1,2,3,4,5,- 1Forest Ecology and Forest Management group, Wageningen University , Wageningen, the Netherlands (pieter.zuidema@wur.nl)
- 2Laboratory of Tree-Ring Research, University of Arizona, Tucson, AZ, USA (trouet@arizona.edu)
- 3School of Natural Resources and the Environment, University of Arizona, Tucson, AZ, USA (babst@arizona.edu)
- 4Department of Plant Biology, University of Campinas (UNICAMP), Campinas, SP, Brazil (peterg@unicamp.br)
- 5Department of Forestry and Environmental Science, Shahjalal University of Science and Technology, Bangladesh (mizan-for@sust.edu )
- *A full list of authors appears at the end of the abstract
Tropical forests will be increasingly impacted by intensifying droughts under ongoing climate change. Droughts may have large implications for the capacity of tropical forests to store carbon in wood and act as long-term carbon sinks. To assess this possible implication, pantropical analyses of tree growth recovery from past droughts are needed.
Here we use tree-ring data from 250 tropical forest sites (>5000 trees) in the tropical tree-ring network (tropicaltreeringnetwork.org) to evaluate the capacity for woody growth to recover after droughts. We assessed impacts on stem growth of the 10% and 5% driest years since 1930 and the extent to which stem growth recovered in the subsequent years. We selected years with the lowest rainfall, highest vapour pressure deficit, and largest climatic water deficit.
We found that the pantropical impact of droughts on stem growth was a modest 2.8% reduction (CI95%: -3.0 to -2.4%) during the 10% driest years, and 2.9% (CI95%: -3.4 to -2.4%) during the 5% driest years. Yet, in a quarter of sites located predominantly in the drier tropical forest regions, growth was reduced by over 10%.
Growth recovery was generally rapid: postdrought years exhibited significantly smaller negative growth anomalies, and anomalies often shifted to positive. Thus, this rapid recovery of stem growth to predrought levels suggests that no strong or long lag effects exist at the pantropical scale. We also analysed regional, taxonomic and seasonal differences in growth recovery, and compared the results to drought responses in photosynthesis.
We conclude that stem growth of tropical forest trees has so far been able to recover from droughts, but that this capacity may diminish under aggravating climate change.
Abrham ABIYU, Rodolfo ACUÑA-SOTO, Eduardo ADENESKY-FILHO, Raquel ALFARO-SÁNCHEZ, Claudio Roberto ANHOLETTO JUNIOR, José Roberto Vieira ARAGÃO, Gabriel ASSIS-PEREIRA, Claudia C. ASTUDILLO-SÁNCHEZ, Ana Carolina BARBOSA, Giovanna BATTIPAGLIA, Hans BEECKMAN, Paulo Cesar BOTOSSO, Nils BOURLAND, Achim BRÄUNING, Roel BRIENEN, Matthew BROOKHOUSE, Supaporn BUAJAN, Brendan M. BUCKLEY, J. Julio CAMARERO, Artemio CARRILLO-PARRA, Gregório CECCANTINI, Librado R. CENTENO-ERGUERA, Julián CERANO-PAREDES, Wirong CHANTHORN, Ya-Jun CHEN, Bruno Barçante Ladvocat CINTRA, Eladio Heriberto CORNEJO-OVIEDO, Otoniel CORTÉS-CORTÉS, Clayane Matos COSTA, Camille COURALET, Doris Bianca CRISPÍN-DE-LA-CRUZ, Rosanne D'ARRIGO, Diego A. DAVID, Maaike DE RIDDER, Jorge Ignacio DEL VALLE, Mário DOBNER JR, Jean-Louis DOUCET, Oliver DÜNISCH, Brian J. ENQUIST, Karin ESEMANN-QUADROS, Gerardo ESQUIVEL-ARRIAGA, Ze-Xin FAN, Adeline FAYOLLE, Tatiele Anete Bergamo FENILLI, M. Eugenia FERRERO, Esther FICHTLER, Patrick M. FINNEGAN, Claudia FONTANA, Kainana S. FRANCISCO, Pei-Li FU, Franklin GALVÃO, Aster GEBREKIRSTOS, Jorge A. GIRALDO, Emanuel GLOOR, Milena GODOY-VEIGA, Daniela GRANATO-SOUZA, Anthony GUERRA, Kristof HANECA, Grant Logan HARLEY, Ingo HEINRICH, Gerhard HELLE, Bruna HORNINK, Wannes HUBAU, Janet G. INGA, Mahmuda ISLAM, Yu-mei JIANG, Mark KAIB, Zakia Hassan KHAMISI, Marcin KOPROWSKI, Eva LAYME, A. Joshua LEFFLER, Gauthier LIGOT, Claudio Sergio LISI, Neil J. LOADER, Francisco de Almeida LOBO, Giuliano Maselli LOCOSSELLI, Tomaz LONGHI-SANTOS, Lidio LOPEZ, María I. LÓPEZ-HERNÁNDEZ, José Luís Penetra Cerveira LOUSADA, Rubén D. MANZANEDO, Amanda K. MARCON, Justin T. MAXWELL, Omar N. MENDOZA-VILLA, Ítallo Romany Nunes MENEZES, Mulugeta MOKRIA, Valdinez Ribeiro MONTÓIA, Eddy MOORS, Miyer MORENO, Miguel Angel MUÑIZ-CASTRO, Cristina NABAIS, Anuttara NATHALANG, Justine NGOMA, Francisco de Carvalho NOGUEIRA JR., Juliano Morales OLIVEIRA, Gabriela Morais OLMEDO, Daigard Ricardo ORTEGA-RODRIGUEZ, Carmen Eugenia Rodríguez ORTÍZ, Mariana Alves PAGOTTO, Shankar PANTHI, Kathelyn PAREDES-VILLANUEVA, Gonzalo PÉREZ-DE-LIS, Laura Patricia PONCE CALDERÓN, Leif Armando PORTAL-CAHUANA, Darwin Alexander PUCHA-COFREP, Nathsuda PUMIJUMNONG, Paulo QUADRI, Jorge Andrés RAMÍREZ, Edilson Jimmy REQUENA-ROJAS, Judith REYES-FLORES, Adauto de Souza RIBEIRO, Iain ROBERTSON, Fidel Alejandro ROIG, José Guilherme ROQUETTE, Ernesto Alonso RUBIO-CAMACHO, Raúl SÁNCHEZ-SALGUERO, Ute SASS-KLAASSEN, Jochen SCHÖNGART, Marcelo Callegari SCIPIONI, Paul R. SHEPPARD, Lucas C.R. SILVA, Franziska SLOTTA, Leroy SORIA-DÍAZ, Luciana K.V.S. SOUSA, James H. SPEER, Matthew D. THERRELL, Ginette TICSE-OTAROLA, Mario TOMAZELLO-FILHO, Max C.A. TORBENSON, Pantana TOR-NGERN, Ramzi TOUCHAN, Jan VAN DEN BULCKE, Lorenzo VÁZQUEZ-SELEM, Adín H. VELÁZQUEZ-PÉREZ, Alejandro VENEGAS-GONZÁLEZ, Ricardo VILLALBA, Jose VILLANUEVA-DIAZ, Mart VLAM, George VOURLITIS, Christian WEHENKEL, Tommy WILS, Erika S. ZAVALETA, Eshetu Asfaw ZEWDU, Yong-Jiang ZHANG, Zhe-Kun ZHOU
How to cite: Zuidema, P., Babst, F., Groenendijk, P., Rahman, M., and Trouet, V. and the Tropical Tree-ring Network: Disturbance-recovery cycles of tree growth after droughts in tropical forests, EGU General Assembly 2026, Vienna, Austria, 3–8 May 2026, EGU26-10854, https://doi.org/10.5194/egusphere-egu26-10854, 2026.
