Tropical tree growth driven by dry-season climate variability

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dc.ainfo.depositanteOlmedo, Gabriela Morais
dc.creatorZuidema, Pieter A.
dc.creatorBabst, Flurin
dc.creatorGroenendijk, Peter
dc.creatorTrouet, Valerie
dc.creatorAbiyu, Abrham
dc.creatorAcuña-Soto, Rodolfo
dc.creatorAdenesky-Filho, Eduardo
dc.creatorAlfaro-Sánchez, Raquel
dc.creatorAragão, José Roberto Vieira
dc.creatorPereira, Gabriel Assis
dc.creatorBai, Xue
dc.creatorBarbosa, Ana Carolina
dc.creatorBattipaglia, Giovanna
dc.creatorBeeckman, Hans
dc.creatorBotosso, Paulo Cesar
dc.creatorBradley, Tim
dc.creatorBräuning, Achim
dc.creatorBrienen, Roel
dc.creatorBuckley, Brendan M.
dc.creatorCamarero, J. Julio
dc.creatorCarvalho, Ana
dc.creatorCeccantini, Gregório
dc.creatorCenteno-Erguera, Librado R.
dc.creatorCerano-Paredes, Julián
dc.creatorCintra, Bruno Barçante Ladvocat
dc.creatorCleaveland, Malcolm K.
dc.creatorCouralet, Camille
dc.creatorD’Arrigo, Rosanne
dc.creatorValle, Jorge Ignacio del
dc.creatorDünisch, Oliver
dc.creatorEnquist, Brian J.
dc.creatorEsemann-Quadros, Karin
dc.creatorEshetu, Zewdu
dc.creatorFan, Ze-Xin
dc.creatorFerrero, M. Eugenia
dc.creatorFichtler, Esther
dc.creatorFontana, Claudia
dc.creatorFrancisco, Kainana S.
dc.creatorGebrekirstos, Aster
dc.creatorGloor, Emanuel
dc.creatorGranato-Souza, Daniela
dc.creatorHaneca, Kristof
dc.creatorHarley, Grant Logan
dc.creatorHeinrich, Ingo
dc.creatorHelle, Gerd
dc.creatorInga, Janet G.
dc.creatorIslam, Mahmuda
dc.creatorJiang, Yu-mei
dc.creatorKaib, Mark
dc.creatorKhamisi, Zakia Hassan
dc.creatorKoprowski, Marcin
dc.creatorKruijt, Bart
dc.creatorLayme, Eva
dc.creatorLeemans, Rik
dc.creatorLeffler, A. Joshua
dc.creatorLisi, Claudio Sergio
dc.creatorLoader, Neil J.
dc.creatorLocosselli, Giuliano Maselli
dc.creatorLopez, Lidio
dc.creatorLópez-Hernández, María I.
dc.creatorLousada, José Luís Penetra Cerveira
dc.creatorMendivelso, Hooz A.
dc.creatorMokria, Mulugeta
dc.creatorMontóia, Valdinez Ribeiro
dc.creatorMoors, Eddy
dc.creatorNabais, Cristina
dc.creatorNgoma, Justine
dc.creatorNogueira Júnior, Francisco de Carvalho
dc.creatorOliveira, Juliano Morales
dc.creatorPagotto, Mariana Alves
dc.creatorPanthi, Shankar
dc.creatorPérez-De-Lis, Gonzalo
dc.creatorPucha-Cofrep, Darwin
dc.creatorPumijumnong, Nathsuda
dc.creatorRahman, Mizanur
dc.creatorAndres Ramirez, Jorge
dc.creatorRequena-Rojas, Edilson Jimmy
dc.creatorRibeiro, Adauto de Souza
dc.creatorRobertson, Iain
dc.creatorAlejandro Roig, Fidel
dc.creatorRubio-Camacho, Ernesto Alonso
dc.creatorSass-Klaassen, Ute
dc.creatorSchöngart, Jochen
dc.creatorSheppard, Paul R.
dc.creatorSlotta, Franziska
dc.creatorSpeer, James H.
dc.creatorTherrell, Matthew D.
dc.creatorToirambe, Benjamin
dc.creatorTomazello Filho, Mario
dc.creatorTorbenson, Max C. A.
dc.creatorTouchan, Ramzi
dc.creatorVenegas-González, Alejandro
dc.creatorVillalba, Ricardo
dc.creatorVillanueva-Diaz, Jose
dc.creatorVinya, Royd
dc.creatorVlam, Mart
dc.creatorWils, Tommy
dc.date.accessioned2022-06-29T21:58:47Z
dc.date.available2022-06-29T21:58:47Z
dc.date.issued2022-03
dc.description.abstractInterannual variability in the global land carbon sink is strongly related to variations in tropical temperature and rainfall. This association suggests an important role for moisture-driven fluctuations in tropical vegetation productivity, but empirical evidence to quantify the responsible ecological processes is missing. Such evidence can be obtained from tree-ring data that quantify variability in a major vegetation productivity component: woody biomass growth. Here we compile a pantropical tree-ring network to show that annual woody biomass growth increases primarily with dry-season precipitation and decreases with dry-season maximum temperature. The strength of these dry-season climate responses varies among sites, as reflected in four robust and distinct climate response groups of tropical tree growth derived from clustering. Using cluster and regression analyses, we find that dry-season climate responses are amplified in regions that are drier, hotter and more climatically variable. These amplification patterns suggest that projected global warming will probably aggravate drought-induced declines in annual tropical vegetation productivity. Our study reveals a previously underappreciated role of dry-season climate variability in driving the dynamics of tropical vegetation productivity and consequently in influencing the land carbon sink.pt_BR
dc.identifier.citationZUIDEMA, P. A. et al. Tropical tree growth driven by dry-season climate variability. Nature Geoscience, London, v. 15, p. 269-276, Apr. 2022. DOI: https://doi.org/10.1038/s41561-022-00911-8.pt_BR
dc.identifier.urihttps://repositorio.ufla.br/handle/1/50401
dc.identifier.urihttps://doi.org/10.1038/s41561-022-00911-8pt_BR
dc.languageenpt_BR
dc.publisherSpringer Naturept_BR
dc.rightsrestrictAccesspt_BR
dc.sourceNature Geosciencept_BR
dc.subjectWoody biomasspt_BR
dc.subjectVegetation productivitypt_BR
dc.subjectPantropical tree-ring networkpt_BR
dc.subjectDroughtpt_BR
dc.subjectGlobal warmingpt_BR
dc.subjectLand carbon sinkpt_BR
dc.subjectBiomassa lenhosapt_BR
dc.subjectProdutividade da vegetaçãopt_BR
dc.subjectÁrvores tropicais - Crescimentopt_BR
dc.subjectSecapt_BR
dc.subjectAquecimento globalpt_BR
dc.subjectSumidouro de carbonopt_BR
dc.titleTropical tree growth driven by dry-season climate variabilitypt_BR
dc.typeArtigopt_BR

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