Latitudinal scaling of aggregation with abundance and coexistence in forests

Thorsten Wiegand; Xugao Wang; Samuel M. Fischer; Nathan J.B. Kraft; Norman A. Bourg; Warren Y. Brockelman; Guanghong Cao; Min Cao; Wirong Chanthorn; Chengjin Chu; Stuart Davies; Sisira Ediriweera; C. V.Savitri Gunatilleke; I. A.U.Nimal Gunatilleke; Zhanqing Hao; Robert Howe; Mingxi Jiang; Guangze Jin; W. John Kress; Buhang Li; Juyu Lian; Luxiang Lin; Feng Liu; Keping Ma; William McShea; Xiangcheng Mi; Jonathan A. Myers; Anuttara Nathalang; David A. Orwig; Guochun Shen; Sheng Hsin Su; I. Fang Sun; Xihua Wang; Amy Wolf; Enrong Yan; Wanhui Ye; Yan Zhu; Andreas Huth

doi:10.1038/s41586-025-08604-z

Latitudinal scaling of aggregation with abundance and coexistence in forests

Thorsten Wiegand
, Xugao Wang^*
, Samuel M. Fischer
, Nathan J.B. Kraft
, Norman A. Bourg
, Warren Y. Brockelman
, Guanghong Cao
, Min Cao
, Wirong Chanthorn
, Chengjin Chu
, Stuart Davies
, Sisira Ediriweera
, C. V.Savitri Gunatilleke
, I. A.U.Nimal Gunatilleke
, Zhanqing Hao
, Robert Howe
, Mingxi Jiang
, Guangze Jin
, W. John Kress
, Buhang Li

Juyu Lian, Luxiang Lin, Feng Liu, Keping Ma, William McShea, Xiangcheng Mi, Jonathan A. Myers, Anuttara Nathalang, David A. Orwig, Guochun Shen, Sheng Hsin Su, I. Fang Sun, Xihua Wang, Amy Wolf, Enrong Yan, Wanhui Ye, Yan Zhu, Andreas Huth

^*Corresponding author for this work

School of Ecology and Environmental Sciences

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

The search for simple principles that underlie the spatial structure and dynamics of plant communities is a long-standing challenge in ecology^{1, 2, 3, 4, 5–6}. In particular, the relationship between species coexistence and the spatial distribution of plants is challenging to resolve in species-rich communities^{7, 8–9}. Here we present a comprehensive analysis of the spatial patterns of 720 tree species in 21 large forest plots and their consequences for species coexistence. We show that species with low abundance tend to be more spatially aggregated than more abundant species. Moreover, there is a latitudinal gradient in the strength of this negative aggregation–abundance relationship that increases from tropical to temperate forests. We suggest, in line with recent work¹⁰, that latitudinal gradients in animal seed dispersal¹¹ and mycorrhizal associations^{12, 13–14} may jointly generate this pattern. By integrating the observed spatial patterns into population models⁸, we derive the conditions under which species can invade from low abundance in terms of spatial patterns, demography, niche overlap and immigration. Evaluation of the spatial-invasion condition for the 720 tree species analysed suggests that temperate and tropical forests both meet the invasion criterion to a similar extent but through contrasting strategies conditioned by their spatial patterns. Our approach opens up new avenues for the integration of observed spatial patterns into ecological theory and underscores the need to understand the interaction among spatial patterns at the neighbourhood scale and multiple ecological processes in greater detail.

Original language	English
Pages (from-to)	967-973
Number of pages	7
Journal	Nature
Volume	640
Issue number	8060
DOIs	https://doi.org/10.1038/s41586-025-08604-z
State	Published - 24 Apr 2025

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Wiegand, T., Wang, X., Fischer, S. M., Kraft, N. J. B., Bourg, N. A., Brockelman, W. Y., Cao, G., Cao, M., Chanthorn, W., Chu, C., Davies, S., Ediriweera, S., Gunatilleke, C. V. S., Gunatilleke, I. A. U. N., Hao, Z., Howe, R., Jiang, M., Jin, G., Kress, W. J., ... Huth, A. (2025). Latitudinal scaling of aggregation with abundance and coexistence in forests. Nature, 640(8060), 967-973. https://doi.org/10.1038/s41586-025-08604-z

@article{ee5b2df6bfa14a7397eee4854db798c7,

title = "Latitudinal scaling of aggregation with abundance and coexistence in forests",

abstract = "The search for simple principles that underlie the spatial structure and dynamics of plant communities is a long-standing challenge in ecology1, 2, 3, 4, 5–6. In particular, the relationship between species coexistence and the spatial distribution of plants is challenging to resolve in species-rich communities7, 8–9. Here we present a comprehensive analysis of the spatial patterns of 720 tree species in 21 large forest plots and their consequences for species coexistence. We show that species with low abundance tend to be more spatially aggregated than more abundant species. Moreover, there is a latitudinal gradient in the strength of this negative aggregation–abundance relationship that increases from tropical to temperate forests. We suggest, in line with recent work10, that latitudinal gradients in animal seed dispersal11 and mycorrhizal associations12, 13–14 may jointly generate this pattern. By integrating the observed spatial patterns into population models8, we derive the conditions under which species can invade from low abundance in terms of spatial patterns, demography, niche overlap and immigration. Evaluation of the spatial-invasion condition for the 720 tree species analysed suggests that temperate and tropical forests both meet the invasion criterion to a similar extent but through contrasting strategies conditioned by their spatial patterns. Our approach opens up new avenues for the integration of observed spatial patterns into ecological theory and underscores the need to understand the interaction among spatial patterns at the neighbourhood scale and multiple ecological processes in greater detail.",

author = "Thorsten Wiegand and Xugao Wang and Fischer, \{Samuel M.\} and Kraft, \{Nathan J.B.\} and Bourg, \{Norman A.\} and Brockelman, \{Warren Y.\} and Guanghong Cao and Min Cao and Wirong Chanthorn and Chengjin Chu and Stuart Davies and Sisira Ediriweera and Gunatilleke, \{C. V.Savitri\} and Gunatilleke, \{I. A.U.Nimal\} and Zhanqing Hao and Robert Howe and Mingxi Jiang and Guangze Jin and Kress, \{W. John\} and Buhang Li and Juyu Lian and Luxiang Lin and Feng Liu and Keping Ma and William McShea and Xiangcheng Mi and Myers, \{Jonathan A.\} and Anuttara Nathalang and Orwig, \{David A.\} and Guochun Shen and Su, \{Sheng Hsin\} and Sun, \{I. Fang\} and Xihua Wang and Amy Wolf and Enrong Yan and Wanhui Ye and Yan Zhu and Andreas Huth",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2025.",

year = "2025",

month = apr,

day = "24",

doi = "10.1038/s41586-025-08604-z",

language = "英语",

volume = "640",

pages = "967--973",

journal = "Nature",

issn = "0028-0836",

publisher = "Nature Research",

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Wiegand, T, Wang, X, Fischer, SM, Kraft, NJB, Bourg, NA, Brockelman, WY, Cao, G, Cao, M, Chanthorn, W, Chu, C, Davies, S, Ediriweera, S, Gunatilleke, CVS, Gunatilleke, IAUN, Hao, Z, Howe, R, Jiang, M, Jin, G, Kress, WJ, Li, B, Lian, J, Lin, L, Liu, F, Ma, K, McShea, W, Mi, X, Myers, JA, Nathalang, A, Orwig, DA, Shen, G, Su, SH, Sun, IF, Wang, X, Wolf, A, Yan, E, Ye, W, Zhu, Y & Huth, A 2025, 'Latitudinal scaling of aggregation with abundance and coexistence in forests', Nature, vol. 640, no. 8060, pp. 967-973. https://doi.org/10.1038/s41586-025-08604-z

TY - JOUR

T1 - Latitudinal scaling of aggregation with abundance and coexistence in forests

AU - Wiegand, Thorsten

AU - Wang, Xugao

AU - Fischer, Samuel M.

AU - Kraft, Nathan J.B.

AU - Bourg, Norman A.

AU - Brockelman, Warren Y.

AU - Cao, Guanghong

AU - Cao, Min

AU - Chanthorn, Wirong

AU - Chu, Chengjin

AU - Davies, Stuart

AU - Ediriweera, Sisira

AU - Gunatilleke, C. V.Savitri

AU - Gunatilleke, I. A.U.Nimal

AU - Hao, Zhanqing

AU - Howe, Robert

AU - Jiang, Mingxi

AU - Jin, Guangze

AU - Kress, W. John

AU - Li, Buhang

AU - Lian, Juyu

AU - Lin, Luxiang

AU - Liu, Feng

AU - Ma, Keping

AU - McShea, William

AU - Mi, Xiangcheng

AU - Myers, Jonathan A.

AU - Nathalang, Anuttara

AU - Orwig, David A.

AU - Shen, Guochun

AU - Su, Sheng Hsin

AU - Sun, I. Fang

AU - Wang, Xihua

AU - Wolf, Amy

AU - Yan, Enrong

AU - Ye, Wanhui

AU - Zhu, Yan

AU - Huth, Andreas

PY - 2025/4/24

Y1 - 2025/4/24

N2 - The search for simple principles that underlie the spatial structure and dynamics of plant communities is a long-standing challenge in ecology1, 2, 3, 4, 5–6. In particular, the relationship between species coexistence and the spatial distribution of plants is challenging to resolve in species-rich communities7, 8–9. Here we present a comprehensive analysis of the spatial patterns of 720 tree species in 21 large forest plots and their consequences for species coexistence. We show that species with low abundance tend to be more spatially aggregated than more abundant species. Moreover, there is a latitudinal gradient in the strength of this negative aggregation–abundance relationship that increases from tropical to temperate forests. We suggest, in line with recent work10, that latitudinal gradients in animal seed dispersal11 and mycorrhizal associations12, 13–14 may jointly generate this pattern. By integrating the observed spatial patterns into population models8, we derive the conditions under which species can invade from low abundance in terms of spatial patterns, demography, niche overlap and immigration. Evaluation of the spatial-invasion condition for the 720 tree species analysed suggests that temperate and tropical forests both meet the invasion criterion to a similar extent but through contrasting strategies conditioned by their spatial patterns. Our approach opens up new avenues for the integration of observed spatial patterns into ecological theory and underscores the need to understand the interaction among spatial patterns at the neighbourhood scale and multiple ecological processes in greater detail.

AB - The search for simple principles that underlie the spatial structure and dynamics of plant communities is a long-standing challenge in ecology1, 2, 3, 4, 5–6. In particular, the relationship between species coexistence and the spatial distribution of plants is challenging to resolve in species-rich communities7, 8–9. Here we present a comprehensive analysis of the spatial patterns of 720 tree species in 21 large forest plots and their consequences for species coexistence. We show that species with low abundance tend to be more spatially aggregated than more abundant species. Moreover, there is a latitudinal gradient in the strength of this negative aggregation–abundance relationship that increases from tropical to temperate forests. We suggest, in line with recent work10, that latitudinal gradients in animal seed dispersal11 and mycorrhizal associations12, 13–14 may jointly generate this pattern. By integrating the observed spatial patterns into population models8, we derive the conditions under which species can invade from low abundance in terms of spatial patterns, demography, niche overlap and immigration. Evaluation of the spatial-invasion condition for the 720 tree species analysed suggests that temperate and tropical forests both meet the invasion criterion to a similar extent but through contrasting strategies conditioned by their spatial patterns. Our approach opens up new avenues for the integration of observed spatial patterns into ecological theory and underscores the need to understand the interaction among spatial patterns at the neighbourhood scale and multiple ecological processes in greater detail.

UR - https://www.scopus.com/pages/publications/85218788265

U2 - 10.1038/s41586-025-08604-z

DO - 10.1038/s41586-025-08604-z

M3 - 文章

C2 - 40011772

AN - SCOPUS:85218788265

SN - 0028-0836

VL - 640

SP - 967

EP - 973

JO - Nature

JF - Nature

IS - 8060

ER -

Latitudinal scaling of aggregation with abundance and coexistence in forests

Abstract

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