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@Article{BarrosBBRPTSBCPALCGLAILAO:2019:HyTrEx,
               author = "Barros, Fernanda de Vasconcellos and Bittencourt, Paulo R. L. and 
                         Brum, Mauro and Restrepo-Coupe, Natalia and Pereira, Luciano and 
                         Teodoro, Grazielle S. and Saleska, Scott R. and Borma, Laura de 
                         Simone and Christoffersen, Bradley O. and Penha, Deliane and 
                         Alves, Luciana F. and Lima, Adriano J. N. and Carneiro, Vilany M. 
                         C. and Gentine, Pierre and Lee, Jung-Eun and Arag{\~a}o, Luiz 
                         Eduardo Oliveira e Cruz de and Ivanov, Valeriy and Leal, Leila S. 
                         M. and Araujo, Alessandro C. and Oliveira, Rafael S.",
          affiliation = "{Universidade Estadual de Campinas (UNICAMP)} and {Universidade 
                         Estadual de Campinas (UNICAMP)} and {Universidade Estadual de 
                         Campinas (UNICAMP)} and {University of Arizona} and {Universidade 
                         Estadual de Campinas (UNICAMP)} and {Universidade Federal do 
                         Par{\'a} (UFPA)} and {University of Arizona} and {Instituto 
                         Nacional de Pesquisas Espaciais (INPE)} and {University of Texas 
                         RioGrande Valley} and {Universidade Federal do Oeste do Par{\'a} 
                         (UFOPA)} and {University of California–Los Angeles} and {Instituto 
                         Nacional de Pesquisas da Amaz{\^o}nia (INPA)} and {Instituto 
                         Nacional de Pesquisas da Amaz{\^o}nia (INPA)} and {Columbia 
                         University} and {Brown University Providence} and {Instituto 
                         Nacional de Pesquisas Espaciais (INPE)} and {University of 
                         Michigan} and {Embrapa Amazonia Oriental} and {Instituto Nacional 
                         de Pesquisas da Amaz{\^o}nia (INPA)} and {Universidade Estadual 
                         de Campinas (UNICAMP)}",
                title = "Hydraulic traits explain differential responses of 
                         Amazonianforests to the 2015 El Ni~no-induced drought",
              journal = "New Phytologist",
                 year = "2019",
               volume = "223",
               number = "3",
                pages = "1253--1266",
                month = "Aug.",
             keywords = "2015-ENSO, Amazon tropical forest, drought, embolism resistance, 
                         hydraulic traits, plant functional diversity.",
             abstract = "Reducing uncertainties in the response of tropical forests to 
                         global change requires understanding how intra- and interannual 
                         climatic variability selects for different species, community 
                         functional composition and ecosystem functioning, so that the 
                         response to climatic events of differing frequency and severity 
                         can be predicted. Here we present an extensive dataset of 
                         hydraulic traits of dominant species in two tropical Amazon 
                         forests with contrasting precipitation regimes - low seasonality 
                         forest (LSF) and high seasonality forest (HSF) - and relate them 
                         to community and ecosystem response to the El Nino-Southern 
                         Oscillation (ENSO) of 2015. Hydraulic traits indicated higher 
                         drought tolerance in the HSF than in the LSF. Despite more intense 
                         drought and lower plant water potentials in HSF during the 
                         2015-ENSO, greater xylem embolism resistance maintained similar 
                         hydraulic safety margin as in LSF. This likely explains how 
                         ecosystem-scale whole-forest canopy conductance at HSF maintained 
                         a similar response to atmospheric drought as at LSF, despite their 
                         water transport systems operating at different water potentials. 
                         Our results indicate that contrasting precipitation regimes (at 
                         seasonal and interannual time scales) select for assemblies of 
                         hydraulic traits and taxa at the community level, which may have a 
                         significant role in modulating forest drought response at 
                         ecosystem scales.",
                  doi = "10.1111/nph.15909",
                  url = "http://dx.doi.org/10.1111/nph.15909",
                 issn = "0028-646X",
             language = "en",
           targetfile = "Barros_et_al-2019-New_Phytologist.pdf",
        urlaccessdate = "22 abr. 2021"
}


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