Document

Title

Fuel treatments alter the effects of wildfire in a mixed-evergreen forest, Oregon, USA
Document Type: Journal Article
Author(s): Crystal L. Raymond; David L. Peterson
Publication Year: 2005

Cataloging Information

Keyword(s):
  • Arbutus menziesii
  • Chrysolepis spp.
  • coniferous forests
  • coniferous forests
  • crown scorch
  • Douglas-fir
  • evergreens
  • FERA - Fire and Environmental Research Applications Team
  • fine fuels
  • fire case histories
  • fire exclusion
  • fire frequency
  • fire injuries (plants)
  • fire intensity
  • fire management
  • fire regimes
  • fire severity
  • forest management
  • fuel accumulation
  • fuel loading
  • fuel management
  • fuel moisture
  • fuel treatment
  • hazardous fuels
  • Healthy Forests Restoration Act
  • lightning caused fires
  • Lithocarpus densiflorus
  • mortality
  • national forests
  • NFP - National Fire Plan
  • Oregon
  • overstory
  • Pinus attenuata
  • Pinus lambertiana
  • Pinus ponderosa
  • ponderosa pine
  • post-fire recovery
  • Pseudotsuga menziesii
  • rate of spread
  • statistical analysis
  • surface fires
  • surface fuels
  • thinning
  • wildfires
Topic(s):
Region(s):
Partner Site(s):
Record Maintained By:
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Record Last Modified: October 26, 2020
FRAMES Record Number: 4961
Tall Timbers Record Number: 19836
TTRS Location Status: In-file
TTRS Call Number: Journals-C
TTRS Abstract Status: Fair use, Okay, Reproduced by permission

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Description

ANNOTATION: The authors quantify the relationship between fuels and fire severity using pre-fire surface and canopy fuel data and fire severity data after a wildfire. Modeled fire behavior showed that thinning reduced canopy fuels, thereby decreasing the potential for crown fire spread. The potential for crown fire initiation remained fairly constant despite reductions in ladder fuels, because thinning increased surface fuels, which contributed to greater surface fire intensity. Thinning followed by underburning reduced canopy, ladder, and surface fuels, thereby decreasing surface fire intensity and crown fire potential. However, crown fire is not a prerequisite for high fire severity; damage to and mortality of overstory trees in the wildfire were extensive despite the absence of crown fire. Mortality was most severe in thinned treatments (80%-l00%), moderate in untreated stands (53%-54%), and least severe in the thinned and underburned treatment (5%). Thinned treatments had higher fine-fuel loading and more extensive crown scorch, suggesting that greater consumption of fine fuels contributed to higher tree mortality. ABSTRACT: We had the rare opportunity to quantify the relationship between fuels and fire severity using prefire surface and canopy fuel data and fire severity data after a wildfire. The study area is a mixed-evergreen forest of southwestern Oregon with a mixed-severity fire regime. Modeled fire behavior showed that thinning reduced canopy fuels, thereby decreasing the potential for crown fire spread. The potential for crown fire initiation remained fairly constant despite reductions in ladder fuels, because thinning increased surface fuels, which contributed to greater surface fire intensity. Thinning followed by underburning reduced canopy, ladder, and surface fuels, thereby decreasing surface fire intensity and crown fire potential. However, crown fire is not a prerequisite for high fire severity; damage to and mortality of overstory trees in the wildfire were extensive despite the absence of crown fire. Mortality was most severe in thinned treatments (80%-100%), moderate in untreated stands (53%-54%), and least severe in the thinned and underburned treatment (5%). Thinned treatments had higher fine-fuel loading and more extensive crown scorch, suggesting that greater consumption of fine fuels contributed to higher tree mortality. Fuel treatments intended to minimize tree mortality will be most effective if both ladder and surface fuels are treated.

Online Link(s):
Link to this document
Citation:
Raymond, Crystal L.; Peterson, David L. 2005. Fuel treatments alter the effects of wildfire in a mixed-evergreen forest, Oregon, USA. Canadian Journal of Forest Research 35(12):2981-2995.

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