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Fire

Fire seasons are becoming longer and more intense across the United States. The CASC network works with partners to develop knowledge and tools to better understand region-specific drivers of wildfires, to aid fire management efforts, and to facilitate ecosystem recovery post-fire.

Filter Total Items: 111

Adding fuel to the fire: determining vegetation-specific drought timescales that enhance fuel flammability and fire potential

Increasing severe drought events occurring across the Colorado Plateau can harm vegetation and create drier and more flammable fuel for wildfire. Researchers supported by this Southwest CASC project will analyze drought indices and satellite data to show how quickly after drought begins that different types of vegetation across the region show signs of health declines and increased flammability. T
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Adding fuel to the fire: determining vegetation-specific drought timescales that enhance fuel flammability and fire potential

Increasing severe drought events occurring across the Colorado Plateau can harm vegetation and create drier and more flammable fuel for wildfire. Researchers supported by this Southwest CASC project will analyze drought indices and satellite data to show how quickly after drought begins that different types of vegetation across the region show signs of health declines and increased flammability. T
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Increasing Giant Sequoia Reforestation Success after Catastrophic Wildfire Using Soil and Microbial Indicators

Recent catastrophic droughts and wildfires have killed almost 20% of mature giant sequoia trees across California, and it is uncertain whether natural seedling regeneration will be enough to restore these forests, especially in severely burned areas. Researchers supported by this Southwest CASC project will assess whether soil conditions, such as moisture and soil microbial communities can increas
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Increasing Giant Sequoia Reforestation Success after Catastrophic Wildfire Using Soil and Microbial Indicators

Recent catastrophic droughts and wildfires have killed almost 20% of mature giant sequoia trees across California, and it is uncertain whether natural seedling regeneration will be enough to restore these forests, especially in severely burned areas. Researchers supported by this Southwest CASC project will assess whether soil conditions, such as moisture and soil microbial communities can increas
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Developing science syntheses to facilitate climate-informed land management decisions and NEPA analyses on rangelands in the sagebrush biome

The National Environmental Policy Act (NEPA) requires federal public land managers to assess potential environmental impacts of proposed actions. The USGS, Bureau of Land Management, US Fish and Wildlife Service, Colorado State University, and North Central Climate Adaptation Science Center are working together to develop science syntheses that can facilitate considerations of climate change in...
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Developing science syntheses to facilitate climate-informed land management decisions and NEPA analyses on rangelands in the sagebrush biome

The National Environmental Policy Act (NEPA) requires federal public land managers to assess potential environmental impacts of proposed actions. The USGS, Bureau of Land Management, US Fish and Wildlife Service, Colorado State University, and North Central Climate Adaptation Science Center are working together to develop science syntheses that can facilitate considerations of climate change in...
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Soil-climate for Managing Sagebrush Ecosystems

Soil-climate describes the temperature and moisture conditions important for plant growth and function. Soil condition patterns determine which vegetation is most abundant, thus controlling which habitats, invasive species, fuels, and economic activities are present in a region. Here, we use a model to simulate the vertical movement of water in a soil profile to provide insights into landscape...
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Soil-climate for Managing Sagebrush Ecosystems

Soil-climate describes the temperature and moisture conditions important for plant growth and function. Soil condition patterns determine which vegetation is most abundant, thus controlling which habitats, invasive species, fuels, and economic activities are present in a region. Here, we use a model to simulate the vertical movement of water in a soil profile to provide insights into landscape...
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Climate Effects on Prescribed Fire Implementation and Efficacy in Northern Mixed-Grass Prairie

Prescribed burning – planned, controlled fires conducted under weather and fuel conditions designed for safety and effectiveness – is a common practice used to maintain and restore native prairies in the Northern Great Plains. However, climate change will affect the number of days in a year, and when, suitable conditions for prescribed fires occur. For instance, warmer temperatures may shift thes
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Climate Effects on Prescribed Fire Implementation and Efficacy in Northern Mixed-Grass Prairie

Prescribed burning – planned, controlled fires conducted under weather and fuel conditions designed for safety and effectiveness – is a common practice used to maintain and restore native prairies in the Northern Great Plains. However, climate change will affect the number of days in a year, and when, suitable conditions for prescribed fires occur. For instance, warmer temperatures may shift thes
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Future of Fire Phase II: Learning by Doing with Cultural Fire Practitioners

Despite the pandemic, Future of Fire postdoc Dr. Nina Fontana developed and contributed to a range of projects with cultural fire practitioners from 2021-2023. This funding will provide her an additional year to complete and grow projects started with partners as a Future of Fire fellow. Fontana’s work focuses on two broad areas: (1) improving best practices in teaching and learning about cultura
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Future of Fire Phase II: Learning by Doing with Cultural Fire Practitioners

Despite the pandemic, Future of Fire postdoc Dr. Nina Fontana developed and contributed to a range of projects with cultural fire practitioners from 2021-2023. This funding will provide her an additional year to complete and grow projects started with partners as a Future of Fire fellow. Fontana’s work focuses on two broad areas: (1) improving best practices in teaching and learning about cultura
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How do Atmospheric Rivers and Downslope Winds Affect Wildfire Risk and Water Resources in the Arid Southwest?

The complex mountain and valley chains of the Southwest exert a strong influence on precipitation and wind patterns. Atmospheric rivers deliver some of the most extreme precipitation events to west-southwest-facing slopes of the mountains where strong gusty downslope winds can also spread wildfires. Climate change is making the southwest warmer and dryer resulting in more fire-prone vegetation and
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How do Atmospheric Rivers and Downslope Winds Affect Wildfire Risk and Water Resources in the Arid Southwest?

The complex mountain and valley chains of the Southwest exert a strong influence on precipitation and wind patterns. Atmospheric rivers deliver some of the most extreme precipitation events to west-southwest-facing slopes of the mountains where strong gusty downslope winds can also spread wildfires. Climate change is making the southwest warmer and dryer resulting in more fire-prone vegetation and
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How Do Critical Life History Stages Limit Plant Adaptation to Changing Climate? The Role of Seedling and Sapling Survivorship in Ecosystem Resilience

Ecosystems respond to disturbances (such as wildfire) and changing climate in a variety of ways, including persistence, recovery, and reorganization into new combinations. Some species respond by migrating across the landscape over time, which allows them to keep up with changing climate. Many forests recover after wildfire by regenerating from seeds, and public land managers often assist these pr
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How Do Critical Life History Stages Limit Plant Adaptation to Changing Climate? The Role of Seedling and Sapling Survivorship in Ecosystem Resilience

Ecosystems respond to disturbances (such as wildfire) and changing climate in a variety of ways, including persistence, recovery, and reorganization into new combinations. Some species respond by migrating across the landscape over time, which allows them to keep up with changing climate. Many forests recover after wildfire by regenerating from seeds, and public land managers often assist these pr
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Informing Forest Treatment Placement to Mitigate High-Severity Wildfire Risk

Large, hot, fast-moving wildfires are an increasing threat to communities and to the watersheds they rely upon. Forest managers work to reduce the risk from these fires using forest thinning and prescribed burning to reduce the amount of fuel in the forest. However, these activities are expensive, and it can be challenging to identify which acres of forest should be targeted with thinning and burn
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Informing Forest Treatment Placement to Mitigate High-Severity Wildfire Risk

Large, hot, fast-moving wildfires are an increasing threat to communities and to the watersheds they rely upon. Forest managers work to reduce the risk from these fires using forest thinning and prescribed burning to reduce the amount of fuel in the forest. However, these activities are expensive, and it can be challenging to identify which acres of forest should be targeted with thinning and burn
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Megafire Risk Evaluation System (MERES) for the Southern Great Plains

Characterized by their extreme size, intensity, and severity, megafires are the most destructive, dangerous, and costly wildfires in the U.S. Over the past two decades, megafires have become more frequent in Oklahoma and Texas along with increasing extreme weather events and changes to fuel types caused by woody plant encroachment into grasslands. As climate change and woody plant encroachment are
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Megafire Risk Evaluation System (MERES) for the Southern Great Plains

Characterized by their extreme size, intensity, and severity, megafires are the most destructive, dangerous, and costly wildfires in the U.S. Over the past two decades, megafires have become more frequent in Oklahoma and Texas along with increasing extreme weather events and changes to fuel types caused by woody plant encroachment into grasslands. As climate change and woody plant encroachment are
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Modeling Large Fires in Response to Potential Tipping Points in Fuel Dryness

Wildfire burn areas are increasing in the western U.S., a change that has been linked to increased fuel aridity caused by climate change. Recognizing that there will likely be even more large fires in the future presents an opportunity to prepare and adapt to the expected climatic changes. This project addresses three key science questions: 1) Is there a specific level (threshold) of fuel aridi
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Modeling Large Fires in Response to Potential Tipping Points in Fuel Dryness

Wildfire burn areas are increasing in the western U.S., a change that has been linked to increased fuel aridity caused by climate change. Recognizing that there will likely be even more large fires in the future presents an opportunity to prepare and adapt to the expected climatic changes. This project addresses three key science questions: 1) Is there a specific level (threshold) of fuel aridi
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Post-fire Vegetation Transitions in Burned and Reburned Forests in the Western Cascades

Climatic warming has contributed to recent increases in severe wildfires across the Pacific Northwest (PNW). Following severe wildfire, a burned forest has an increased likelihood burning again within several decades, which can greatly alter vegetation recovery. These changes are of increasing concern to forest managers, conservationists, researchers, the public, and culture bearers. However, more
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Post-fire Vegetation Transitions in Burned and Reburned Forests in the Western Cascades

Climatic warming has contributed to recent increases in severe wildfires across the Pacific Northwest (PNW). Following severe wildfire, a burned forest has an increased likelihood burning again within several decades, which can greatly alter vegetation recovery. These changes are of increasing concern to forest managers, conservationists, researchers, the public, and culture bearers. However, more
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