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Wildland fires are one of the most devastating and terrifying forces of nature. While their effects are mostly destructive they also help with regeneration of forests and other ecosystems. Low-intensity fires clear accumulating biomass reducing risk of catastrophic crown fires and can be used as an effective management tool. This book presents current understanding of wildland fires and air quality as well as their effects on human health, forests and other ecosystems. in the first section of the book the basics of wildland fires and resulting emissions are presented from the perspective of changing global climate, air quality impairment and effects on environmental and human health and security. in the second section, effects of wildland fires on air quality, visibility and human health in various regions of the Earth are discussed. The third section of the book deals with complex issues of the ecological impacts of fires and air pollution in forests and chaparral in North America. The fourth section discusses various management issues facing land and fire managers which are related to wildfires, use of prescribed fires, and air quality. This section also presents various modeling systems used for describing fire dangers and behavior as well as smoke and air pollution predictions applied in the risk assessment analysis. The book concludes with a series of expert recommendations for wildland fire and atmospheric research.
Book Synopsis Wildland Fires and Air Pollution by : Andrzej Bytnerowicz
Download or read book Wildland Fires and Air Pollution written by Andrzej Bytnerowicz and published by Elsevier. This book was released on 2009 with total page 688 pages. Available in PDF, EPUB and Kindle. Book excerpt: Wildland fires are one of the most devastating and terrifying forces of nature. While their effects are mostly destructive they also help with regeneration of forests and other ecosystems. Low-intensity fires clear accumulating biomass reducing risk of catastrophic crown fires and can be used as an effective management tool. This book presents current understanding of wildland fires and air quality as well as their effects on human health, forests and other ecosystems. in the first section of the book the basics of wildland fires and resulting emissions are presented from the perspective of changing global climate, air quality impairment and effects on environmental and human health and security. in the second section, effects of wildland fires on air quality, visibility and human health in various regions of the Earth are discussed. The third section of the book deals with complex issues of the ecological impacts of fires and air pollution in forests and chaparral in North America. The fourth section discusses various management issues facing land and fire managers which are related to wildfires, use of prescribed fires, and air quality. This section also presents various modeling systems used for describing fire dangers and behavior as well as smoke and air pollution predictions applied in the risk assessment analysis. The book concludes with a series of expert recommendations for wildland fire and atmospheric research.
This state-of-knowledge review about the effects of fire on air quality can assist land, fire, and air resource managers with fire and smoke planning, and their efforts to explain to others the science behind fire-related program policies and practices to improve air quality. Chapter topics include air quality regulations and fire; characterization of emissions from fire; the transport, dispersion, and modeling of fire emissions; atmospheric and plume chemistry; air quality impacts of fire; social consequences of air quality impacts; and recommendations for future research.
Book Synopsis Wildland Fire in Ecosystems by : David V. Sandberg
Download or read book Wildland Fire in Ecosystems written by David V. Sandberg and published by . This book was released on 2003 with total page 88 pages. Available in PDF, EPUB and Kindle. Book excerpt: This state-of-knowledge review about the effects of fire on air quality can assist land, fire, and air resource managers with fire and smoke planning, and their efforts to explain to others the science behind fire-related program policies and practices to improve air quality. Chapter topics include air quality regulations and fire; characterization of emissions from fire; the transport, dispersion, and modeling of fire emissions; atmospheric and plume chemistry; air quality impacts of fire; social consequences of air quality impacts; and recommendations for future research.
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.
Book Synopsis Wildland Fire Smoke in the United States by : David L. Peterson
Download or read book Wildland Fire Smoke in the United States written by David L. Peterson and published by Springer Nature. This book was released on 2022-08-11 with total page 346 pages. Available in PDF, EPUB and Kindle. Book excerpt: 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.
This state-of-knowledge review about the effects of fire on air quality can assist land, fire, and air resource managers with fire and smoke planning, and their efforts to explain to others the science behind fire-related program policies and practices to improve air quality. Chapter topics include air quality regulations and fire; characterization of emissions from fire; the transport, dispersion, and modeling of fire emissions; atmospheric and plume chemistry; air quality impacts of fire; social consequences of air quality impacts; and recommendations for future research.
Book Synopsis Wildland Fire in Ecosystems by :
Download or read book Wildland Fire in Ecosystems written by and published by . This book was released on 2003 with total page 88 pages. Available in PDF, EPUB and Kindle. Book excerpt: This state-of-knowledge review about the effects of fire on air quality can assist land, fire, and air resource managers with fire and smoke planning, and their efforts to explain to others the science behind fire-related program policies and practices to improve air quality. Chapter topics include air quality regulations and fire; characterization of emissions from fire; the transport, dispersion, and modeling of fire emissions; atmospheric and plume chemistry; air quality impacts of fire; social consequences of air quality impacts; and recommendations for future research.
Book Synopsis Smoke Management Guide for Prescribed and Wildland Fire by :
Download or read book Smoke Management Guide for Prescribed and Wildland Fire written by and published by . This book was released on 2001 with total page 238 pages. Available in PDF, EPUB and Kindle. Book excerpt:
California and other wildfire-prone western states have experienced a substantial increase in the number and intensity of wildfires in recent years. Wildlands and climate experts expect these trends to continue and quite likely to worsen in coming years. Wildfires and other disasters can be particularly devastating for vulnerable communities. Members of these communities tend to experience worse health outcomes from disasters, have fewer resources for responding and rebuilding, and receive less assistance from state, local, and federal agencies. Because burning wood releases particulate matter and other toxicants, the health effects of wildfires extend well beyond burns. In addition, deposition of toxicants in soil and water can result in chronic as well as acute exposures. On June 4-5, 2019, four different entities within the National Academies of Sciences, Engineering, and Medicine held a workshop titled Implications of the California Wildfires for Health, Communities, and Preparedness at the Betty Irene Moore School of Nursing at the University of California, Davis. The workshop explored the population health, environmental health, emergency preparedness, and health equity consequences of increasingly strong and numerous wildfires, particularly in California. This publication is a summary of the presentations and discussion of the workshop.
Book Synopsis Implications of the California Wildfires for Health, Communities, and Preparedness by : National Academies of Sciences, Engineering, and Medicine
Download or read book Implications of the California Wildfires for Health, Communities, and Preparedness written by National Academies of Sciences, Engineering, and Medicine and published by National Academies Press. This book was released on 2020-08-31 with total page 161 pages. Available in PDF, EPUB and Kindle. Book excerpt: California and other wildfire-prone western states have experienced a substantial increase in the number and intensity of wildfires in recent years. Wildlands and climate experts expect these trends to continue and quite likely to worsen in coming years. Wildfires and other disasters can be particularly devastating for vulnerable communities. Members of these communities tend to experience worse health outcomes from disasters, have fewer resources for responding and rebuilding, and receive less assistance from state, local, and federal agencies. Because burning wood releases particulate matter and other toxicants, the health effects of wildfires extend well beyond burns. In addition, deposition of toxicants in soil and water can result in chronic as well as acute exposures. On June 4-5, 2019, four different entities within the National Academies of Sciences, Engineering, and Medicine held a workshop titled Implications of the California Wildfires for Health, Communities, and Preparedness at the Betty Irene Moore School of Nursing at the University of California, Davis. The workshop explored the population health, environmental health, emergency preparedness, and health equity consequences of increasingly strong and numerous wildfires, particularly in California. This publication is a summary of the presentations and discussion of the workshop.
The chapter gives a short outlook of wildland fires and their influence on atmospheric composition, air quality and climate. Fires are among the most powerful sources of atmospheric tracers and also means of changing the ecosystems themselves. Present pattern of the biomass burning is strongly affected by anthropogenic activities, both via accidental and deliberate ignitions of the fires (about 90% fires are started by humans) and via various fire-fighting and prevention measures. The role of urban–rural interface territories is particularly high in this regard. The fire specifics and impact vary in the different parts of the globe. In forested regions, the bulk of consumed biomass can be attributed to a comparatively small number of major episodes, whereas in arid regions, individual fires are smaller but more numerous. Remote sensing is the primary way of fire monitoring. Three types of products—inventories of burnt areas, count of active fires and estimates of release of fire radiative energy—are available from several satellite instruments. Altogether, they cover the whole globe and span over several decades. Based on this information, several inventories of consumed biomass and atmospheric emissions have been compiled. Their comparison shows qualitative similarity of the products but the differences are substantial. Understanding the reasons for these differences and development of consensus-based methodologies is among the main challenges for the near future.
Book Synopsis Climate Change, Air Pollution and Global Challenges by : Mikhail Sofiev
Download or read book Climate Change, Air Pollution and Global Challenges written by Mikhail Sofiev and published by Elsevier Inc. Chapters. This book was released on 2013-11-19 with total page 23 pages. Available in PDF, EPUB and Kindle. Book excerpt: The chapter gives a short outlook of wildland fires and their influence on atmospheric composition, air quality and climate. Fires are among the most powerful sources of atmospheric tracers and also means of changing the ecosystems themselves. Present pattern of the biomass burning is strongly affected by anthropogenic activities, both via accidental and deliberate ignitions of the fires (about 90% fires are started by humans) and via various fire-fighting and prevention measures. The role of urban–rural interface territories is particularly high in this regard. The fire specifics and impact vary in the different parts of the globe. In forested regions, the bulk of consumed biomass can be attributed to a comparatively small number of major episodes, whereas in arid regions, individual fires are smaller but more numerous. Remote sensing is the primary way of fire monitoring. Three types of products—inventories of burnt areas, count of active fires and estimates of release of fire radiative energy—are available from several satellite instruments. Altogether, they cover the whole globe and span over several decades. Based on this information, several inventories of consumed biomass and atmospheric emissions have been compiled. Their comparison shows qualitative similarity of the products but the differences are substantial. Understanding the reasons for these differences and development of consensus-based methodologies is among the main challenges for the near future.
Book Synopsis Should You Have the Air Ducts in Your Home Cleaned? by : United States. Environmental Protection Agency. Office of Air and Radiation
Download or read book Should You Have the Air Ducts in Your Home Cleaned? written by United States. Environmental Protection Agency. Office of Air and Radiation and published by . This book was released on 1997 with total page 24 pages. Available in PDF, EPUB and Kindle. Book excerpt:
This dissertation combines traditional methods of exposure assessment with new approaches to evaluate exposures in community and occupational settings to air contaminants commonly emitted from wildland fires and found in the ambient environment. Wildland fires emit large amounts of air pollutants known to cause adverse health effects. Past exposure assessments of wildland fires have measured levels of fine and respirable particulate matter (PM2.5-PM4), acrolein, benzene, carbon dioxide, carbon monoxide, formaldehyde, crystalline silica, total particulates, and polycyclic aromatic hydrocarbons (PAHs). I evaluated exposures to air pollutants associated with wildland fires, specifically PM2.5 and PAHs at different exposure receptor levels - in communities near a wildland fire, occupational exposures of wildland firefighters, and biomarkers of exposure in the US population. First, I evaluated air quality impacts of PM2.5 from smoke from a mega wildland fire on receptor areas in California and Nevada. The 2013 Rim Fire was the third largest wildland fire in California history and burned 257,314 acres in the Sierra Nevada Mountains. This project employed two approaches to examine the air quality impacts, (1) an evaluation of PM2.5 concentration data collected by temporary and permanent air monitoring sites and (2) an estimation of intake fraction (iF) of PM2.5 from smoke. The Rim Fire impacted locations in the central Sierra nearest to the fire and extended to northern Sierra Nevada Mountains of California and Nevada monitoring sites. Daily 24-hr average PM2.5 concentrations measured at 22 air monitors had an average concentration of 20 [mu]g/m3 and ranged from 0 to 450 [mu]g/m3. iF for PM2.5 from smoke during the active fire period was 7.4 per million, which is slightly higher to representative iF for PM2.5 in rural areas and much lower than for urban areas. This study is a unique application of intake fraction to examine emissions-to-exposure for wildfires and emphasizes that air quality cannot only be localized to communities near large fires but can extend long distances and impact larger urban areas. Next, I characterized exposures of wildland firefighters during wildland fire and prescribed fires to PAHs, explore associations between exposure and firefighting job tasks, and examine off-duty and community PAH and PM2.5 concentrations. Wildland firefighters working to control wildland fires work long shifts and are exposed to high levels of wood smoke with no respiratory protection. PAHs were measured on 21 wildland firefighters (N=28) while suppressing two wildland fires and 4 wildland firefighters conducting prescribed burns in California. Personal air samples were collected using actively sampled XAD-coated quartz fiber filters. Filters in cassette cases were attached to the back of each wildland firefighter's backpack. Community-level PAH air samples were collected for the first 12 days of a wildland fire and were collocated with a PM2.5 sampler. Samples were analyzed for 17 individual PAHs through extraction with dichloromethane and analyzed on a gas chromatograph with a mass selective detector. I detected measurable concentrations of 17 PAHs in personal samples on firefighters at prescribed and wildland fires and in area samples at a community nearby a wildland fire. Naphthalene, retene, and phenanthrene were consistently the highest measured PAHs at all three sampling scenarios. PAH concentrations were higher at wildland fires compared to prescribed fires and were highest for firefighters during job tasks that involve the most direct contact with smoke near an actively burning wildland fire. Although concentrations do not exceed current occupational exposure limits, wildland firefighters are exposed to PAHs not only on the fire line at wildland fires, but also while working prescribed burns and while off-duty. It is important to characterize exposures from wildland fires to better understand any potential long-term health effects. Lastly, I evaluated predictors of urinary PAH concentrations in 2001-2006 NHANES participants from a variety of sources including demographic information, food intake, housing characteristics, and modeled outdoor air pollutant exposures. Biomonitoring data provides a direct way to link human exposure to environmental contaminants. However, these data do not reveal how various exposure routes or media contribute to the body burden of a specific chemical. NHANES participants were linked to their census tract-level daily PM2.5 exposure estimate, outdoor temperature, and annual air toxics concentrations. Multivariate linear regression models were developed using the Deletion/Substitution/ Addition algorithm to predict urinary PAH levels using NHANES questionnaire data for model selection in all and non-smoking adult NHANES participants. Exposure parameters were then added to each model. Model fit was assessed by comparing the R2 for each model tested. Exposure to PM2.5 and air toxics emissions were not associated with levels of urinary PAH metabolites. In the analysis current smoking status was the strongest predictor of PAH biomarker concentration and was able to explain 10% - 47% of the variability of PAH biomarker concentrations. The DSA selected models did not improve prediction in the "all adults" analysis. They were able to explain 10% - 51% of the variability of PAH biomarker concentrations in all adults. Among non-smokers, the DSA selected variables only explained 2% - 5% of the variability in biomarker concentrations. Further studies of routes of exposure of PAHs should be completed to understand how PAHs in the environment are contributing to the body burden of PAH. This study demonstrated how a rich dataset of biomarkers with individual information on demographics, food intake, and air pollution exposures can be used to examine the contribution of each route of exposure on the body burden. With the predicted increase of fire season in the western United States due to climate change resulting in more acres burned and smoke produced, it is important to quantify the air quality impacts from wildfires to develop effective strategies to protect public and wildland firefighter health. These methods outlined in this dissertation can be used to better estimate short-term and long-term health risks, so that public and occupational health practitioners, air quality regulators, and natural resource managers can develop mitigation strategies to reduce exposure to wildland fire smoke.
Book Synopsis Assessment of Ambient and Occupational Exposures to Air Contaminants from Wildland Fire Smoke by : Kathleen McGuire Navarro
Download or read book Assessment of Ambient and Occupational Exposures to Air Contaminants from Wildland Fire Smoke written by Kathleen McGuire Navarro and published by . This book was released on 2016 with total page 98 pages. Available in PDF, EPUB and Kindle. Book excerpt: This dissertation combines traditional methods of exposure assessment with new approaches to evaluate exposures in community and occupational settings to air contaminants commonly emitted from wildland fires and found in the ambient environment. Wildland fires emit large amounts of air pollutants known to cause adverse health effects. Past exposure assessments of wildland fires have measured levels of fine and respirable particulate matter (PM2.5-PM4), acrolein, benzene, carbon dioxide, carbon monoxide, formaldehyde, crystalline silica, total particulates, and polycyclic aromatic hydrocarbons (PAHs). I evaluated exposures to air pollutants associated with wildland fires, specifically PM2.5 and PAHs at different exposure receptor levels - in communities near a wildland fire, occupational exposures of wildland firefighters, and biomarkers of exposure in the US population. First, I evaluated air quality impacts of PM2.5 from smoke from a mega wildland fire on receptor areas in California and Nevada. The 2013 Rim Fire was the third largest wildland fire in California history and burned 257,314 acres in the Sierra Nevada Mountains. This project employed two approaches to examine the air quality impacts, (1) an evaluation of PM2.5 concentration data collected by temporary and permanent air monitoring sites and (2) an estimation of intake fraction (iF) of PM2.5 from smoke. The Rim Fire impacted locations in the central Sierra nearest to the fire and extended to northern Sierra Nevada Mountains of California and Nevada monitoring sites. Daily 24-hr average PM2.5 concentrations measured at 22 air monitors had an average concentration of 20 [mu]g/m3 and ranged from 0 to 450 [mu]g/m3. iF for PM2.5 from smoke during the active fire period was 7.4 per million, which is slightly higher to representative iF for PM2.5 in rural areas and much lower than for urban areas. This study is a unique application of intake fraction to examine emissions-to-exposure for wildfires and emphasizes that air quality cannot only be localized to communities near large fires but can extend long distances and impact larger urban areas. Next, I characterized exposures of wildland firefighters during wildland fire and prescribed fires to PAHs, explore associations between exposure and firefighting job tasks, and examine off-duty and community PAH and PM2.5 concentrations. Wildland firefighters working to control wildland fires work long shifts and are exposed to high levels of wood smoke with no respiratory protection. PAHs were measured on 21 wildland firefighters (N=28) while suppressing two wildland fires and 4 wildland firefighters conducting prescribed burns in California. Personal air samples were collected using actively sampled XAD-coated quartz fiber filters. Filters in cassette cases were attached to the back of each wildland firefighter's backpack. Community-level PAH air samples were collected for the first 12 days of a wildland fire and were collocated with a PM2.5 sampler. Samples were analyzed for 17 individual PAHs through extraction with dichloromethane and analyzed on a gas chromatograph with a mass selective detector. I detected measurable concentrations of 17 PAHs in personal samples on firefighters at prescribed and wildland fires and in area samples at a community nearby a wildland fire. Naphthalene, retene, and phenanthrene were consistently the highest measured PAHs at all three sampling scenarios. PAH concentrations were higher at wildland fires compared to prescribed fires and were highest for firefighters during job tasks that involve the most direct contact with smoke near an actively burning wildland fire. Although concentrations do not exceed current occupational exposure limits, wildland firefighters are exposed to PAHs not only on the fire line at wildland fires, but also while working prescribed burns and while off-duty. It is important to characterize exposures from wildland fires to better understand any potential long-term health effects. Lastly, I evaluated predictors of urinary PAH concentrations in 2001-2006 NHANES participants from a variety of sources including demographic information, food intake, housing characteristics, and modeled outdoor air pollutant exposures. Biomonitoring data provides a direct way to link human exposure to environmental contaminants. However, these data do not reveal how various exposure routes or media contribute to the body burden of a specific chemical. NHANES participants were linked to their census tract-level daily PM2.5 exposure estimate, outdoor temperature, and annual air toxics concentrations. Multivariate linear regression models were developed using the Deletion/Substitution/ Addition algorithm to predict urinary PAH levels using NHANES questionnaire data for model selection in all and non-smoking adult NHANES participants. Exposure parameters were then added to each model. Model fit was assessed by comparing the R2 for each model tested. Exposure to PM2.5 and air toxics emissions were not associated with levels of urinary PAH metabolites. In the analysis current smoking status was the strongest predictor of PAH biomarker concentration and was able to explain 10% - 47% of the variability of PAH biomarker concentrations. The DSA selected models did not improve prediction in the "all adults" analysis. They were able to explain 10% - 51% of the variability of PAH biomarker concentrations in all adults. Among non-smokers, the DSA selected variables only explained 2% - 5% of the variability in biomarker concentrations. Further studies of routes of exposure of PAHs should be completed to understand how PAHs in the environment are contributing to the body burden of PAH. This study demonstrated how a rich dataset of biomarkers with individual information on demographics, food intake, and air pollution exposures can be used to examine the contribution of each route of exposure on the body burden. With the predicted increase of fire season in the western United States due to climate change resulting in more acres burned and smoke produced, it is important to quantify the air quality impacts from wildfires to develop effective strategies to protect public and wildland firefighter health. These methods outlined in this dissertation can be used to better estimate short-term and long-term health risks, so that public and occupational health practitioners, air quality regulators, and natural resource managers can develop mitigation strategies to reduce exposure to wildland fire smoke.
Landscape Fire, Smoke, and Health Linking Biomass Burning Emissions to Human Well-Being Where and when wildfires occur, what pollutants they emit, how the chemistry of smoke changes in the atmosphere, and what impact this air pollution has on human health and well-being are questions explored across different scientific disciplines. Landscape Fire, Smoke, and Health: Linking Biomass Burning Emissions to Human Well-Being is designed to create a foundational knowledge base allowing interdisciplinary teams to interact more effectively in addressing the impacts of air pollution from biomass burning on human health. Volume highlights include: Core concepts, principles, and terminology related to smoke and air quality used in different disciplines Observational and modeling tools and approaches in fire science Methods to sense, model, and map smoke in the atmosphere Impacts of biomass burning smoke on the health and well-being of children and adults Perspectives from researchers, modelers, and practitioners Case studies from different countries Information to support decision-making and policy The American Geophysical Union promotes discovery in Earth and space science for the benefit of humanity. Its publications disseminate scientific knowledge and provide resources for researchers, students, and professionals.
Book Synopsis Landscape Fire, Smoke, and Health by : Tatiana V. Loboda
Download or read book Landscape Fire, Smoke, and Health written by Tatiana V. Loboda and published by John Wiley & Sons. This book was released on 2023-10-11 with total page 307 pages. Available in PDF, EPUB and Kindle. Book excerpt: Landscape Fire, Smoke, and Health Linking Biomass Burning Emissions to Human Well-Being Where and when wildfires occur, what pollutants they emit, how the chemistry of smoke changes in the atmosphere, and what impact this air pollution has on human health and well-being are questions explored across different scientific disciplines. Landscape Fire, Smoke, and Health: Linking Biomass Burning Emissions to Human Well-Being is designed to create a foundational knowledge base allowing interdisciplinary teams to interact more effectively in addressing the impacts of air pollution from biomass burning on human health. Volume highlights include: Core concepts, principles, and terminology related to smoke and air quality used in different disciplines Observational and modeling tools and approaches in fire science Methods to sense, model, and map smoke in the atmosphere Impacts of biomass burning smoke on the health and well-being of children and adults Perspectives from researchers, modelers, and practitioners Case studies from different countries Information to support decision-making and policy The American Geophysical Union promotes discovery in Earth and space science for the benefit of humanity. Its publications disseminate scientific knowledge and provide resources for researchers, students, and professionals.
