Authors
Jérôme Chave, Maxime Réjou‐Méchain, Alberto Búrquez, Emmanuel Chidumayo, Matthew S Colgan, Welington BC Delitti, Alvaro Duque, Tron Eid, Philip M Fearnside, Rosa C Goodman, Matieu Henry, Angelina Martínez‐Yrízar, Wilson A Mugasha, Helene C Muller‐Landau, Maurizio Mencuccini, Bruce W Nelson, Alfred Ngomanda, Euler M Nogueira, Edgar Ortiz‐Malavassi, Raphaël Pélissier, Pierre Ploton, Casey M Ryan, Juan G Saldarriaga, Ghislain Vieilledent
Publication date
2014/10
Journal
Global change biology
Volume
20
Issue
10
Pages
3177-3190
Description
Terrestrial carbon stock mapping is important for the successful implementation of climate change mitigation policies. Its accuracy depends on the availability of reliable allometric models to infer oven‐dry aboveground biomass of trees from census data. The degree of uncertainty associated with previously published pantropical aboveground biomass allometries is large. We analyzed a global database of directly harvested trees at 58 sites, spanning a wide range of climatic conditions and vegetation types (4004 trees ≥ 5 cm trunk diameter). When trunk diameter, total tree height, and wood specific gravity were included in the aboveground biomass model as covariates, a single model was found to hold across tropical vegetation types, with no detectable effect of region or environmental factors. The mean percent bias and variance of this model was only slightly higher than that of locally fitted models. Wood …
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Scholar articles
J Chave, M Réjou‐Méchain, A Búrquez, E Chidumayo… - Global change biology, 2014