Baker, T. R.;Phillips, O. L.;Malhi, Y.;Almeida, S.;Arroyo, L.;Di Fiore, A.;Erwin, T.;Higuchi, N.;Killeen, T. J.;Laurance, S. G.;Laurance, W. F.;Lewis, S. L.;Monteagudo, A.;Neill, D. A.;Vargas, P. N.;Pitman, N. C. A.;Silva, J. N. M.;Martinez, R. V.
Increasing biomass in Amazonian forest plots
Philosophical Transactions of the Royal Society of London Series B-Biological Sciences
2004
Journal Article
359
1443
353-365
0000-00-00
biomass carbon permanent plots Brazil climate severe drought El Niño trees dynamics mortality ecology Reserva Nacional Tambopata long-term monitoring climate change global change plants large spatial scales inventories aboveground biomass forest dynamics Madre de Dios Bibliography
A previous study by Phillips et al. of changes in the biomass of permanent sample plots in Amazonian forests was used to infer the presence of a regional carbon sink. However, these results generated a vigorous debate about sampling and methodological issues. Therefore we present a new analysis of biomass change in old-growth Amazonian forest plots using updated inventory data. We find that across 59 sites, the above-ground dry biomass in trees that are more than 10 cm in diameter (AGB) has increased since plot establishment by 1.22 +/- 0.43 Mg per hectare per year (ha(-1) yr(-1), where 1 ha = 10(4) m(2)), or 0.98 +/- 0.38 Mg ha(-1) yr(-1) if individual plot values are weighted by the number of hectare years of monitoring. This significant increase is neither confounded by spatial or temporal variation in wood specific gravity, nor dependent on the allometric equation used to estimate AGB. The conclusion is also robust to uncertainty about diameter measurements for problematic trees: for 34 plots in western Amazon forests a significant increase in AGB is found even with a conservative assumption of zero growth for all trees where diameter measurements were made using optical methods and/or growth rates needed to be estimated following fieldwork. Overall, our results suggest a slightly greater rate of net stand-level change than was reported by Phillips et al. Considering the spatial and temporal scale of sampling and associated studies showing increases in forest growth and stem turnover, the results presented here suggest that the total biomass of these plots has on average increased and that there has been a regional-scale carbon sink in old-growth Amazonian forests during the previous two decades.