A catastrophic tropical drought kills hydraulically vulnerable tree species

Jennifer S. Powers; German Vargas G.; Timothy J. Brodribb; Naomi B. Schwartz; Daniel Pérez-Aviles; Chris M. Smith-Martin; Justin M. Becknell; Filippo Aureli; Roger Blanco; Erick Calderón-Morales; Julio C. Calvo-Alvarado; Ana Julieta Calvo-Obando; María Marta Chavarría; Dorian Carvajal-Vanegas; César D. Jiménez-Rodríguez; Evin Murillo Chacon; Colleen M. Schaffner; Leland K. Werden; Xiangtao Xu; David Medvigy

doi:10.1111/gcb.15037

A catastrophic tropical drought kills hydraulically vulnerable tree species

Jennifer S. Powers, German Vargas G., Timothy J. Brodribb, Naomi B. Schwartz, Daniel Pérez-Aviles, Chris M. Smith-Martin, Justin M. Becknell, Filippo Aureli, Roger Blanco, Erick Calderón-Morales, Julio C. Calvo-Alvarado, Ana Julieta Calvo-Obando, María Marta Chavarría, Dorian Carvajal-Vanegas, César D. Jiménez-Rodríguez, Evin Murillo Chacon, Colleen M. Schaffner, Leland K. Werden, Xiangtao Xu, David Medvigy

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155 Citas (Scopus)

Resumen

Drought-related tree mortality is now a widespread phenomenon predicted to increase in magnitude with climate change. However, the patterns of which species and trees are most vulnerable to drought, and the underlying mechanisms have remained elusive, in part due to the lack of relevant data and difficulty of predicting the location of catastrophic drought years in advance. We used long-term demographic records and extensive databases of functional traits and distribution patterns to understand the responses of 20–53 species to an extreme drought in a seasonally dry tropical forest in Costa Rica, which occurred during the 2015 El Niño Southern Oscillation event. Overall, species-specific mortality rates during the drought ranged from 0% to 34%, and varied little as a function of tree size. By contrast, hydraulic safety margins correlated well with probability of mortality among species, while morphological or leaf economics spectrum traits did not. This firmly suggests hydraulic traits as targets for future research.

Idioma original	Inglés
Páginas (desde-hasta)	3122-3133
Número de páginas	12
Publicación	Global Change Biology
Volumen	26
N.º	5
DOI	https://doi.org/10.1111/gcb.15037
Estado	Publicada - 1 may 2020

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Powers, J. S., Vargas G., G., Brodribb, T. J., Schwartz, N. B., Pérez-Aviles, D., Smith-Martin, C. M., Becknell, J. M., Aureli, F., Blanco, R., Calderón-Morales, E., Calvo-Alvarado, J. C., Calvo-Obando, A. J., Chavarría, M. M., Carvajal-Vanegas, D., Jiménez-Rodríguez, C. D., Murillo Chacon, E., Schaffner, C. M., Werden, L. K., Xu, X., & Medvigy, D. (2020). A catastrophic tropical drought kills hydraulically vulnerable tree species. Global Change Biology, 26(5), 3122-3133. https://doi.org/10.1111/gcb.15037

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title = "A catastrophic tropical drought kills hydraulically vulnerable tree species",

abstract = "Drought-related tree mortality is now a widespread phenomenon predicted to increase in magnitude with climate change. However, the patterns of which species and trees are most vulnerable to drought, and the underlying mechanisms have remained elusive, in part due to the lack of relevant data and difficulty of predicting the location of catastrophic drought years in advance. We used long-term demographic records and extensive databases of functional traits and distribution patterns to understand the responses of 20–53 species to an extreme drought in a seasonally dry tropical forest in Costa Rica, which occurred during the 2015 El Ni{\~n}o Southern Oscillation event. Overall, species-specific mortality rates during the drought ranged from 0% to 34%, and varied little as a function of tree size. By contrast, hydraulic safety margins correlated well with probability of mortality among species, while morphological or leaf economics spectrum traits did not. This firmly suggests hydraulic traits as targets for future research.",

keywords = "extreme drought, hydraulic traits, rainfall seasonality, tree mortality",

author = "Powers, {Jennifer S.} and {Vargas G.}, German and Brodribb, {Timothy J.} and Schwartz, {Naomi B.} and Daniel P{\'e}rez-Aviles and Smith-Martin, {Chris M.} and Becknell, {Justin M.} and Filippo Aureli and Roger Blanco and Erick Calder{\'o}n-Morales and Calvo-Alvarado, {Julio C.} and Calvo-Obando, {Ana Julieta} and Chavarr{\'i}a, {Mar{\'i}a Marta} and Dorian Carvajal-Vanegas and Jim{\'e}nez-Rodr{\'i}guez, {C{\'e}sar D.} and {Murillo Chacon}, Evin and Schaffner, {Colleen M.} and Werden, {Leland K.} and Xiangtao Xu and David Medvigy",

note = "Publisher Copyright: {\textcopyright} 2020 John Wiley & Sons Ltd",

year = "2020",

month = may,

day = "1",

doi = "10.1111/gcb.15037",

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Powers, JS, Vargas G., G, Brodribb, TJ, Schwartz, NB, Pérez-Aviles, D, Smith-Martin, CM, Becknell, JM, Aureli, F, Blanco, R, Calderón-Morales, E, Calvo-Alvarado, JC, Calvo-Obando, AJ, Chavarría, MM, Carvajal-Vanegas, D, Jiménez-Rodríguez, CD, Murillo Chacon, E, Schaffner, CM, Werden, LK, Xu, X & Medvigy, D 2020, 'A catastrophic tropical drought kills hydraulically vulnerable tree species', Global Change Biology, vol. 26, n.º 5, pp. 3122-3133. https://doi.org/10.1111/gcb.15037

TY - JOUR

T1 - A catastrophic tropical drought kills hydraulically vulnerable tree species

AU - Powers, Jennifer S.

AU - Vargas G., German

AU - Brodribb, Timothy J.

AU - Schwartz, Naomi B.

AU - Pérez-Aviles, Daniel

AU - Smith-Martin, Chris M.

AU - Becknell, Justin M.

AU - Aureli, Filippo

AU - Blanco, Roger

AU - Calderón-Morales, Erick

AU - Calvo-Alvarado, Julio C.

AU - Calvo-Obando, Ana Julieta

AU - Chavarría, María Marta

AU - Carvajal-Vanegas, Dorian

AU - Jiménez-Rodríguez, César D.

AU - Murillo Chacon, Evin

AU - Schaffner, Colleen M.

AU - Werden, Leland K.

AU - Xu, Xiangtao

AU - Medvigy, David

PY - 2020/5/1

Y1 - 2020/5/1

N2 - Drought-related tree mortality is now a widespread phenomenon predicted to increase in magnitude with climate change. However, the patterns of which species and trees are most vulnerable to drought, and the underlying mechanisms have remained elusive, in part due to the lack of relevant data and difficulty of predicting the location of catastrophic drought years in advance. We used long-term demographic records and extensive databases of functional traits and distribution patterns to understand the responses of 20–53 species to an extreme drought in a seasonally dry tropical forest in Costa Rica, which occurred during the 2015 El Niño Southern Oscillation event. Overall, species-specific mortality rates during the drought ranged from 0% to 34%, and varied little as a function of tree size. By contrast, hydraulic safety margins correlated well with probability of mortality among species, while morphological or leaf economics spectrum traits did not. This firmly suggests hydraulic traits as targets for future research.

AB - Drought-related tree mortality is now a widespread phenomenon predicted to increase in magnitude with climate change. However, the patterns of which species and trees are most vulnerable to drought, and the underlying mechanisms have remained elusive, in part due to the lack of relevant data and difficulty of predicting the location of catastrophic drought years in advance. We used long-term demographic records and extensive databases of functional traits and distribution patterns to understand the responses of 20–53 species to an extreme drought in a seasonally dry tropical forest in Costa Rica, which occurred during the 2015 El Niño Southern Oscillation event. Overall, species-specific mortality rates during the drought ranged from 0% to 34%, and varied little as a function of tree size. By contrast, hydraulic safety margins correlated well with probability of mortality among species, while morphological or leaf economics spectrum traits did not. This firmly suggests hydraulic traits as targets for future research.

KW - extreme drought

KW - hydraulic traits

KW - rainfall seasonality

KW - tree mortality

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U2 - 10.1111/gcb.15037

DO - 10.1111/gcb.15037

M3 - Artículo

C2 - 32053250

AN - SCOPUS:85082043656

SN - 1354-1013

VL - 26

SP - 3122

EP - 3133

JO - Global Change Biology

JF - Global Change Biology

IS - 5

ER -

A catastrophic tropical drought kills hydraulically vulnerable tree species

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