eng d</controlfield><datafield tag="020" ind1=" " ind2=" "><subfield code="a">3-030-87045-6</subfield></datafield><datafield tag="035" ind1=" " ind2=" "><subfield code="a">(CKB)5840000000069511</subfield></datafield><datafield tag="035" ind1=" " ind2=" "><subfield code="a">(MiAaPQ)EBC6978256</subfield></datafield><datafield tag="035" ind1=" " ind2=" "><subfield code="a">(Au-PeEL)EBL6978256</subfield></datafield><datafield tag="035" ind1=" " ind2=" "><subfield code="a">(oapen)https://directory.doabooks.org/handle/20.500.12854/91283</subfield></datafield><datafield tag="035" ind1=" " ind2=" "><subfield code="a">(PPN)264195248</subfield></datafield><datafield tag="035" ind1=" " ind2=" "><subfield code="a">(EXLCZ)995840000000069511</subfield></datafield><datafield tag="040" ind1=" " ind2=" "><subfield code="a">MiAaPQ</subfield><subfield code="b">eng</subfield><subfield code="e">rda</subfield><subfield code="e">pn</subfield><subfield code="c">MiAaPQ</subfield><subfield code="d">MiAaPQ</subfield></datafield><datafield tag="041" ind1="0" ind2=" "><subfield code="a">eng</subfield></datafield><datafield tag="050" ind1=" " ind2="4"><subfield code="a">GB5000-5030</subfield></datafield><datafield tag="100" ind1="1" ind2=" "><subfield code="a">Peterson, David L.</subfield></datafield><datafield tag="245" ind1="1" ind2="0"><subfield code="a">Wildland Fire Smoke in the United States :</subfield><subfield code="b">A Scientific Assessment.</subfield></datafield><datafield tag="260" ind1=" " ind2=" "><subfield code="a">Cham</subfield><subfield code="b">Springer Nature</subfield><subfield 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supplied metadata and other sources.</subfield></datafield><datafield tag="505" ind1="0" ind2=" "><subfield code="a">Intro -- Foreword -- Acknowledgments -- Disclaimer -- Contents -- 1 Assessing the State of Smoke Science -- 1.1 Recent Trends -- 1.2 Environmental and Social Context -- 1.3 Overview of This Assessment -- References -- 2 Fuels and Consumption -- 2.1 Introduction -- 2.1.1 Understanding How Fuels Contribute to Smoke -- 2.2 Wildland Fuels -- 2.2.1 Fuel Characteristics -- 2.2.2 Traditional Methods to Estimate Wildland Fuel Loadings -- 2.2.3 Emerging Technologies and Methods -- 2.3 Fuel Consumption -- 2.3.1 Indirect Estimates of Fuel Consumption -- 2.3.2 Direct Measures of Fuel Consumption -- 2.4 Gaps in Wildland Fuels Characterization -- 2.4.1 Scaling from Fine-Scale to Coarse-Scale Fuel Characterization -- 2.4.2 Challenges in Forest Floor Characterization -- 2.4.3 Modeling Spatial and Temporal Dynamics of Wildland Fuels -- 2.5 Vision for Improving Fuel Science in Support of Smoke Science -- 2.6 Science Delivery to Managers -- 2.7 Research Needs -- 2.8 Conclusions -- References -- 3 Fire Behavior and Heat Release as Source Conditions for Smoke Modeling -- 3.1 Introduction -- 3.2 Current State of Science -- 3.2.1 Representing Fire in Smoke Models -- 3.2.2 Remote Sensing -- 3.2.3 Effects of Management Actions -- 3.3 Gaps in Understanding the Link Between Fire Behavior and Plume Dynamics -- 3.3.1 Heat Release -- 3.3.2 Fire Spread -- 3.3.3 Plume Cores -- 3.4 Vision for Improving Smoke Science -- 3.5 Emerging Issues and Challenges -- 3.5.1 Magnitude of Fire and Smoke Impacts -- 3.5.2 Managing Fuels to Minimize Air Quality Impacts -- 3.5.3 Need for Dispersion Climatologies -- 3.5.4 When and Where is Coupled Fire-Atmosphere Modeling Needed? -- 3.6 Conclusions -- 3.7 Key Findings -- 3.8 Key Information Needs -- References -- 4 Smoke Plume Dynamics -- 4.1 Introduction -- 4.1.1 Scientific Significance -- 4.1.2 Management Significance.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">4.2 Current State of Science -- 4.2.1 Theoretical Framework -- 4.2.2 Smoke Measurements -- 4.2.3 Smoke Plume Modeling -- 4.2.4 Interactive Processes -- 4.2.5 Smoke Decision Support Systems -- 4.3 Gaps in Understanding Plume Dynamics -- 4.3.1 Measurements -- 4.3.2 Plume Rise -- 4.3.3 Dispersion and Transport Modeling -- 4.3.4 Nighttime Smoke -- 4.3.5 Physics-Based Fire Models -- 4.3.6 Smoke Management for Prescribed Fires -- 4.4 Vision for Improving Plume Dynamics Science -- 4.4.1 New Research on Observational and Computational Capabilities -- 4.4.2 New Approaches and Tools -- 4.4.3 New Projects -- 4.4.4 Recent Policies and Integration with Smoke Impacts Research -- 4.5 Emerging Issues and Challenges -- 4.5.1 Coupled Modeling Systems -- 4.5.2 Improving Modeling Tools with Field Campaign Data -- 4.5.3 Real-Time Smoke Transport Modeling and Prediction -- 4.5.4 Smoke from Duff Burning Under Drought Conditions -- 4.5.5 Smoke Plume Dynamics and Climate Change -- 4.5.6 Smoke Dynamics in the Earth System -- 4.6 Conclusions -- 4.7 Key Findings -- References -- 5 Emissions -- 5.1 Introduction -- 5.2 Current State of the Science -- 5.2.1 Fuel Properties, Combustion Processes, and Emissions -- 5.2.2 Smoke Composition and Emission Factors -- 5.2.3 Emission Calculations -- 5.3 Existing Data, Tools, Models, and Other Technology -- 5.3.1 Emission Factors -- 5.3.2 Emission Inventories -- 5.3.3 Emission Models for Land Management -- 5.4 Gaps in Data, Understanding, and Tools/Technology -- 5.4.1 Emission Factors for Wildfires -- 5.4.2 Connecting Laboratory Studies with Field Observations -- 5.4.3 Variability of EFs with Combustion Conditions -- 5.4.4 Validation of Emission Inventories -- 5.4.5 Forecasting Wildfire Emissions -- 5.4.6 Measuring and Modeling PM2.5 -- 5.4.7 Emissions of Hazardous Air Pollutants -- 5.4.8 Emissions from Structure Fires -- 5.5 Conclusions.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">References -- 6 Smoke Chemistry -- 6.1 Introduction -- 6.1.1 Overview and Context of the Issues -- 6.1.2 Need for Decision Support -- 6.1.3 Scientific Challenges -- 6.2 Current State of the Science -- 6.2.1 Well-Understood Aspects of Smoke Chemistry -- 6.2.2 Existing Data, Tools, Models, and Other Technology -- 6.3 Gaps in Data, Understanding, and Tools/Technology -- 6.3.1 Ozone Data Gaps -- 6.3.2 Secondary Organic Aerosol Data Gaps -- 6.3.3 Model Gaps -- 6.4 Vision for Improving Our Understanding of Smoke Chemistry -- 6.4.1 Near-Term Opportunities -- 6.4.2 Long-Term Priorities for Improving Smoke Chemistry Knowledge -- 6.5 Emerging Issues -- 6.5.1 Higher Particulate Matter, Ozone, and Hazardous Air Pollutants from Fires in Western States -- 6.5.2 How Prescribed Burning Affects Smoke Chemistry -- 6.5.3 Clarifying Specific Health Effects -- 6.6 Links with Other Components of the Smoke Assessment -- 6.6.1 Fire Behavior and Plume Dynamics -- 6.6.2 Fuel Characterization -- 6.6.3 Smoke Emissions -- 6.6.4 Effects on People, Health, Transportation, and Commerce -- 6.7 Conclusions -- 6.7.1 Key Research Needs and Priorities -- 6.7.2 Opportunities for Shared Stewardship to Improve Smoke Science and Management -- References -- 7 Social Considerations: Health, Economics, and Risk Communication -- 7.1 Introduction -- 7.2 Health Effects Attributed to Wildland Fire Smoke -- 7.2.1 Wildland Fire Smoke Exposure -- 7.2.2 Epidemiologic Evidence-Wildfire Smoke and PM2.5 -- 7.2.3 Other Smoke Pollutants Associated with Health Risks -- 7.2.4 Occupational/Cumulative and Chronic Exposures -- 7.3 Economic Costs and Losses from Smoke -- 7.3.1 Theoretical Costs and Losses -- 7.3.2 Health Costs and Losses -- 7.3.3 Evacuation as an Averting Behavior -- 7.3.4 Displaced Recreation and Tourism -- 7.4 Social Acceptance and Risk Communication -- 7.4.1 Social Acceptability.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">7.4.2 Risk Communication -- 7.5 Key Findings -- 7.6 Key Information Needs -- 7.6.1 Understudied Health Effects -- 7.6.2 Health Benefits and Trade-Offs of Public Health Interventions -- 7.6.3 Economic Impacts -- 7.6.4 Central Repository of Standards and Actions -- 7.7 Conclusions -- References -- 8 Resource Manager Perspectives on the Need for Smoke Science -- 8.1 Introduction -- 8.2 Managing Wildland Fire to Improve Ecosystem Conditions While Minimizing Smoke Impacts -- 8.2.1 Smoke Concerns and Barriers to Prescribed Fire -- 8.2.2 Applying Prescribed Fire Across Large Landscapes -- 8.2.3 Utilizing Wildfires and Natural Ignitions -- 8.2.4 Implications of Wildfire Response Actions and Suppression for Air Quality -- 8.2.5 Alternatives to Burning-Evaluating Emissions Reduction -- 8.2.6 Effects of Fuel Moisture on Emissions and Dispersion -- 8.2.7 Fuel Type, Fuel Loading, and Fuel Consumption -- 8.2.8 Techniques for Minimizing Smoke Impacts -- 8.2.9 Components of Wildland Fire Smoke -- 8.2.10 Soils and Emissions -- 8.2.11 Remote Sensing and Data for Fuels, Fire, and Smoke -- 8.2.12 Prescribed Fire Tracking Data -- 8.2.13 Fire Emissions and the National Emissions Inventory -- 8.3 Wildland Fire and Smoke Decision Tools -- 8.3.1 Multiple Fires and Airshed Analysis -- 8.3.2 Fire Growth Models and Smoke Dispersion -- 8.3.3 Background Air Quality Conditions -- 8.3.4 Smoke Models for Fire Planning -- 8.3.5 Use of Air Quality Measurements -- 8.3.6 Air Quality Impacts of Prescribed Fire Versus Wildfire -- 8.3.7 Smoke Model Performance and Accuracy -- 8.3.8 Long-Range Forecasts and Projections for Planning and Early Warning -- 8.3.9 Tools and Data Needs for the Future -- 8.3.10 Identifying Areas at High Risk from Wildfire and Smoke -- 8.4 Health, Safety, and Societal Impacts of Smoke -- 8.4.1 What is a Smoke-Affected Day?.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">8.4.2 Effects of Smoke Exposure on Human Health for Different Exposure Scenarios -- 8.4.3 Health Effects of Constituents of Smoke Beyond Particulate Matter -- 8.4.4 Smoke and Mental Health -- 8.4.5 Smoke and Visibility Reduction on Roadways -- 8.4.6 Visibility Conditions in Class I Areas -- 8.5 Outreach and Messaging About Smoke -- 8.5.1 Smoke Ready Interventions -- 8.5.2 Air Quality Conditions and Advisories -- 8.5.3 National Weather Service -- 8.5.4 Interagency Wildland Fire Air Quality Response Program and Air Resource Advisors -- 8.6 Transfer of Smoke and Air Quality Science and Tools to Managers -- 8.6.1 Formal Fire and Smoke Training Opportunities -- 8.6.2 Informal Training and Collaboration Opportunities -- 8.6.3 Websites, Webinars, Etc. -- 8.6.4 Learning Pathways -- 8.6.5 Maintaining Contact -- 8.7 Managing Smoke in a Changing Environment -- References -- Appendix A Regional Perspectives on Smoke Issues and Management -- Alaska Region -- Ecological and Social Context -- Prescribed Fire and Smoke -- Smoke Research Needs and Scientific Efforts Applicable to the Region -- Eastern Region -- Ecological and Social Context -- Prescribed Fire and Smoke -- Smoke Research Needs and Scientific Efforts Applicable to the Region -- Intermountain Region -- Ecological and Social Context -- Prescribed Fire and Smoke -- Smoke Research Needs and Scientific Efforts Applicable to the Region -- Northern Region -- Ecological and Social Context -- Prescribed Fire and Smoke -- Smoke Research Needs and Current Efforts Applicable to the Region -- Pacific Northwest Region -- Ecological and Social Context -- Prescribed Fire and Smoke -- Smoke Research Needs and Scientific Efforts Applicable to the Region -- Pacific Southwest Region -- Ecological and Social Context -- Prescribed Fire and Smoke -- Smoke Research Needs and Scientific Efforts Applicable to the Region.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">Rocky Mountain Region.</subfield></datafield><datafield tag="520" ind1=" " ind2=" "><subfield code="a">This open access book synthesizes current information on wildland fire smoke in the United States, providing a scientific foundation for addressing the production of smoke from wildland fires. This will be increasingly critical as smoke exposure and degraded air quality are expected to increase in extent and severity in a warmer climate. Accurate smoke information is a foundation for helping individuals and communities to effectively mitigate potential smoke impacts from wildfires and prescribed fires. The book documents our current understanding of smoke science for (1) primary physical, chemical, and biological issues related to wildfire and prescribed fire, (2) key social issues, including human health and economic impacts, and (3) current and anticipated management and regulatory issues. 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