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Type: Journal Article
Author(s): W. Matt Jolly; Daniel M. Johnson
Publication Date: 2018

The most destructive wildland fires occur in mixtures of living and dead vegetation, yet very little attention has been given to the fundamental differences between factors that control their flammability. Historically, moisture content has been used to evaluate the relative flammability of live and dead fuels without considering major, unreported differences in the factors that control their variations across seasons and years. Physiological changes at both the leaf and whole plant level have the potential to explain ignition and fire behavior phenomena in live fuels that have been poorly explained for decades. Here, we explore how these physiological changes violate long-held assumptions about live fuel dynamics and we present a conceptual model that describes how plant carbon and water cycles independently and interactively influence plant flammability characteristics at both the leaf and whole plant scale. This new ecophysiology-based approach can help us expand our understanding of potential plant responses to environmental change and how those physiological changes may impact plant flammability. Furthermore, it may ultimately help us better manage wildland fires in an uncertain future.

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Citation: Jolly, W. Matt; Johnson, Daniel M. 2018. Pyro-ecophysiology: shifting the paradigm of live wildland fuel research. Fire 1(1):8.

Cataloging Information

Alaska    California    Eastern    Great Basin    Hawaii    Northern Rockies    Northwest    Rocky Mountain    Southern    Southwest    National
  • ecophysiology
  • fuel moisture
  • fuel moisture content
  • live fuels
  • water cycle
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Record Maintained By: FRAMES Staff (
FRAMES Record Number: 25813