4.5 Article

Plant-water sensitivity regulates wildfire vulnerability

期刊

NATURE ECOLOGY & EVOLUTION
卷 6, 期 3, 页码 332-+

出版社

NATURE PORTFOLIO
DOI: 10.1038/s41559-021-01654-2

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资金

  1. NASA Earth and Space Science Fellowship
  2. Stanford Data Science Scholarship
  3. NASA Terrestrial Ecology award [80NSSC18K0715]
  4. UPS Endowment Fund at Stanford
  5. Stanford Sustainability Initiative
  6. Stanford Woods Institute for the Environment
  7. Zegar Family Foundation
  8. Stanford University
  9. Australian National University

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Increasing vapour pressure deficit (VPD) leads to a chronic increase in wildfire area. Regions with higher vegetation moisture sensitivity to water limitation experience greater increases in burned area for the same increase in VPD. This has resulted in faster population growth in high plant-water sensitivity areas and heightened wildfire risk. Accounting for ecophysiological controls can improve wildfire forecasts, and with the continuation of current trends, human wildfire risk will likely continue to rise.
Extreme wildfires extensively impact human health and the environment. Increasing vapour pressure deficit (VPD) has led to a chronic increase in wildfire area in the western United States, yet some regions have been more affected than others. Here we show that for the same increase in VPD, burned area increases more in regions where vegetation moisture shows greater sensitivity to water limitation (plant-water sensitivity; R-2 = 0.71). This has led to rapid increases in human exposure to wildfire risk, both because the population living in areas with high plant-water sensitivity grew 50% faster during 1990-2010 than in other wildland-urban interfaces and because VPD has risen most rapidly in these vulnerable areas. As plant-water sensitivity is strongly linked to wildfire vulnerability, accounting for ecophysiological controls should improve wildfire forecasts. If recent trends in VPD and demographic shifts continue, human wildfire risk will probably continue to increase. The authors show that an ecosystem's sensitivity to drought, measured as the amount of change in vegetation moisture content for a given change in background moisture, predicts the fire hazard in that location.

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