Warming and Earlier Spring Increases Western U.S. Forest Wildfire Activity

doi:10.1126/science.1128834

Account Information

Guest Alerts | Access Rights | My Account | Sign In

Site Navigation

Article Views

VERSION HISTORY

313/5789/940 (most recent)
1128834v1

Article Tools

My Science

Published Online July 6, 2006
Science DOI: 10.1126/science.1128834

Science Express Index

Research Articles

Submitted on April 17, 2006
Accepted on June 28, 2006

Warming and Earlier Spring Increases Western U.S. Forest Wildfire Activity

Anthony Leroy Westerling ¹^*, Hugo G. Hidalgo ², Daniel R. Cayan ³, Thomas W. Swetnam ⁴

¹ Scripps Institution of Oceanography, La Jolla, CA 92093, USA; University of California, Merced, CA 95344, USA.
² Scripps Institution of Oceanography, La Jolla, CA 92093, USA.
³ Scripps Institution of Oceanography, La Jolla, CA 92093, USA; US Geological Survey, La Jolla, CA 92093, USA.
⁴ Laboratory of Tree-Ring Research, University of Arizona, Tucson, AZ 85721, USA.

^* To whom correspondence should be addressed.
Anthony Leroy Westerling , E-mail: awesterl{at}ucsd.edu

Western United States forest wildfire activity is widely thoughtto have increased in recent decades, but surprisingly, the extentof recent changes has never been systematically documented.Nor has it been established to what degree climate may be drivingregional changes in wildfire. Much of the public and scientificdiscussion of changes in western United States wildfire hasfocused rather on the effects of 19th and 20th century land-usehistory. We compiled a comprehensive database of large wildfiresin western United States forests since 1970 and compared itto hydro-climatic and land-surface data. Here, we show thatlarge wildfire activity increased suddenly and dramaticallyin the mid-1980s, with higher large-wildfire frequency, longerwildfire durations, and longer wildfire seasons. The greatestincreases occurred in mid-elevation, Northern Rockies forests,where land-use histories have relatively little effect on firerisks, and are strongly associated with increased spring andsummer temperatures and an earlier spring snowmelt.

THIS ARTICLE HAS BEEN CITED BY OTHER ARTICLES:

Correlation between Air Permeability and Saturated Hydraulic Conductivity: Unburned and Burned Soils.: K. Chief, T. P. A. Ferre, and B. Nijssen (2008)
Soil Sci. Soc. Am. J. 72, 1501-1509
| Abstract » | Full Text » | PDF »

Managing Forests for Climate Change Mitigation.: J. G. Canadell and M. R. Raupach (2008)
Science 320, 1456-1457
| Abstract » | Full Text » | PDF »

Climate Change: The Public Health Response.: H. Frumkin, J. Hess, G. Luber, J. Malilay, and M. McGeehin (2008)
Am J Public Health 98, 435-445
| Abstract » | Full Text » | PDF »

Climate Change and Food Security Special Feature: Climate change impacts on forestry.: A. P. Kirilenko and R. A. Sedjo (2007)
PNAS 104, 19697-19702
| Abstract » | Full Text » | PDF »

Holocene vegetation and fire history of the Coast Range, western Oregon, USA.: C. J. Long, C. Whitlock, and P. J. Bartlein (2007)
The Holocene 17, 917-926
| Abstract » | PDF »

Fire ecology.: D.M.J.S. Bowman (2007)
Progress in Physical Geography 31, 523-532
| PDF »

Reburn severity in managed and unmanaged vegetation in a large wildfire.: J. R. Thompson, T. A. Spies, and L. M. Ganio (2007)
PNAS 104, 10743-10748
| Abstract » | Full Text » | PDF »

Inaugural Article: Inorganic nitrogen availability after severe stand-replacing fire in the Greater Yellowstone ecosystem.: M. G. Turner, E. A. H. Smithwick, K. L. Metzger, D. B. Tinker, and W. H. Romme (2007)
PNAS 104, 4782-4789
| Abstract » | Full Text » | PDF »

From the Cover: Contingent Pacific-Atlantic Ocean influence on multicentury wildfire synchrony over western North America.: T. Kitzberger, P. M. Brown, E. K. Heyerdahl, T. W. Swetnam, and T. T. Veblen (2007)
PNAS 104, 543-548
| Abstract » | Full Text » | PDF »