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Quantifying pyrodiversity and its drivers

Zachary L. Steel, Brandon M. Collins, David B. Sapsis, Scott L. Stephens

2021Proceedings of the Royal Society B Biological Sciences42 citationsDOIOpen Access PDF

Abstract

Pyrodiversity or variation in spatio-temporal fire patterns is increasingly recognized as an important determinant of ecological pattern and process, yet no consensus surrounds how best to quantify the phenomenon and its drivers remain largely untested. We present a generalizable functional diversity approach for measuring pyrodiversity, which incorporates multiple fire regime traits and can be applied across scales. Further, we tested the socioecological drivers of pyrodiversity among forests of the western United States. Largely mediated by burn activity, pyrodiversity was positively associated with actual evapotranspiration, climate water deficit, wilderness designation, elevation and topographic roughness but negatively with human population density. These results indicate pyrodiversity is highest in productive areas with pronounced annual dry periods and minimal fire suppression. This work can facilitate future pyrodiversity studies including whether and how it begets biodiversity among taxa, regions and fire regimes.

Topics & Concepts

Fire regimeBiodiversityWildernessGeographyEcologyElevation (ballistics)EvapotranspirationVegetation (pathology)Fire ecologyPopulationDiversity (politics)Climate changeTaxonEnvironmental scienceEnvironmental resource managementPhysical geographyEcosystemBiologyDemographyMathematicsSociologyMedicineAnthropologyPathologyGeometryFire effects on ecosystemsFire dynamics and safety researchAtmospheric chemistry and aerosols
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