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Collaborative Research: FIRE-MODEL: Using multitemporal ecosystem energetics to understand — NSF Award to Board of Regents, NSHE,

Wildfire is a key process for many types of ecosystems. Over the past century, however, fire activity has changed dramatically. One important driver of this shift has been the accumulation of flammable materials, such as fallen leaves and dead wood, that provide fuel for wildfires. Despite its importance, fuel accumula

Award titleCollaborative Research: FIRE-MODEL: Using multitemporal ecosystem energetics to understand
Award ID2535904
AwardeeBoard of Regents, NSHE, obo University of Nevada, Reno
CityRENO
StateNV
Amount obligated$1,360,564
Principal investigatorErin Hanan
ProgramCross-BIO Activities
Start date01/01/2026
AbstractWildfire is a key process for many types of ecosystems. Over the past century, however, fire activity has changed dramatically. One important driver of this shift has been the accumulation of flammable materials, such as fallen leaves and dead wood, that provide fuel for wildfires. Despite its importance, fuel accumulation remains difficult to model because it involves processes unfolding on very different timescales: the slow buildup and decay of fuels and their rapid combustion during wildfire
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