Current LiDAR-based methods for detecting forest change use a host of statistically selected variables which typically lack a biological link with the characteristics of the ecosystem. Consensus of the literature indicates that many authors use LiDAR to derive ecosystem morphological traits (EMTs)-namely, vegetation height, vegetation cover, and vertical structural complexity-to identify small-scale changes in forest ecosystems. Here, we provide a conceptual, biological model for predicting forest aboveground biomass (AGB) change based on EMTs. We show that through use of a multitemporal dataset it is possible to not only identify losses caused by logging in the period between data collection but also identify regions of regrowth from prior...
Ambitious pledges to restore over 400 million hectares of degraded lands by 2030 have been made by s...
Background Accurate estimation of aboveground forest biomass (AGB) and its dynamics is of paramount ...
AbstractBased on airborne LIDAR data on canopy morphology and height of Amazon forest trees, we deve...
Current LiDAR-based methods for detecting forest change use a host of statistically selected variabl...
In recent years, LiDAR technology has provided accurate forest aboveground biomass (AGB) maps in sev...
Airborne lidar is a technology well-suited for mapping many forest attributes, including aboveground...
Abstract: Light detection and ranging (lidar) is becoming an increasingly popular technology among s...
Forests play a central role in the management of the Earth’s climate. Airborne laser scanning (ALS) ...
Forest degradation through logging is pervasive throughout the world's tropical forests, leading to ...
Forest disturbances can reduce the potential of ecosystems to provide resources and services. Despit...
Based on airborne LIDAR data on canopy morphology and height of Amazon forest trees, we developed al...
Sustainable forest management requires forest inventory information at the individual tree level. Li...
Accurate measures of forest structural parameters are essential to forest inventory and growth model...
The authors developed a series of ecological metrics (EM) based on mechanistic principles for quanti...
Agroforestry has large potential for carbon (C) sequestration while providing many economical, socia...
Ambitious pledges to restore over 400 million hectares of degraded lands by 2030 have been made by s...
Background Accurate estimation of aboveground forest biomass (AGB) and its dynamics is of paramount ...
AbstractBased on airborne LIDAR data on canopy morphology and height of Amazon forest trees, we deve...
Current LiDAR-based methods for detecting forest change use a host of statistically selected variabl...
In recent years, LiDAR technology has provided accurate forest aboveground biomass (AGB) maps in sev...
Airborne lidar is a technology well-suited for mapping many forest attributes, including aboveground...
Abstract: Light detection and ranging (lidar) is becoming an increasingly popular technology among s...
Forests play a central role in the management of the Earth’s climate. Airborne laser scanning (ALS) ...
Forest degradation through logging is pervasive throughout the world's tropical forests, leading to ...
Forest disturbances can reduce the potential of ecosystems to provide resources and services. Despit...
Based on airborne LIDAR data on canopy morphology and height of Amazon forest trees, we developed al...
Sustainable forest management requires forest inventory information at the individual tree level. Li...
Accurate measures of forest structural parameters are essential to forest inventory and growth model...
The authors developed a series of ecological metrics (EM) based on mechanistic principles for quanti...
Agroforestry has large potential for carbon (C) sequestration while providing many economical, socia...
Ambitious pledges to restore over 400 million hectares of degraded lands by 2030 have been made by s...
Background Accurate estimation of aboveground forest biomass (AGB) and its dynamics is of paramount ...
AbstractBased on airborne LIDAR data on canopy morphology and height of Amazon forest trees, we deve...
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