학술논문
Basin-wide variation in tree hydraulic safety margins predicts the carbon balance of Amazon forests
Document Type
Article
Author
Tavares, Julia Valentim; Oliveira, Rafael S.; Mencuccini, Maurizio; Signori-Müller, Caroline; Pereira, Luciano; Diniz, Francisco Carvalho; Gilpin, Martin; Marca Zevallos, Manuel J.; Salas Yupayccana, Carlos A.; Acosta, Martin; Pérez Mullisaca, Flor M.; Barros, Fernanda de V.; Bittencourt, Paulo; Jancoski, Halina; Scalon, Marina Corrêa; Marimon, Beatriz S.; Oliveras Menor, Imma; Marimon, Ben Hur; Fancourt, Max; Chambers-Ostler, Alexander; Esquivel-Muelbert, Adriane; Rowland, Lucy; Meir, Patrick; Lola da Costa, Antonio Carlos; Nina, Alex; Sanchez, Jesus M. B.; Tintaya, Jose S.; Chino, Rudi S. C.; Baca, Jean; Fernandes, Leticia; Cumapa, Edwin R. M.; Santos, João Antônio R.; Teixeira, Renata; Tello, Ligia; Ugarteche, Maira T. M.; Cuellar, Gina A.; Martinez, Franklin; Araujo-Murakami, Alejandro; Almeida, Everton; da Cruz, Wesley Jonatar Alves; del Aguila Pasquel, Jhon; Aragāo, Luís; Baker, Timothy R.; de Camargo, Plinio Barbosa; Brienen, Roel; Castro, Wendeson; Ribeiro, Sabina Cerruto; Coelho de Souza, Fernanda; Cosio, Eric G.; Davila Cardozo, Nallaret; da Costa Silva, Richarlly; Disney, Mathias; Espejo, Javier Silva; Feldpausch, Ted R.; Ferreira, Leandro; Giacomin, Leandro; Higuchi, Niro; Hirota, Marina; Honorio, Euridice; Huaraca Huasco, Walter; Lewis, Simon; Flores Llampazo, Gerardo; Malhi, Yadvinder; Monteagudo Mendoza, Abel; Morandi, Paulo; Chama Moscoso, Victor; Muscarella, Robert; Penha, Deliane; Rocha, Mayda Cecília; Rodrigues, Gleicy; Ruschel, Ademir R.; Salinas, Norma; Schlickmann, Monique; Silveira, Marcos; Talbot, Joey; Vásquez, Rodolfo; Vedovato, Laura; Vieira, Simone Aparecida; Phillips, Oliver L.; Gloor, Emanuel; Galbraith, David R.
Source
Nature; May 2023, Vol. 617 Issue: 7959 p111-117, 7p
Subject
Language
ISSN
00280836; 14764687
Abstract
Tropical forests face increasing climate risk1,2, yet our ability to predict their response to climate change is limited by poor understanding of their resistance to water stress. Although xylem embolism resistance thresholds (for example, Ψ50) and hydraulic safety margins (for example, HSM50) are important predictors of drought-induced mortality risk3–5, little is known about how these vary across Earth’s largest tropical forest. Here, we present a pan-Amazon, fully standardized hydraulic traits dataset and use it to assess regional variation in drought sensitivity and hydraulic trait ability to predict species distributions and long-term forest biomass accumulation. Parameters Ψ50and HSM50vary markedly across the Amazon and are related to average long-term rainfall characteristics. Both Ψ50and HSM50influence the biogeographical distribution of Amazon tree species. However, HSM50was the only significant predictor of observed decadal-scale changes in forest biomass. Old-growth forests with wide HSM50are gaining more biomass than are low HSM50forests. We propose that this may be associated with a growth–mortality trade-off whereby trees in forests consisting of fast-growing species take greater hydraulic risks and face greater mortality risk. Moreover, in regions of more pronounced climatic change, we find evidence that forests are losing biomass, suggesting that species in these regions may be operating beyond their hydraulic limits. Continued climate change is likely to further reduce HSM50in the Amazon6,7, with strong implications for the Amazon carbon sink.