Future of Fire in the North Central: Towards a National Synthesis for Wildland Fire Under a Changing Climate
As the National Climate Adaptation Science Center (CASC) develops a strategic effort around fire science, there is a critical need to develop a national-scale synthesis effort that identifies key regional CASC activities previously conducted, as well as major science gaps that may be addressed by a coordinated CASC network approach. The North Central CASC postdoctoral fellow will play a leadership role in the National CASC Climate Adaptation Postdoctoral (CAP) Fellows Future of Fire cohort to help identify the common efforts and leveraging points to shape the national-scale synthesis.
Currently there is limited North Central CASC supported fire science available for the North Central region. To meet this need, the North Central CASC postdoctoral fellow will develop region-specific fire information relevant to resource managers that are challenged with making decisions to adapt to changing fire risk and ecosystem responses. This project aims to determine the future size and number of fires, total burn area, and rates of change among years and across space in the contiguous United States. The goal is to explain changes in these fire variables in relation to climate change and changing housing density, which drives human ignitions and fire suppression efforts. To predict the future size and number of fires, statiscal models that look at fire-climate relationships will be applied to climate data output from several global climate models under two future climate scenarios.
The results will help improve future fire projections based on climate modeling and data at spatial- and temporal-scales relevant for resource managers, with a focus on: i) identifying regions where fire has historically been infrequent or absent; ii) changes to fire extremes and other important aspects of fire behavior that have an impact on fire operations/management (i.e., timing, intensity, seasonal length); and iii) changes that will exceed the capacity of current institutional management approaches. Additionally, the postdoctoral fellow will help coordinate a team of regional partners, scientists and managers to determine what information is most useful for decision-making. This engagement with practitioners will be beneficial in informing the national-scale synthesis and identification of key metrics.
- Source: USGS Sciencebase (id: 6179953cd34ea58c3c6fa1cd)
As the National Climate Adaptation Science Center (CASC) develops a strategic effort around fire science, there is a critical need to develop a national-scale synthesis effort that identifies key regional CASC activities previously conducted, as well as major science gaps that may be addressed by a coordinated CASC network approach. The North Central CASC postdoctoral fellow will play a leadership role in the National CASC Climate Adaptation Postdoctoral (CAP) Fellows Future of Fire cohort to help identify the common efforts and leveraging points to shape the national-scale synthesis.
Currently there is limited North Central CASC supported fire science available for the North Central region. To meet this need, the North Central CASC postdoctoral fellow will develop region-specific fire information relevant to resource managers that are challenged with making decisions to adapt to changing fire risk and ecosystem responses. This project aims to determine the future size and number of fires, total burn area, and rates of change among years and across space in the contiguous United States. The goal is to explain changes in these fire variables in relation to climate change and changing housing density, which drives human ignitions and fire suppression efforts. To predict the future size and number of fires, statiscal models that look at fire-climate relationships will be applied to climate data output from several global climate models under two future climate scenarios.
The results will help improve future fire projections based on climate modeling and data at spatial- and temporal-scales relevant for resource managers, with a focus on: i) identifying regions where fire has historically been infrequent or absent; ii) changes to fire extremes and other important aspects of fire behavior that have an impact on fire operations/management (i.e., timing, intensity, seasonal length); and iii) changes that will exceed the capacity of current institutional management approaches. Additionally, the postdoctoral fellow will help coordinate a team of regional partners, scientists and managers to determine what information is most useful for decision-making. This engagement with practitioners will be beneficial in informing the national-scale synthesis and identification of key metrics.
- Source: USGS Sciencebase (id: 6179953cd34ea58c3c6fa1cd)