Resource Catalog
Document
Type: Journal Article
Publication Date: 2007
Despite a widely noted increase in the severity of recent western wildfires, this trend has never been quantified. A twenty‐year series of Landsat TM satellite imagery for all forest fires on the 1.4 million ha Gila National Forest suggests that an increases in area burned and area burned severely from 1984-2004 are well correlated with timing and intensity of rain events during the fire season. Winter precipitation was marginally correlated with burn severity, but only in high‐elevation forest types. These results suggest the importance of within‐season precipitation over snow pack in modulating recent wildfire size and severity in mid‐elevation southwestern forests.
Online Links
Citation: Holden, Zachary A.; Morgan, Penelope; Crimmins, Michael A.; Steinhorst, R.K.; Smith, Alistair M. S. 2007. Fire season precipitation variability influences fire extent and severity in a large southwestern wilderness area, United States. Geophysical Research Letters 34(16).
Cataloging Information
Topics:
Regions:
Partner Sites:
Keywords:
- area burned
- burn severity
- Gila National Forest
- Landsat TM (Thematic Mapper)
- remote sensing
- wildland fire
Record Last Modified:
Record Maintained By: FRAMES Staff (https://www.frames.gov/contact)
FRAMES Record Number: 58848
This document is part of the Southwest FireCLIME Annotated Bibliography, which includes published research related to the interactions between climate change, wildfire, and subsequent ecosystem effects in the southwestern U.S. The publications contained in the Bibliography have each been summarized to distill the outcomes as they pertain to fire and climate. Go to this document's record in the Southwest FireCLIME Annotated Bibliography.