Remote sensing techniques to assess active fire characteristics and post-fire effects

Leigh B. Lentile; Zachary A. Holden; Alistair M.S. Smith; Michael J. Falkowski; Andrew T. Hudak; Penelope Morgan; Sarah A. Lewis; Paul E. Gessler; Nate C. Benson

doi:10.1071/WF05097

Remote sensing techniques to assess active fire characteristics and post-fire effects

Leigh B. Lentile, Zachary A. Holden, Alistair M.S. Smith, Michael J. Falkowski, Andrew T. Hudak, Penelope Morgan, Sarah A. Lewis, Paul E. Gessler, Nate C. Benson

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Abstract

Space and airborne sensors have been used to map area burned, assess characteristics of active fires, and characterize post-fire ecological effects. Confusion about fire intensity, fire severity, burn severity, and related terms can result in the potential misuse of the inferred information by land managers and remote sensing practitioners who require unambiguous remote sensing products for fire management. The objective of the present paper is to provide a comprehensive review of current and potential remote sensing methods used to assess fire behavior and effects and ecological responses to fire. We clarify the terminology to facilitate development and interpretation of comprehensible and defensible remote sensing products, present the potential and limitations of a variety of approaches for remotely measuring active fires and their post-fire ecological effects, and discuss challenges and future directions of fire-related remote sensing research.

Original language	English (US)
Pages (from-to)	319-345
Number of pages	27
Journal	International Journal of Wildland Fire
Volume	15
Issue number	3
DOIs	https://doi.org/10.1071/WF05097
State	Published - 2006

Keywords

Burn severity
Burned area
Ecological change
Fire atlas
Fire intensity
Fire perimeters
Fire radiative power
Fire severity
Normalized Burn Ratio
Normalized Difference Vegetation Index
Radiative energy

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title = "Remote sensing techniques to assess active fire characteristics and post-fire effects",

abstract = "Space and airborne sensors have been used to map area burned, assess characteristics of active fires, and characterize post-fire ecological effects. Confusion about fire intensity, fire severity, burn severity, and related terms can result in the potential misuse of the inferred information by land managers and remote sensing practitioners who require unambiguous remote sensing products for fire management. The objective of the present paper is to provide a comprehensive review of current and potential remote sensing methods used to assess fire behavior and effects and ecological responses to fire. We clarify the terminology to facilitate development and interpretation of comprehensible and defensible remote sensing products, present the potential and limitations of a variety of approaches for remotely measuring active fires and their post-fire ecological effects, and discuss challenges and future directions of fire-related remote sensing research.",

keywords = "Burn severity, Burned area, Ecological change, Fire atlas, Fire intensity, Fire perimeters, Fire radiative power, Fire severity, Normalized Burn Ratio, Normalized Difference Vegetation Index, Radiative energy",

author = "Lentile, {Leigh B.} and Holden, {Zachary A.} and Smith, {Alistair M.S.} and Falkowski, {Michael J.} and Hudak, {Andrew T.} and Penelope Morgan and Lewis, {Sarah A.} and Gessler, {Paul E.} and Benson, {Nate C.}",

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AU - Lentile, Leigh B.

AU - Holden, Zachary A.

AU - Smith, Alistair M.S.

AU - Falkowski, Michael J.

AU - Hudak, Andrew T.

AU - Morgan, Penelope

AU - Lewis, Sarah A.

AU - Gessler, Paul E.

AU - Benson, Nate C.

PY - 2006

Y1 - 2006

N2 - Space and airborne sensors have been used to map area burned, assess characteristics of active fires, and characterize post-fire ecological effects. Confusion about fire intensity, fire severity, burn severity, and related terms can result in the potential misuse of the inferred information by land managers and remote sensing practitioners who require unambiguous remote sensing products for fire management. The objective of the present paper is to provide a comprehensive review of current and potential remote sensing methods used to assess fire behavior and effects and ecological responses to fire. We clarify the terminology to facilitate development and interpretation of comprehensible and defensible remote sensing products, present the potential and limitations of a variety of approaches for remotely measuring active fires and their post-fire ecological effects, and discuss challenges and future directions of fire-related remote sensing research.

AB - Space and airborne sensors have been used to map area burned, assess characteristics of active fires, and characterize post-fire ecological effects. Confusion about fire intensity, fire severity, burn severity, and related terms can result in the potential misuse of the inferred information by land managers and remote sensing practitioners who require unambiguous remote sensing products for fire management. The objective of the present paper is to provide a comprehensive review of current and potential remote sensing methods used to assess fire behavior and effects and ecological responses to fire. We clarify the terminology to facilitate development and interpretation of comprehensible and defensible remote sensing products, present the potential and limitations of a variety of approaches for remotely measuring active fires and their post-fire ecological effects, and discuss challenges and future directions of fire-related remote sensing research.

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KW - Burned area

KW - Ecological change

KW - Fire atlas

KW - Fire intensity

KW - Fire perimeters

KW - Fire radiative power

KW - Fire severity

KW - Normalized Burn Ratio

KW - Normalized Difference Vegetation Index

KW - Radiative energy

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Remote sensing techniques to assess active fire characteristics and post-fire effects

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Keywords

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