Vulnerability of Amazon forests to storm-driven tree mortality

Robinson I. Negrón-Juárez; Jennifer A. Holm; Daniel Magnabosco Marra; Sami W. Rifai; William J. Riley; Jeffrey Q. Chambers; Charles D. Koven; Ryan G. Knox; Megan E. McGroddy; Alan V. Di Vittorio; Jose Urquiza-Muñoz; Rodil Tello-Espinoza; Waldemar Alegria Muñoz; Gabriel H.P.M. Ribeiro; Niro Higuchi

doi:10.1088/1748-9326/aabe9f

Vulnerability of Amazon forests to storm-driven tree mortality

Robinson I. Negrón-Juárez, Jennifer A. Holm, Daniel Magnabosco Marra, Sami W. Rifai, William J. Riley, Jeffrey Q. Chambers, Charles D. Koven, Ryan G. Knox, Megan E. McGroddy, Alan V. Di Vittorio, Jose Urquiza-Muñoz, Rodil Tello-Espinoza, Waldemar Alegria Muñoz, Gabriel H.P.M. Ribeiro, Niro Higuchi

Facultad de Ciencias Forestales

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

48 Citas (Scopus)

Resumen

Tree mortality is a key driver of forest community composition and carbon dynamics. Strong winds associated with severe convective storms are dominant natural drivers of tree mortality in the Amazon. Why forests vary with respect to their vulnerability to wind events and how the predicted increase in storm events might affect forest ecosystems within the Amazon are not well understood. We found that windthrows are common in the Amazon region extending from northwest (Peru, Colombia, Venezuela, and west Brazil) to central Brazil, with the highest occurrence of windthrows in the northwest Amazon. More frequent winds, produced by more frequent severe convective systems, in combination with well-known processes that limit the anchoring of trees in the soil, help to explain the higher vulnerability of the northwest Amazon forests to winds. Projected increases in the frequency and intensity of convective storms in the Amazon have the potential to increase wind-related tree mortality. A forest demographic model calibrated for the northwestern and the central Amazon showed that northwestern forests are more resilient to increased wind-related tree mortality than forests in the central Amazon. Our study emphasizes the importance of including wind-related tree mortality in model simulations for reliable predictions of the future of tropical forests and their effects on the Earth' system.

Idioma original	Inglés
Número de artículo	054021
Publicación	Environmental Research Letters
Volumen	13
N.º	5
DOI	https://doi.org/10.1088/1748-9326/aabe9f
Estado	Publicada - may. 2018

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Negrón-Juárez, R. I., Holm, J. A., Marra, D. M., Rifai, S. W., Riley, W. J., Chambers, J. Q., Koven, C. D., Knox, R. G., McGroddy, M. E., Di Vittorio, A. V., Urquiza-Muñoz, J., Tello-Espinoza, R., Muñoz, W. A., Ribeiro, G. H. P. M., & Higuchi, N. (2018). Vulnerability of Amazon forests to storm-driven tree mortality. Environmental Research Letters, 13(5), Artículo 054021. https://doi.org/10.1088/1748-9326/aabe9f

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title = "Vulnerability of Amazon forests to storm-driven tree mortality",

abstract = "Tree mortality is a key driver of forest community composition and carbon dynamics. Strong winds associated with severe convective storms are dominant natural drivers of tree mortality in the Amazon. Why forests vary with respect to their vulnerability to wind events and how the predicted increase in storm events might affect forest ecosystems within the Amazon are not well understood. We found that windthrows are common in the Amazon region extending from northwest (Peru, Colombia, Venezuela, and west Brazil) to central Brazil, with the highest occurrence of windthrows in the northwest Amazon. More frequent winds, produced by more frequent severe convective systems, in combination with well-known processes that limit the anchoring of trees in the soil, help to explain the higher vulnerability of the northwest Amazon forests to winds. Projected increases in the frequency and intensity of convective storms in the Amazon have the potential to increase wind-related tree mortality. A forest demographic model calibrated for the northwestern and the central Amazon showed that northwestern forests are more resilient to increased wind-related tree mortality than forests in the central Amazon. Our study emphasizes the importance of including wind-related tree mortality in model simulations for reliable predictions of the future of tropical forests and their effects on the Earth' system.",

keywords = "demography model, severe convective systems, winds",

author = "Negr{\'o}n-Ju{\'a}rez, {Robinson I.} and Holm, {Jennifer A.} and Marra, {Daniel Magnabosco} and Rifai, {Sami W.} and Riley, {William J.} and Chambers, {Jeffrey Q.} and Koven, {Charles D.} and Knox, {Ryan G.} and McGroddy, {Megan E.} and {Di Vittorio}, {Alan V.} and Jose Urquiza-Mu{\~n}oz and Rodil Tello-Espinoza and Mu{\~n}oz, {Waldemar Alegria} and Ribeiro, {Gabriel H.P.M.} and Niro Higuchi",

note = "Publisher Copyright: {\textcopyright} 2018 The Author(s). Published by IOP Publishing Ltd.",

year = "2018",

month = may,

doi = "10.1088/1748-9326/aabe9f",

language = "English",

volume = "13",

journal = "Environmental Research Letters",

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Negrón-Juárez, RI, Holm, JA, Marra, DM, Rifai, SW, Riley, WJ, Chambers, JQ, Koven, CD, Knox, RG, McGroddy, ME, Di Vittorio, AV, Urquiza-Muñoz, J , Tello-Espinoza, R , Muñoz, WA, Ribeiro, GHPM & Higuchi, N 2018, 'Vulnerability of Amazon forests to storm-driven tree mortality', Environmental Research Letters, vol. 13, n.º 5, 054021. https://doi.org/10.1088/1748-9326/aabe9f

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T1 - Vulnerability of Amazon forests to storm-driven tree mortality

AU - Negrón-Juárez, Robinson I.

AU - Holm, Jennifer A.

AU - Marra, Daniel Magnabosco

AU - Rifai, Sami W.

AU - Riley, William J.

AU - Chambers, Jeffrey Q.

AU - Koven, Charles D.

AU - Knox, Ryan G.

AU - McGroddy, Megan E.

AU - Di Vittorio, Alan V.

AU - Urquiza-Muñoz, Jose

AU - Tello-Espinoza, Rodil

AU - Muñoz, Waldemar Alegria

AU - Ribeiro, Gabriel H.P.M.

AU - Higuchi, Niro

PY - 2018/5

Y1 - 2018/5

N2 - Tree mortality is a key driver of forest community composition and carbon dynamics. Strong winds associated with severe convective storms are dominant natural drivers of tree mortality in the Amazon. Why forests vary with respect to their vulnerability to wind events and how the predicted increase in storm events might affect forest ecosystems within the Amazon are not well understood. We found that windthrows are common in the Amazon region extending from northwest (Peru, Colombia, Venezuela, and west Brazil) to central Brazil, with the highest occurrence of windthrows in the northwest Amazon. More frequent winds, produced by more frequent severe convective systems, in combination with well-known processes that limit the anchoring of trees in the soil, help to explain the higher vulnerability of the northwest Amazon forests to winds. Projected increases in the frequency and intensity of convective storms in the Amazon have the potential to increase wind-related tree mortality. A forest demographic model calibrated for the northwestern and the central Amazon showed that northwestern forests are more resilient to increased wind-related tree mortality than forests in the central Amazon. Our study emphasizes the importance of including wind-related tree mortality in model simulations for reliable predictions of the future of tropical forests and their effects on the Earth' system.

AB - Tree mortality is a key driver of forest community composition and carbon dynamics. Strong winds associated with severe convective storms are dominant natural drivers of tree mortality in the Amazon. Why forests vary with respect to their vulnerability to wind events and how the predicted increase in storm events might affect forest ecosystems within the Amazon are not well understood. We found that windthrows are common in the Amazon region extending from northwest (Peru, Colombia, Venezuela, and west Brazil) to central Brazil, with the highest occurrence of windthrows in the northwest Amazon. More frequent winds, produced by more frequent severe convective systems, in combination with well-known processes that limit the anchoring of trees in the soil, help to explain the higher vulnerability of the northwest Amazon forests to winds. Projected increases in the frequency and intensity of convective storms in the Amazon have the potential to increase wind-related tree mortality. A forest demographic model calibrated for the northwestern and the central Amazon showed that northwestern forests are more resilient to increased wind-related tree mortality than forests in the central Amazon. Our study emphasizes the importance of including wind-related tree mortality in model simulations for reliable predictions of the future of tropical forests and their effects on the Earth' system.

KW - demography model

KW - severe convective systems

KW - winds

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U2 - 10.1088/1748-9326/aabe9f

DO - 10.1088/1748-9326/aabe9f

M3 - Article

AN - SCOPUS:85048083182

SN - 1748-9318

VL - 13

JO - Environmental Research Letters

JF - Environmental Research Letters

IS - 5

M1 - 054021

ER -

Vulnerability of Amazon forests to storm-driven tree mortality

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