Pantropical tree rings show small effects of drought on stem growth
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Zuidema, Pieter A.
Groenendijk, Peter
Rahman, Mizanur
Trouet, Valerie
Abiyu, Abrham
Acuña-Soto, Rodolfo
Adenesky-Filho, Eduardo
Alfaro-Sánchez, Raquel
Anholetto, Claudio Roberto
Aragão, José Roberto Vieira
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Increasing drought pressure under anthropogenic climate change may jeopardize the potential of tropical forests to capture carbon in woody biomass and act as a long-term carbon dioxide sink. To evaluate this risk, we assessed drought impacts in 483 tree-ring chronologies from across the tropics and found an overall modest stem growth decline (2.5% with a 95% confidence interval of 2.2 to 2.7%) during the 10% driest years since 1930. Stem growth declines exceeded 10% in 25% of cases and were larger at hotter and drier sites and for gymnosperms compared with angiosperms. Growth declines generally did not outlast drought years and were partially mitigated by growth stimulation in wet years. Thus, pantropical forest carbon sequestration through stem growth has hitherto shown drought resilience that may, however, diminish under future climate change.
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