J. B. Blair scite author profile

[1] In this paper we present the results of an experiment to measure forest structure and biomass dynamics over the tropical forests of La Selva Biological Station in Costa Rica using a medium resolution lidar. Our main objective was to observe changes in forest canopy height, related height metrics, and biomass, and from these map sources and sinks of carbon across the landscape. The Laser Vegetation Imaging Sensor (LVIS) measured canopy structure over La Selva in 1998 and again in 2005. Changes in waveform metrics were related to field-derived changes in estimated aboveground biomass from a series of old growth and secondary forest plots. Pairwise comparisons of nearly coincident lidar footprints between years showed canopy top height changes that coincided with expected changes based on land cover types. Old growth forests had a net loss in height of −0.33 m, while secondary forests had net gain of 2.08 m. Multiple linear regression was used to relate lidar metrics with biomass changes for combined old growth and secondary forest plots, giving an r 2 of 0.65 and an RSE of 10.5 Mg/ha, but both parametric and bootstrapped confidence intervals were wide, suggesting weaker model performance. The plot level relationships were then used to map biomass changes across La Selva using LVIS at a 1 ha scale. The spatial patterns of biomass changes matched expected patterns given the distribution of land cover types at La Selva, with secondary forests showing a gain of 25 Mg/ha and old growth forests showing little change (2 Mg/ha). Prediction intervals were calculated to assess uncertainty for each 1 ha cell to ascertain whether the data and methods used could confidently estimate the sign (source or sink) of the biomass changes. The resulting map showed most of the old growth areas as neutral (no net biomass change), with widely scattered and isolated sources and sinks. Secondary forests in contrast were mostly sinks or neutral, but were never sources. By quantifying both the magnitude of biomass changes and the sensitivity of lidar to detect them, this work will help inform the formulation of future space missions focused on biomass dynamics, such as NASA's Deformation Ecosystem Structure and Dynamics of Ice mission.

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Decomposition of laser altimeter waveforms

Hofton

Minster

Blair

2000

IEEE Trans. Geosci. Remote Sensing

299

193

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Forest vertical structure from GLAS: An evaluation using LVIS and SRTM data

Sun

Ranson

Kimes

et al. 2008

Remote Sensing of Environment

259

176

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J. B. Blair

The Global Ecosystem Dynamics Investigation: High-resolution laser ranging of the Earth’s forests and topography

Estimation of tropical forest structural characteristics using large-footprint lidar

Mapping global forest canopy height through integration of GEDI and Landsat data

Laser altimeter canopy height profiles: methods and validation for closed-canopy, broadleaf forests

Mapping forest structure for wildlife habitat analysis using multi-sensor (LiDAR, SAR/InSAR, ETM+, Quickbird) synergy

Estimation of tropical forest height and biomass dynamics using lidar remote sensing at La Selva, Costa Rica

Decomposition of laser altimeter waveforms

Forest vertical structure from GLAS: An evaluation using LVIS and SRTM data

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