Evaluating site-specific and generic spatial models of aboveground forest biomass based on landsat Time-Series and LiDAR strip samples in the Eastern USA

Ram K. Deo, Matthew B. Russell, Grant M. Domke, Hans Erik Andersen, Warren B. Cohen, Christopher W. Woodall

Research output: Contribution to journalArticlepeer-review

36 Scopus citations


Large-area assessment of aboveground tree biomass (AGB) to inform regional or national forest monitoring programs can be efficiently carried out by combining remotely sensed data and field sample measurements through a generic statistical model, in contrast to site-specific models. We integrated forest inventory plot data with spatial predictors from Landsat time-series imagery and LiDAR strip samples at four sites across the eastern USA-Minnesota (MN), Maine (ME), Pennsylvania-New Jersey (PANJ) and South Carolina (SC)-in statistical modeling frameworks to analyze the performance of generic (all sites combined) versus site-specific models. The major objective was to evaluate the prediction accuracy of generic and site-specific models when applied to particular sites. Pixel-level polynomial model fitting was applied to the time-series of near-anniversary date Landsat variables to obtain projected metrics in the target year 2014 for which LiDAR strip samples were available. Two forms of models based on ordinary least-squares multiple linear regressions (MLR) and the random forest (RF) machine learning approach were developed for each site and for the pooled (i.e., generic) reference data frame. The models were evaluated using national forest inventory (NFI) data for the USA. We observed stronger fit statistics with the MLR than with RF for both the site-specific and the generic models. The proportions of variances explained (adjusted R2) with the site-specific models were 0.86, 0.78, 0.82 and 0.92 for ME, MN, PANJ and SC, respectively while the generic model had adjusted R2 = 0.85. A test of statistical equivalence of observed and predicted AGB for the NFI locations did not reveal equivalence with any of the models, possibly due to the different resolutions of the observed and predicted data. In contrast, predictions by the generic and site-specific models were equivalent. We conclude that a generic model provides accuracies comparable to the site-specific models for large-area AGB assessment across our study sites in the eastern USA.

Original languageEnglish (US)
Article number598
JournalRemote Sensing
Issue number6
StatePublished - Jun 1 2017

Bibliographical note

Publisher Copyright:
© 2017 by the authors.


  • Aboveground biomass
  • Eastern USA
  • Generic spatial model
  • Landsat time-series imagery
  • Large-area estimation
  • LiDAR strip samples
  • Site-specific spatial models


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