Fuels and Fire Behavior in a Sierra Nevada Mixed-Conifer Forest
After a past history of fire suppression, California’s forests face increased fire risk from the buildup of fuels. The objective of the study is to develop custom fuel models for the area and to determine whether fuel loads differ significantly by dominant species, and whether measured fuel loads di...
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| Published in | Journal of Forest and Environmental Science Vol. 41; no. 1; pp. 29 - 49 |
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| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
산림과학연구소
31.03.2025
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| Subjects | |
| Online Access | Get full text |
| ISSN | 2288-9744 2288-9752 |
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| Abstract | After a past history of fire suppression, California’s forests face increased fire risk from the buildup of fuels. The objective of the study is to develop custom fuel models for the area and to determine whether fuel loads differ significantly by dominant species, and whether measured fuel loads differ from the closest standard fuel models. Measurements of fuel loads suggested that stands dominated by a sugar pine (Pinus lambertiana) had significantly higher loads of fine fuels than ponderosa pine (Pinus ponderosa). Based on fire modeling, sugar pine may also show more severe fire behavior than ponderosa. Standard fuel models did not closely correspond to the custom fuel models in either fuel loads or predicted fire behavior, suggesting a need for further development of new fuel models. Existing fuel models fail to reflect the fuel loads measured in Lassen National Forest, and lead to different predictions of fire behavior. Evidence also suggests that fuel loads and fuel bed density differ based on species composition. This study also highlights the possible under-prediction bias found in many custom fuel models and models of crown fires. More detailed measurements of ladder fuels and crown characteristics are required for more accurate modeling of crown fire behavior. |
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| AbstractList | After a past history of fire suppression, California’s forests face increased fire risk from the buildup of fuels. The objective of the study is to develop custom fuel models for the area and to determine whether fuel loads differ significantly by dominant species, and whether measured fuel loads differ from the closest standard fuel models. Measurements of fuel loads suggested that stands dominated by a sugar pine (Pinus lambertiana) had significantly higher loads of fine fuels than ponderosa pine (Pinus ponderosa). Based on fire modeling, sugar pine may also show more severe fire behavior than ponderosa. Standard fuel models did not closely correspond to the custom fuel models in either fuel loads or predicted fire behavior, suggesting a need for further development of new fuel models. Existing fuel models fail to reflect the fuel loads measured in Lassen National Forest, and lead to different predictions of fire behavior. Evidence also suggests that fuel loads and fuel bed density differ based on species composition. This study also highlights the possible under-prediction bias found in many custom fuel models and models of crown fires. More detailed measurements of ladder fuels and crown characteristics are required for more accurate modeling of crown fire behavior. KCI Citation Count: 0 After a past history of fire suppression, California’s forests face increased fire risk from the buildup of fuels. The objective of the study is to develop custom fuel models for the area and to determine whether fuel loads differ significantly by dominant species, and whether measured fuel loads differ from the closest standard fuel models. Measurements of fuel loads suggested that stands dominated by a sugar pine (Pinus lambertiana) had significantly higher loads of fine fuels than ponderosa pine (Pinus ponderosa). Based on fire modeling, sugar pine may also show more severe fire behavior than ponderosa. Standard fuel models did not closely correspond to the custom fuel models in either fuel loads or predicted fire behavior, suggesting a need for further development of new fuel models. Existing fuel models fail to reflect the fuel loads measured in Lassen National Forest, and lead to different predictions of fire behavior. Evidence also suggests that fuel loads and fuel bed density differ based on species composition. This study also highlights the possible under-prediction bias found in many custom fuel models and models of crown fires. More detailed measurements of ladder fuels and crown characteristics are required for more accurate modeling of crown fire behavior. |
| Author | Jianwei Zhang Sophan Chhin Christal Johnson |
| Author_xml | – sequence: 1 fullname: Christal Johnson organization: (Pacific Northwest Research Station, Forest Service, United States Department of Agriculture, Corvallis, OR 97330, USA) – sequence: 2 fullname: Sophan Chhin organization: (Division of Forestry and Natural Resources, West Virginia University, Morgantown, WV 26506, USA) – sequence: 3 fullname: Jianwei Zhang organization: (Pacific Southwest Research Station, Forest Service, United States Department of Agriculture, Redding, CA 96002, USA) |
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| Keywords | fire management fire behavior Pinus ponderosa Pinus lambertiana restoration Sierra Nevada |
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| Snippet | After a past history of fire suppression, California’s forests face increased fire risk from the buildup of fuels. The objective of the study is to develop... |
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| StartPage | 29 |
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| TableOfContents | Abstract
Introduction
Materials and Methods
Study site
Data collection and processing
BehavePlus modeling
Results
Fuel loads
Stand structure and fuels
Surface fire
Crown fire
Discussion
Fuel loads and stand structure
Surface fire
Crown fire
Economic aspects
Conclusions
Acknowledgements
References
APPENDIX – EQUATIONS |
| Title | Fuels and Fire Behavior in a Sierra Nevada Mixed-Conifer Forest |
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