Remote Sensing (Feb 2021)

Estimating Net Primary Productivity (NPP) and Debris-Fall in Forests Using Lidar Time Series

  • Roman Dial,
  • Pierre Chaussé,
  • Mallory Allgeier,
  • Tom Scott Smeltz,
  • Trevor Golden,
  • Thomas Day,
  • Russell Wong,
  • Hans-Erik Andersen

DOI
https://doi.org/10.3390/rs13050891
Journal volume & issue
Vol. 13, no. 5
p. 891

Abstract

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Temporal series of lidar, properly field-validated, can provide critical information allowing in-ferences about the dynamics of biomass and carbon in forest canopies. Forest canopies gain carbon through net primary production (NPP) and lose carbon through canopy component damage and death, such as fine and coarse woody debris and litterfall (collectively, debris-fall). We describe a statistical method to extract gamma distributions of NPP and debris-fall rates in forest canopies from lidar missions repeated through time and we show that the means of these distributions covary with ecologically meaningful variables: topography, canopy structure, and taxonomic composition. The method employed is the generalized method of moments that applies the R package gmm to uncover the distribution of latent variables. We present an example with eco-logical interpretations that support the method’s application to change in biomass estimated for a boreal forest in southcentral Alaska. The deconvolution of net change from remote sensing products as distributions of NPP and debris-fall rates can inform carbon cycling models of can-opy-level NPP and debris-fall rates.

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