Interactions between all pairs of neighboring trees in 16 forests worldwide reveal details of unique ecological processes in each forest, and provide windows into their evolutionary histories

Christopher Wills; Bin Wang; Shuai Fang; Yunquan Wang; Yi Jin; James Lut; Jill Thompson; Kyle E. Harms; Sandeep Pulla; Bonifacio Pasion; Sara Germain; Heming Liu; Joseph Smokey; Sheng Hsin Su; Nathalie Butt; Chengjin Chu; George Chuyong; Chia Hao Chang-Yang; H. S. Dattaraja; Stuart Davies; Sisira Ediriweera; Shameema Esufali; Christine Dawn Fletcher; Nimal Gunatilleke; Savi Gunatilleke; Chang Fu Hsieh; Fangliang He; Stephen Hubbell; Zhanqing Hao; Akira Itoh; David Kenfack; Buhang Li; Xiankun Li; Keping Ma; Michael Morecroft; Xiangcheng Mi; Yadvinder Malhi; Perry Ong; Lillian Jennifer Rodriguez; H. S. Suresh; I. Fang Sun; Raman Sukumar; Sylvester Tan; Duncan Thomas; Maria Uriarte; Xihua Wang; Xugao Wang; T. L. Yao; Jess Zimmermann; Christopher Wills

doi:10.1371/journal.pcbi.1008853

Interactions between all pairs of neighboring trees in 16 forests worldwide reveal details of unique ecological processes in each forest, and provide windows into their evolutionary histories

Christopher Wills
, Bin Wang
, Shuai Fang
, Yunquan Wang
, Yi Jin
, James Lut
, Jill Thompson
, Kyle E. Harms
, Sandeep Pulla
, Bonifacio Pasion
, Sara Germain
, Heming Liu
, Joseph Smokey
, Sheng Hsin Su
, Nathalie Butt
, Chengjin Chu
, George Chuyong
, Chia Hao Chang-Yang
, H. S. Dattaraja
, Stuart Davies

Sisira Ediriweera, Shameema Esufali, Christine Dawn Fletcher, Nimal Gunatilleke, Savi Gunatilleke, Chang Fu Hsieh, Fangliang He, Stephen Hubbell, Zhanqing Hao, Akira Itoh, David Kenfack, Buhang Li, Xiankun Li, Keping Ma, Michael Morecroft, Xiangcheng Mi, Yadvinder Malhi, Perry Ong, Lillian Jennifer Rodriguez, H. S. Suresh, I. Fang Sun, Raman Sukumar, Sylvester Tan, Duncan Thomas, Maria Uriarte, Xihua Wang, Xugao Wang, T. L. Yao, Jess Zimmermann, Christopher Wills

University of California at San Diego
CAS - Guangxi Institute of Botany
CAS - Shenyang Institute of Applied Ecology
Zhejiang Normal University
CAS - Institute of Botany
Zhejiang University
Utah State University
Centre for Ecology and Hydrology
Louisiana State University
Indian Institute of Science Bangalore
Tata Institute of Fundamental Research
CAS - Xishuangbanna Tropical Botanical Garden
East China Normal University
Memorial University of Newfoundland
National Taiwan University
University of Oxford
University of Queensland
Sun Yat-Sen University
University of Buea
National Sun Yat-sen University
Smithsonian Institution
Uva Wellassa University
University of Peradeniya
Forest Research Institute Malaysia
Council of Agriculture Taiwan
University of California at Los Angeles
Osaka Metropolitan University
Natural England
University of the Philippines
National Dong Hwa University
Bangunan Wisma Sumber Alam
Washington State University Vancouver
University of Puerto Rico
Columbia University

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5 引用（Scopus）

摘要

When Darwin visited the Galapagos archipelago, he observed that, in spite of the islands' physical similarity, members of species that had dispersed to them recently were beginning to diverge from each other. He postulated that these divergences must have resulted primarily from interactions with sets of other species that had also diverged across these otherwise similar islands. By extrapolation, if Darwin is correct, such complex interactions must be driving species divergences across all ecosystems. However, many current general ecological theories that predict observed distributions of species in ecosystems do not take the details of between-species interactions into account. Here we quantify, in sixteen forest diversity plots (FDPs) worldwide, highly significant negative density-dependent (NDD) components of both conspecific and heterospecific between-Tree interactions that affect the trees' distributions, growth, recruitment, and mortality. These interactions decline smoothly in significance with increasing physical distance between trees. They also tend to decline in significance with increasing phylogenetic distance between the trees, but each FDP exhibits its own unique pattern of exceptions to this overall decline. Unique patterns of between-species interactions in ecosystems, of the general type that Darwin postulated, are likely to have contributed to the exceptions. We test the power of our null-model method by using a deliberately modified data set, and show that the method easily identifies the modifications. We examine how some of the exceptions, at the Wind River (USA) FDP, reveal new details of a known allelopathic effect of one of the Wind River gymnosperm species. Finally, we explore how similar analyses can be used to investigate details of many types of interactions in these complex ecosystems, and can provide clues to the evolution of these interactions.

源语言	英语
文章编号	e1008853
期刊	PLoS Computational Biology
卷	17
期	4
DOI	https://doi.org/10.1371/journal.pcbi.1008853
出版状态	已出版 - 4月 2021
已对外发布	是

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10.1371/journal.pcbi.1008853

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Wills, C., Wang, B., Fang, S., Wang, Y., Jin, Y., Lut, J., Thompson, J., Harms, K. E., Pulla, S., Pasion, B., Germain, S., Liu, H., Smokey, J., Su, S. H., Butt, N., Chu, C., Chuyong, G., Chang-Yang, C. H., Dattaraja, H. S., ... Wills, C. (2021). Interactions between all pairs of neighboring trees in 16 forests worldwide reveal details of unique ecological processes in each forest, and provide windows into their evolutionary histories. PLoS Computational Biology, 17(4), 文章 e1008853. https://doi.org/10.1371/journal.pcbi.1008853

@article{3f68bf5cdc924d5ebb2b0b9cf3265ca5,

title = "Interactions between all pairs of neighboring trees in 16 forests worldwide reveal details of unique ecological processes in each forest, and provide windows into their evolutionary histories",

abstract = "When Darwin visited the Galapagos archipelago, he observed that, in spite of the islands' physical similarity, members of species that had dispersed to them recently were beginning to diverge from each other. He postulated that these divergences must have resulted primarily from interactions with sets of other species that had also diverged across these otherwise similar islands. By extrapolation, if Darwin is correct, such complex interactions must be driving species divergences across all ecosystems. However, many current general ecological theories that predict observed distributions of species in ecosystems do not take the details of between-species interactions into account. Here we quantify, in sixteen forest diversity plots (FDPs) worldwide, highly significant negative density-dependent (NDD) components of both conspecific and heterospecific between-Tree interactions that affect the trees' distributions, growth, recruitment, and mortality. These interactions decline smoothly in significance with increasing physical distance between trees. They also tend to decline in significance with increasing phylogenetic distance between the trees, but each FDP exhibits its own unique pattern of exceptions to this overall decline. Unique patterns of between-species interactions in ecosystems, of the general type that Darwin postulated, are likely to have contributed to the exceptions. We test the power of our null-model method by using a deliberately modified data set, and show that the method easily identifies the modifications. We examine how some of the exceptions, at the Wind River (USA) FDP, reveal new details of a known allelopathic effect of one of the Wind River gymnosperm species. Finally, we explore how similar analyses can be used to investigate details of many types of interactions in these complex ecosystems, and can provide clues to the evolution of these interactions.",

author = "Christopher Wills and Bin Wang and Shuai Fang and Yunquan Wang and Yi Jin and James Lut and Jill Thompson and Harms, \{Kyle E.\} and Sandeep Pulla and Bonifacio Pasion and Sara Germain and Heming Liu and Joseph Smokey and Su, \{Sheng Hsin\} and Nathalie Butt and Chengjin Chu and George Chuyong and Chang-Yang, \{Chia Hao\} and Dattaraja, \{H. S.\} and Stuart Davies and Sisira Ediriweera and Shameema Esufali and Fletcher, \{Christine Dawn\} and Nimal Gunatilleke and Savi Gunatilleke and Hsieh, \{Chang Fu\} and Fangliang He and Stephen Hubbell and Zhanqing Hao and Akira Itoh and David Kenfack and Buhang Li and Xiankun Li and Keping Ma and Michael Morecroft and Xiangcheng Mi and Yadvinder Malhi and Perry Ong and Rodriguez, \{Lillian Jennifer\} and Suresh, \{H. S.\} and \{Fang Sun\}, I. and Raman Sukumar and Sylvester Tan and Duncan Thomas and Maria Uriarte and Xihua Wang and Xugao Wang and \{L. Yao\}, T. and Jess Zimmermann and Christopher Wills",

note = "Publisher Copyright: This is an open access article, free of all copyright, and may be freely reproduced, distributed, transmitted, modified, built upon, or otherwise used by anyone for any lawful purpose. The work is made available under the Creative Commons CC0 public domain dedication.",

year = "2021",

month = apr,

doi = "10.1371/journal.pcbi.1008853",

language = "英语",

volume = "17",

journal = "PLoS Computational Biology",

issn = "1553-734X",

publisher = "Public Library of Science",

number = "4",

}

Wills, C, Wang, B, Fang, S, Wang, Y, Jin, Y, Lut, J, Thompson, J, Harms, KE, Pulla, S, Pasion, B, Germain, S, Liu, H, Smokey, J, Su, SH, Butt, N, Chu, C, Chuyong, G, Chang-Yang, CH, Dattaraja, HS, Davies, S, Ediriweera, S, Esufali, S, Fletcher, CD, Gunatilleke, N, Gunatilleke, S, Hsieh, CF, He, F, Hubbell, S, Hao, Z, Itoh, A, Kenfack, D, Li, B, Li, X, Ma, K, Morecroft, M, Mi, X, Malhi, Y, Ong, P, Rodriguez, LJ, Suresh, HS, Fang Sun, I, Sukumar, R, Tan, S, Thomas, D, Uriarte, M, Wang, X, Wang, X, L. Yao, T, Zimmermann, J & Wills, C 2021, 'Interactions between all pairs of neighboring trees in 16 forests worldwide reveal details of unique ecological processes in each forest, and provide windows into their evolutionary histories', PLoS Computational Biology, 卷 17, 号码 4, e1008853. https://doi.org/10.1371/journal.pcbi.1008853

TY - JOUR

T1 - Interactions between all pairs of neighboring trees in 16 forests worldwide reveal details of unique ecological processes in each forest, and provide windows into their evolutionary histories

AU - Wills, Christopher

AU - Wang, Bin

AU - Fang, Shuai

AU - Wang, Yunquan

AU - Jin, Yi

AU - Lut, James

AU - Thompson, Jill

AU - Harms, Kyle E.

AU - Pulla, Sandeep

AU - Pasion, Bonifacio

AU - Germain, Sara

AU - Liu, Heming

AU - Smokey, Joseph

AU - Su, Sheng Hsin

AU - Butt, Nathalie

AU - Chu, Chengjin

AU - Chuyong, George

AU - Chang-Yang, Chia Hao

AU - Dattaraja, H. S.

AU - Davies, Stuart

AU - Ediriweera, Sisira

AU - Esufali, Shameema

AU - Fletcher, Christine Dawn

AU - Gunatilleke, Nimal

AU - Gunatilleke, Savi

AU - Hsieh, Chang Fu

AU - He, Fangliang

AU - Hubbell, Stephen

AU - Hao, Zhanqing

AU - Itoh, Akira

AU - Kenfack, David

AU - Li, Buhang

AU - Li, Xiankun

AU - Ma, Keping

AU - Morecroft, Michael

AU - Mi, Xiangcheng

AU - Malhi, Yadvinder

AU - Ong, Perry

AU - Rodriguez, Lillian Jennifer

AU - Suresh, H. S.

AU - Fang Sun, I.

AU - Sukumar, Raman

AU - Tan, Sylvester

AU - Thomas, Duncan

AU - Uriarte, Maria

AU - Wang, Xihua

AU - Wang, Xugao

AU - L. Yao, T.

AU - Zimmermann, Jess

AU - Wills, Christopher

N1 - Publisher Copyright: This is an open access article, free of all copyright, and may be freely reproduced, distributed, transmitted, modified, built upon, or otherwise used by anyone for any lawful purpose. The work is made available under the Creative Commons CC0 public domain dedication.

PY - 2021/4

Y1 - 2021/4

N2 - When Darwin visited the Galapagos archipelago, he observed that, in spite of the islands' physical similarity, members of species that had dispersed to them recently were beginning to diverge from each other. He postulated that these divergences must have resulted primarily from interactions with sets of other species that had also diverged across these otherwise similar islands. By extrapolation, if Darwin is correct, such complex interactions must be driving species divergences across all ecosystems. However, many current general ecological theories that predict observed distributions of species in ecosystems do not take the details of between-species interactions into account. Here we quantify, in sixteen forest diversity plots (FDPs) worldwide, highly significant negative density-dependent (NDD) components of both conspecific and heterospecific between-Tree interactions that affect the trees' distributions, growth, recruitment, and mortality. These interactions decline smoothly in significance with increasing physical distance between trees. They also tend to decline in significance with increasing phylogenetic distance between the trees, but each FDP exhibits its own unique pattern of exceptions to this overall decline. Unique patterns of between-species interactions in ecosystems, of the general type that Darwin postulated, are likely to have contributed to the exceptions. We test the power of our null-model method by using a deliberately modified data set, and show that the method easily identifies the modifications. We examine how some of the exceptions, at the Wind River (USA) FDP, reveal new details of a known allelopathic effect of one of the Wind River gymnosperm species. Finally, we explore how similar analyses can be used to investigate details of many types of interactions in these complex ecosystems, and can provide clues to the evolution of these interactions.

AB - When Darwin visited the Galapagos archipelago, he observed that, in spite of the islands' physical similarity, members of species that had dispersed to them recently were beginning to diverge from each other. He postulated that these divergences must have resulted primarily from interactions with sets of other species that had also diverged across these otherwise similar islands. By extrapolation, if Darwin is correct, such complex interactions must be driving species divergences across all ecosystems. However, many current general ecological theories that predict observed distributions of species in ecosystems do not take the details of between-species interactions into account. Here we quantify, in sixteen forest diversity plots (FDPs) worldwide, highly significant negative density-dependent (NDD) components of both conspecific and heterospecific between-Tree interactions that affect the trees' distributions, growth, recruitment, and mortality. These interactions decline smoothly in significance with increasing physical distance between trees. They also tend to decline in significance with increasing phylogenetic distance between the trees, but each FDP exhibits its own unique pattern of exceptions to this overall decline. Unique patterns of between-species interactions in ecosystems, of the general type that Darwin postulated, are likely to have contributed to the exceptions. We test the power of our null-model method by using a deliberately modified data set, and show that the method easily identifies the modifications. We examine how some of the exceptions, at the Wind River (USA) FDP, reveal new details of a known allelopathic effect of one of the Wind River gymnosperm species. Finally, we explore how similar analyses can be used to investigate details of many types of interactions in these complex ecosystems, and can provide clues to the evolution of these interactions.

UR - https://www.scopus.com/pages/publications/85105067072

U2 - 10.1371/journal.pcbi.1008853

DO - 10.1371/journal.pcbi.1008853

M3 - 文章

C2 - 33914731

AN - SCOPUS:85105067072

SN - 1553-734X

VL - 17

JO - PLoS Computational Biology

JF - PLoS Computational Biology

IS - 4

M1 - e1008853

ER -

Interactions between all pairs of neighboring trees in 16 forests worldwide reveal details of unique ecological processes in each forest, and provide windows into their evolutionary histories

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