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Deciphering the fingerprint of disturbance on the three-dimensional structure of the world’s forests
by
Jucker, Tommaso
in
airborne laser scanning
/ Airborne lasers
/ Airborne sensing
/ Canopies
/ Canopy
/ Canopy gaps
/ Disturbances
/ Dynamics
/ Ecosystem
/ forest dynamics
/ Forest ecosystems
/ Forests
/ gap size frequency distributions
/ Herbivores
/ individual‐based forest models
/ Lasers
/ LiDAR
/ Plant cover
/ point pattern analysis
/ Remote sensing
/ Remote Sensing Technology
/ Size distribution
/ spatial data
/ spatial distribution
/ Strategic planning
/ Tansley insight
/ Trees
/ Tropical Climate
2022
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Deciphering the fingerprint of disturbance on the three-dimensional structure of the world’s forests
by
Jucker, Tommaso
in
airborne laser scanning
/ Airborne lasers
/ Airborne sensing
/ Canopies
/ Canopy
/ Canopy gaps
/ Disturbances
/ Dynamics
/ Ecosystem
/ forest dynamics
/ Forest ecosystems
/ Forests
/ gap size frequency distributions
/ Herbivores
/ individual‐based forest models
/ Lasers
/ LiDAR
/ Plant cover
/ point pattern analysis
/ Remote sensing
/ Remote Sensing Technology
/ Size distribution
/ spatial data
/ spatial distribution
/ Strategic planning
/ Tansley insight
/ Trees
/ Tropical Climate
2022
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Do you wish to request the book?
Deciphering the fingerprint of disturbance on the three-dimensional structure of the world’s forests
by
Jucker, Tommaso
in
airborne laser scanning
/ Airborne lasers
/ Airborne sensing
/ Canopies
/ Canopy
/ Canopy gaps
/ Disturbances
/ Dynamics
/ Ecosystem
/ forest dynamics
/ Forest ecosystems
/ Forests
/ gap size frequency distributions
/ Herbivores
/ individual‐based forest models
/ Lasers
/ LiDAR
/ Plant cover
/ point pattern analysis
/ Remote sensing
/ Remote Sensing Technology
/ Size distribution
/ spatial data
/ spatial distribution
/ Strategic planning
/ Tansley insight
/ Trees
/ Tropical Climate
2022
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Deciphering the fingerprint of disturbance on the three-dimensional structure of the world’s forests
Journal Article
Deciphering the fingerprint of disturbance on the three-dimensional structure of the world’s forests
2022
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Overview
Canopy gaps and the processes that generate them play an integral role in shaping the structure and dynamics of forests. However, it is only with recent advances in remote sensing technologies such as airborne laser scanning that studying canopy gaps at scale has become a reality. Consequently, we still lack an understanding of how the size distribution and spatial organization of canopy gaps varies among forests ecosystems, nor have we determined whether these emergent properties can be reconciled with existing theories of forest dynamics. Here, I outline a roadmap for integrating remote sensing with field data and individual-based models to build a comprehensive picture of how environmental constraints and disturbance regimes shape the three-dimensional structure of the world’s forests.
Publisher
Wiley,Wiley Subscription Services, Inc
Subject
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