Assessing the spatial scale of synchrony in forest tree population dynamics

Ryan A. Chisholm; Tak Fung; Kristina J. Anderson-Teixeira; Norman A. Bourg; Warren Y. Brockelman; Sarayudh Bunyavejchewin; Chia Hao Chang-Yang; Yu Yun Chen; George B. Chuyong; Richard Condit; Handanakere S. Dattaraja; Stuart J. Davies; Sisira Ediriweera; Corneille E.N. Ewango; Edwino S. Fernando; I. A.U.Nimal Gunatilleke; C. V.Savitri Gunatilleke; Zhanqing Hao; Robert W. Howe; David Kenfack; Tze Leong Yao; Jean Remy Makana; Sean M. McMahon; Xiangcheng Mi; Mohizah Bt Mohamad; Jonathan A. Myers; Anuttara Nathalang; Álvaro J. Pérez; Sangsan Phumsathan; Nantachai Pongpattananurak; Haibao Ren; Lillian J.V. Rodriguez; Raman Sukumar; I. Fang Sun; Hebbalalu S. Suresh; Duncan W. Thomas; Jill Thompson; Maria Uriarte; Renato Valencia; Xugao Wang; Amy T. Wolf; Jess K. Zimmerman

doi:10.1098/rspb.2024.0486

Assessing the spatial scale of synchrony in forest tree population dynamics

Ryan A. Chisholm, Tak Fung, Kristina J. Anderson-Teixeira, Norman A. Bourg, Warren Y. Brockelman, Sarayudh Bunyavejchewin, Chia Hao Chang-Yang, Yu Yun Chen, George B. Chuyong, Richard Condit, Handanakere S. Dattaraja, Stuart J. Davies, Sisira Ediriweera, Corneille E.N. Ewango, Edwino S. Fernando, I. A.U.Nimal Gunatilleke, C. V.Savitri Gunatilleke, Zhanqing Hao, Robert W. Howe, David KenfackTze Leong Yao, Jean Remy Makana, Sean M. McMahon, Xiangcheng Mi, Mohizah Bt Mohamad, Jonathan A. Myers, Anuttara Nathalang, Álvaro J. Pérez, Sangsan Phumsathan, Nantachai Pongpattananurak, Haibao Ren, Lillian J.V. Rodriguez, Raman Sukumar, I. Fang Sun, Hebbalalu S. Suresh, Duncan W. Thomas, Jill Thompson, Maria Uriarte, Renato Valencia, Xugao Wang, Amy T. Wolf, Jess K. Zimmerman

Facultad de Ciencias Exactas y Naturales

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Resumen

Populations of forest trees exhibit large temporal fluctuations, but little is known about the synchrony of these fluctuations across space, including their sign, magnitude, causes and characteristic scales. These have important implications for metapopulation persistence and theoretical community ecology. Using data from permanent forest plots spanning local, regional and global spatial scales, we measured spatial synchrony in tree population growth rates over sub-decadal and decadal timescales and explored the relationship of synchrony to geographical distance. Synchrony was high at local scales of less than 1 km, with estimated Pearson correlations of approximately 0.6-0.8 between species' population growth rates across pairs of quadrats. Synchrony decayed by approximately 17-44% with each order of magnitude increase in distance but was still detectably positive at distances of 100 km and beyond. Dispersal cannot explain observed large-scale synchrony because typical seed dispersal distances (<100 m) are far too short to couple the dynamics of distant forests on decadal timescales. We attribute the observed synchrony in forest dynamics primarily to the effect of spatially synchronous environmental drivers (the Moran effect), in particular climate, although pests, pathogens and anthropogenic drivers may play a role for some species.

Idioma original	Inglés
Número de artículo	20240486
Publicación	Proceedings of the Royal Society B: Biological Sciences
Volumen	291
N.º	2035
DOI	https://doi.org/10.1098/rspb.2024.0486
Estado	Publicada - 20 nov. 2024

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© 2024 The Author(s). Published by the Royal Society. All rights reserved.

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Chisholm, R. A., Fung, T., Anderson-Teixeira, K. J., Bourg, N. A., Brockelman, W. Y., Bunyavejchewin, S., Chang-Yang, C. H., Chen, Y. Y., Chuyong, G. B., Condit, R., Dattaraja, H. S., Davies, S. J., Ediriweera, S., Ewango, C. E. N., Fernando, E. S., Gunatilleke, I. A. U. N., Gunatilleke, C. V. S., Hao, Z., Howe, R. W., ... Zimmerman, J. K. (2024). Assessing the spatial scale of synchrony in forest tree population dynamics. Proceedings of the Royal Society B: Biological Sciences, 291(2035), Artículo 20240486. https://doi.org/10.1098/rspb.2024.0486

@article{8c3894f2ce5e417183011b33b8c79f4c,

title = "Assessing the spatial scale of synchrony in forest tree population dynamics",

abstract = "Populations of forest trees exhibit large temporal fluctuations, but little is known about the synchrony of these fluctuations across space, including their sign, magnitude, causes and characteristic scales. These have important implications for metapopulation persistence and theoretical community ecology. Using data from permanent forest plots spanning local, regional and global spatial scales, we measured spatial synchrony in tree population growth rates over sub-decadal and decadal timescales and explored the relationship of synchrony to geographical distance. Synchrony was high at local scales of less than 1 km, with estimated Pearson correlations of approximately 0.6-0.8 between species' population growth rates across pairs of quadrats. Synchrony decayed by approximately 17-44% with each order of magnitude increase in distance but was still detectably positive at distances of 100 km and beyond. Dispersal cannot explain observed large-scale synchrony because typical seed dispersal distances (<100 m) are far too short to couple the dynamics of distant forests on decadal timescales. We attribute the observed synchrony in forest dynamics primarily to the effect of spatially synchronous environmental drivers (the Moran effect), in particular climate, although pests, pathogens and anthropogenic drivers may play a role for some species.",

keywords = "Moran effect, forest trees, population dynamics, synchrony",

author = "Chisholm, {Ryan A.} and Tak Fung and Anderson-Teixeira, {Kristina J.} and Bourg, {Norman A.} and Brockelman, {Warren Y.} and Sarayudh Bunyavejchewin and Chang-Yang, {Chia Hao} and Chen, {Yu Yun} and Chuyong, {George B.} and Richard Condit and Dattaraja, {Handanakere S.} and Davies, {Stuart J.} and Sisira Ediriweera and Ewango, {Corneille E.N.} and Fernando, {Edwino S.} and Gunatilleke, {I. A.U.Nimal} and Gunatilleke, {C. V.Savitri} and Zhanqing Hao and Howe, {Robert W.} and David Kenfack and Yao, {Tze Leong} and Makana, {Jean Remy} and McMahon, {Sean M.} and Xiangcheng Mi and Mohamad, {Mohizah Bt} and Myers, {Jonathan A.} and Anuttara Nathalang and P{\'e}rez, {{\'A}lvaro J.} and Sangsan Phumsathan and Nantachai Pongpattananurak and Haibao Ren and Rodriguez, {Lillian J.V.} and Raman Sukumar and Sun, {I. Fang} and Suresh, {Hebbalalu S.} and Thomas, {Duncan W.} and Jill Thompson and Maria Uriarte and Renato Valencia and Xugao Wang and Wolf, {Amy T.} and Zimmerman, {Jess K.}",

year = "2024",

month = nov,

day = "20",

doi = "10.1098/rspb.2024.0486",

language = "English",

volume = "291",

journal = "Proceedings of the Royal Society B: Biological Sciences",

issn = "0962-8452",

publisher = "The Royal Society",

number = "2035",

}

Chisholm, RA, Fung, T, Anderson-Teixeira, KJ, Bourg, NA, Brockelman, WY, Bunyavejchewin, S, Chang-Yang, CH, Chen, YY, Chuyong, GB, Condit, R, Dattaraja, HS, Davies, SJ, Ediriweera, S, Ewango, CEN, Fernando, ES, Gunatilleke, IAUN, Gunatilleke, CVS, Hao, Z, Howe, RW, Kenfack, D, Yao, TL, Makana, JR, McMahon, SM, Mi, X, Mohamad, MB, Myers, JA, Nathalang, A, Pérez, ÁJ, Phumsathan, S, Pongpattananurak, N, Ren, H, Rodriguez, LJV, Sukumar, R, Sun, IF, Suresh, HS, Thomas, DW, Thompson, J, Uriarte, M, Valencia, R, Wang, X, Wolf, AT & Zimmerman, JK 2024, 'Assessing the spatial scale of synchrony in forest tree population dynamics', Proceedings of the Royal Society B: Biological Sciences, vol. 291, n.º 2035, 20240486. https://doi.org/10.1098/rspb.2024.0486

TY - JOUR

T1 - Assessing the spatial scale of synchrony in forest tree population dynamics

AU - Chisholm, Ryan A.

AU - Fung, Tak

AU - Anderson-Teixeira, Kristina J.

AU - Bourg, Norman A.

AU - Brockelman, Warren Y.

AU - Bunyavejchewin, Sarayudh

AU - Chang-Yang, Chia Hao

AU - Chen, Yu Yun

AU - Chuyong, George B.

AU - Condit, Richard

AU - Dattaraja, Handanakere S.

AU - Davies, Stuart J.

AU - Ediriweera, Sisira

AU - Ewango, Corneille E.N.

AU - Fernando, Edwino S.

AU - Gunatilleke, I. A.U.Nimal

AU - Gunatilleke, C. V.Savitri

AU - Hao, Zhanqing

AU - Howe, Robert W.

AU - Kenfack, David

AU - Yao, Tze Leong

AU - Makana, Jean Remy

AU - McMahon, Sean M.

AU - Mi, Xiangcheng

AU - Mohamad, Mohizah Bt

AU - Myers, Jonathan A.

AU - Nathalang, Anuttara

AU - Pérez, Álvaro J.

AU - Phumsathan, Sangsan

AU - Pongpattananurak, Nantachai

AU - Ren, Haibao

AU - Rodriguez, Lillian J.V.

AU - Sukumar, Raman

AU - Sun, I. Fang

AU - Suresh, Hebbalalu S.

AU - Thomas, Duncan W.

AU - Thompson, Jill

AU - Uriarte, Maria

AU - Valencia, Renato

AU - Wang, Xugao

AU - Wolf, Amy T.

AU - Zimmerman, Jess K.

PY - 2024/11/20

Y1 - 2024/11/20

N2 - Populations of forest trees exhibit large temporal fluctuations, but little is known about the synchrony of these fluctuations across space, including their sign, magnitude, causes and characteristic scales. These have important implications for metapopulation persistence and theoretical community ecology. Using data from permanent forest plots spanning local, regional and global spatial scales, we measured spatial synchrony in tree population growth rates over sub-decadal and decadal timescales and explored the relationship of synchrony to geographical distance. Synchrony was high at local scales of less than 1 km, with estimated Pearson correlations of approximately 0.6-0.8 between species' population growth rates across pairs of quadrats. Synchrony decayed by approximately 17-44% with each order of magnitude increase in distance but was still detectably positive at distances of 100 km and beyond. Dispersal cannot explain observed large-scale synchrony because typical seed dispersal distances (<100 m) are far too short to couple the dynamics of distant forests on decadal timescales. We attribute the observed synchrony in forest dynamics primarily to the effect of spatially synchronous environmental drivers (the Moran effect), in particular climate, although pests, pathogens and anthropogenic drivers may play a role for some species.

AB - Populations of forest trees exhibit large temporal fluctuations, but little is known about the synchrony of these fluctuations across space, including their sign, magnitude, causes and characteristic scales. These have important implications for metapopulation persistence and theoretical community ecology. Using data from permanent forest plots spanning local, regional and global spatial scales, we measured spatial synchrony in tree population growth rates over sub-decadal and decadal timescales and explored the relationship of synchrony to geographical distance. Synchrony was high at local scales of less than 1 km, with estimated Pearson correlations of approximately 0.6-0.8 between species' population growth rates across pairs of quadrats. Synchrony decayed by approximately 17-44% with each order of magnitude increase in distance but was still detectably positive at distances of 100 km and beyond. Dispersal cannot explain observed large-scale synchrony because typical seed dispersal distances (<100 m) are far too short to couple the dynamics of distant forests on decadal timescales. We attribute the observed synchrony in forest dynamics primarily to the effect of spatially synchronous environmental drivers (the Moran effect), in particular climate, although pests, pathogens and anthropogenic drivers may play a role for some species.

KW - Moran effect

KW - forest trees

KW - population dynamics

KW - synchrony

UR - http://www.scopus.com/inward/record.url?scp=85210106709&partnerID=8YFLogxK

U2 - 10.1098/rspb.2024.0486

DO - 10.1098/rspb.2024.0486

M3 - Article

C2 - 39564678

AN - SCOPUS:85210106709

SN - 0962-8452

VL - 291

JO - Proceedings of the Royal Society B: Biological Sciences

JF - Proceedings of the Royal Society B: Biological Sciences

IS - 2035

M1 - 20240486

ER -

Assessing the spatial scale of synchrony in forest tree population dynamics

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