Authors
Yadvinder Malhi, Timothy R Baker, Oliver L Phillips, Samuel Almeida, Esteban Alvarez, Luzmilla Arroyo, Jerome Chave, Claudia I Czimczik, Anthony Di Fiore, Niro Higuchi, Timothy J Killeen, Susan G Laurance, William F Laurance, Simon L Lewis, Lina María Mercado Montoya, Abel Monteagudo, David A Neill, Percy Núñez Vargas, Sandra Patiño, Nigel CA Pitman, Carlos Alberto Quesada, Rafael Salomão, José Natalino Macedo Silva, Armando Torres Lezama, Rodolfo Vásquez Martínez, John Terborgh, Barbara Vinceti, Jon Lloyd
Publication date
2004/5
Journal
Global change biology
Volume
10
Issue
5
Pages
563-591
Publisher
Blackwell Science Ltd
Description
The net primary production of tropical forests and its partitioning between long‐lived carbon pools (wood) and shorter‐lived pools (leaves, fine roots) are of considerable importance in the global carbon cycle. However, these terms have only been studied at a handful of field sites, and with no consistent calculation methodology. Here we calculate above‐ground coarse wood carbon productivity for 104 forest plots in lowland New World humid tropical forests, using a consistent calculation methodology that incorporates corrections for spatial variations in tree‐size distributions and wood density, and for census interval length. Mean wood density is found to be lower in more productive forests. We estimate that above‐ground coarse wood productivity varies by more than a factor of three (between 1.5 and 5.5 Mg C ha−1 a−1) across the Neotropical plots, with a mean value of 3.1 Mg C ha−1 a−1. There appear …
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Scholar articles
Y Malhi, TR Baker, OL Phillips, S Almeida, E Alvarez… - Global change biology, 2004