Hua, F., Wang, W., Nakagawa, S., Liu, S., Miao, X., Yu, L., Du, Z., Abrahamczyk, S., Arias-Sosa, L. A., Buda, K., Budka, M., Carrière, S. M., Chandler, R. B., Chiatante, G., Chiawo, D. O., Cresswell, W., Echeverri, A., Goodale, E., Huang, G., ... Elsen, P. R. (2024). Ecological filtering shapes the impacts of agricultural deforestation on biodiversity. Nature Ecology and Evolution, 8(2), 251-266. https://doi.org/10.1038/s41559-023-02280-w
@article{18a93ccfa122495da1e9387b6c2495bd,
title = "Ecological filtering shapes the impacts of agricultural deforestation on biodiversity",
abstract = "The biodiversity impacts of agricultural deforestation vary widely across regions. Previous efforts to explain this variation have focused exclusively on the landscape features and management regimes of agricultural systems, neglecting the potentially critical role of ecological filtering in shaping deforestation tolerance of extant species assemblages at large geographical scales via selection for functional traits. Here we provide a large-scale test of this role using a global database of species abundance ratios between matched agricultural and native forest sites that comprises 71 avian assemblages reported in 44 primary studies, and a companion database of 10 functional traits for all 2,647 species involved. Using meta-analytic, phylogenetic and multivariate methods, we show that beyond agricultural features, filtering by the extent of natural environmental variability and the severity of historical anthropogenic deforestation shapes the varying deforestation impacts across species assemblages. For assemblages under greater environmental variability—proxied by drier and more seasonal climates under a greater disturbance regime—and longer deforestation histories, filtering has attenuated the negative impacts of current deforestation by selecting for functional traits linked to stronger deforestation tolerance. Our study provides a previously largely missing piece of knowledge in understanding and managing the biodiversity consequences of deforestation by agricultural deforestation.",
author = "Fangyuan Hua and Weiyi Wang and Shinichi Nakagawa and Shuangqi Liu and Xinran Miao and Le Yu and Zhenrong Du and Stefan Abrahamczyk and Arias-Sosa, {Luis Alejandro} and Kinga Buda and Micha{\l} Budka and Carri{\`e}re, {St{\'e}phanie M.} and Chandler, {Richard B.} and Gianpasquale Chiatante and Chiawo, {David O.} and Will Cresswell and Alejandra Echeverri and Eben Goodale and Guohualing Huang and Hulme, {Mark F.} and Hutto, {Richard L.} and Imboma, {Titus S.} and Crinan Jarrett and Zhigang Jiang and Kati, {Vassiliki I.} and King, {David I.} and Primo{\v z} Kmecl and Na Li and L{\"o}vei, {G{\'a}bor L.} and Leandro Macchi and Ian MacGregor-Fors and Martin, {Emily A.} and Ant{\'o}nio Mira and Federico Morelli and Rub{\'e}n Ortega-{\'A}lvarez and Quan, {Rui Chang} and Salgueiro, {Pedro A.} and Santos, {Sara M.} and Ghazala Shahabuddin and Socolar, {Jacob B.} and Soh, {Malcolm C.K.} and Rachakonda Sreekar and Umesh Srinivasan and Wilcove, {David S.} and Yuichi Yamaura and Liping Zhou and Elsen, {Paul R.}",
note = "Publisher Copyright: {\textcopyright} 2024, The Author(s), under exclusive licence to Springer Nature Limited.",
year = "2024",
month = jan,
day = "5",
doi = "10.1038/s41559-023-02280-w",
language = "English",
volume = "8",
pages = "251--266",
journal = "Nature Ecology and Evolution",
issn = "2397-334X",
number = "2",
}
Hua, F, Wang, W, Nakagawa, S, Liu, S, Miao, X, Yu, L, Du, Z, Abrahamczyk, S, Arias-Sosa, LA, Buda, K, Budka, M, Carrière, SM, Chandler, RB, Chiatante, G, Chiawo, DO, Cresswell, W, Echeverri, A, Goodale, E, Huang, G, Hulme, MF, Hutto, RL, Imboma, TS, Jarrett, C, Jiang, Z, Kati, VI, King, DI, Kmecl, P, Li, N, Lövei, GL, Macchi, L, MacGregor-Fors, I, Martin, EA, Mira, A, Morelli, F, Ortega-Álvarez, R, Quan, RC, Salgueiro, PA, Santos, SM, Shahabuddin, G, Socolar, JB, Soh, MCK, Sreekar, R, Srinivasan, U, Wilcove, DS, Yamaura, Y, Zhou, L & Elsen, PR 2024, 'Ecological filtering shapes the impacts of agricultural deforestation on biodiversity', Nature Ecology and Evolution, vol. 8, no. 2, pp. 251-266. https://doi.org/10.1038/s41559-023-02280-w
TY - JOUR
T1 - Ecological filtering shapes the impacts of agricultural deforestation on biodiversity
AU - Hua, Fangyuan
AU - Wang, Weiyi
AU - Nakagawa, Shinichi
AU - Liu, Shuangqi
AU - Miao, Xinran
AU - Yu, Le
AU - Du, Zhenrong
AU - Abrahamczyk, Stefan
AU - Arias-Sosa, Luis Alejandro
AU - Buda, Kinga
AU - Budka, Michał
AU - Carrière, Stéphanie M.
AU - Chandler, Richard B.
AU - Chiatante, Gianpasquale
AU - Chiawo, David O.
AU - Cresswell, Will
AU - Echeverri, Alejandra
AU - Goodale, Eben
AU - Huang, Guohualing
AU - Hulme, Mark F.
AU - Hutto, Richard L.
AU - Imboma, Titus S.
AU - Jarrett, Crinan
AU - Jiang, Zhigang
AU - Kati, Vassiliki I.
AU - King, David I.
AU - Kmecl, Primož
AU - Li, Na
AU - Lövei, Gábor L.
AU - Macchi, Leandro
AU - MacGregor-Fors, Ian
AU - Martin, Emily A.
AU - Mira, António
AU - Morelli, Federico
AU - Ortega-Álvarez, Rubén
AU - Quan, Rui Chang
AU - Salgueiro, Pedro A.
AU - Santos, Sara M.
AU - Shahabuddin, Ghazala
AU - Socolar, Jacob B.
AU - Soh, Malcolm C.K.
AU - Sreekar, Rachakonda
AU - Srinivasan, Umesh
AU - Wilcove, David S.
AU - Yamaura, Yuichi
AU - Zhou, Liping
AU - Elsen, Paul R.
N1 - Publisher Copyright:
© 2024, The Author(s), under exclusive licence to Springer Nature Limited.
PY - 2024/1/5
Y1 - 2024/1/5
N2 - The biodiversity impacts of agricultural deforestation vary widely across regions. Previous efforts to explain this variation have focused exclusively on the landscape features and management regimes of agricultural systems, neglecting the potentially critical role of ecological filtering in shaping deforestation tolerance of extant species assemblages at large geographical scales via selection for functional traits. Here we provide a large-scale test of this role using a global database of species abundance ratios between matched agricultural and native forest sites that comprises 71 avian assemblages reported in 44 primary studies, and a companion database of 10 functional traits for all 2,647 species involved. Using meta-analytic, phylogenetic and multivariate methods, we show that beyond agricultural features, filtering by the extent of natural environmental variability and the severity of historical anthropogenic deforestation shapes the varying deforestation impacts across species assemblages. For assemblages under greater environmental variability—proxied by drier and more seasonal climates under a greater disturbance regime—and longer deforestation histories, filtering has attenuated the negative impacts of current deforestation by selecting for functional traits linked to stronger deforestation tolerance. Our study provides a previously largely missing piece of knowledge in understanding and managing the biodiversity consequences of deforestation by agricultural deforestation.
AB - The biodiversity impacts of agricultural deforestation vary widely across regions. Previous efforts to explain this variation have focused exclusively on the landscape features and management regimes of agricultural systems, neglecting the potentially critical role of ecological filtering in shaping deforestation tolerance of extant species assemblages at large geographical scales via selection for functional traits. Here we provide a large-scale test of this role using a global database of species abundance ratios between matched agricultural and native forest sites that comprises 71 avian assemblages reported in 44 primary studies, and a companion database of 10 functional traits for all 2,647 species involved. Using meta-analytic, phylogenetic and multivariate methods, we show that beyond agricultural features, filtering by the extent of natural environmental variability and the severity of historical anthropogenic deforestation shapes the varying deforestation impacts across species assemblages. For assemblages under greater environmental variability—proxied by drier and more seasonal climates under a greater disturbance regime—and longer deforestation histories, filtering has attenuated the negative impacts of current deforestation by selecting for functional traits linked to stronger deforestation tolerance. Our study provides a previously largely missing piece of knowledge in understanding and managing the biodiversity consequences of deforestation by agricultural deforestation.
UR - http://www.scopus.com/inward/record.url?scp=85181436913&partnerID=8YFLogxK
U2 - 10.1038/s41559-023-02280-w
DO - 10.1038/s41559-023-02280-w
M3 - Article
C2 - 38182682
AN - SCOPUS:85181436913
SN - 2397-334X
VL - 8
SP - 251
EP - 266
JO - Nature Ecology and Evolution
JF - Nature Ecology and Evolution
IS - 2
ER -