Landscape-level human disturbance results in loss and contraction of mammalian populations in tropical forests

Ilaria Greco; Lydia Beaudrot; Chris Sutherland; Simone Tenan; Chia Hsieh; Daniel Gorczynski; Douglas Sheil; Jedediah Brodie; Mohammad Firoz Ahmed; Jorge Ahumada; Rajan Amin; Megan Baker-Watton; Ramie Husneara Begum; Francesco Bisi; Robert Bitariho; Ahimsa Campos-Arceiz; Elildo A.R. Carvalho; Daniel Cornélis; Giacomo Cremonesi; Virgínia Londe de Camargos; Iariaella Elimanantsoa; Santiago Espinosa; Adeline Fayolle; Davy Fonteyn; Abishek Harihar; Harry Hilser; Alys Granados; Patrick A. Jansen; Jayasilan Mohd-Azlan; Caspian Johnson; Steig Johnson; Dipankar Lahkar; Marcela Guimarães Moreira Lima; Matthew Scott Luskin; Marcelo Magioli; Emanuel H. Martin; Adriano Martinoli; Ronaldo Gonçalves Morato; Badru Mugerwa; Lain E. Pardo; Julia Salvador; Fernanda Santos; Cédric Vermeulen; Patricia C. Wright; Francesco Rovero

doi:10.1371/journal.pbio.3002976

Landscape-level human disturbance results in loss and contraction of mammalian populations in tropical forests

Ilaria Greco, Lydia Beaudrot, Chris Sutherland, Simone Tenan, Chia Hsieh, Daniel Gorczynski, Douglas Sheil, Jedediah Brodie, Mohammad Firoz Ahmed, Jorge Ahumada, Rajan Amin, Megan Baker-Watton, Ramie Husneara Begum, Francesco Bisi, Robert Bitariho, Ahimsa Campos-Arceiz, Elildo A.R. Carvalho, Daniel Cornélis, Giacomo Cremonesi, Virgínia Londe de CamargosIariaella Elimanantsoa, Santiago Espinosa, Adeline Fayolle, Davy Fonteyn, Abishek Harihar, Harry Hilser, Alys Granados, Patrick A. Jansen, Jayasilan Mohd-Azlan, Caspian Johnson, Steig Johnson, Dipankar Lahkar, Marcela Guimarães Moreira Lima, Matthew Scott Luskin, Marcelo Magioli, Emanuel H. Martin, Adriano Martinoli, Ronaldo Gonçalves Morato, Badru Mugerwa, Lain E. Pardo, Julia Salvador, Fernanda Santos, Cédric Vermeulen, Patricia C. Wright, Francesco Rovero

Biological Sciences

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

Abstract

Tropical forests hold most of Earth’s biodiversity and a higher concentration of threatened mammals than other biomes. As a result, some mammal species persist almost exclusively in protected areas, often within extensively transformed and heavily populated landscapes. Other species depend on remaining remote forested areas with sparse human populations. However, it remains unclear how mammalian communities in tropical forests respond to anthropogenic pressures in the broader landscape in which they are embedded. As governments commit to increasing the extent of global protected areas to prevent further biodiversity loss, identifying the landscape-level conditions supporting wildlife has become essential. Here, we assessed the relationship between mammal communities and anthropogenic threats in the broader landscape. We simultaneously modeled species richness and community occupancy as complementary metrics of community structure, using a state-of-the-art community model parameterized with a standardized pan-tropical data set of 239 mammal species from 37 forests across 3 continents. Forest loss and fragmentation within a 50-km buffer were associated with reduced occupancy in monitored communities, while species richness was unaffected by them. In contrast, landscape-scale human density was associated with reduced mammal richness but not occupancy, suggesting that sensitive species have been extirpated, while remaining taxa are relatively unaffected. Taken together, these results provide evidence of extinction filtering within tropical forests triggered by anthropogenic pressure occurring in the broader landscape. Therefore, existing and new reserves may not achieve the desired biodiversity outcomes without concurrent investment in addressing landscape-scale threats.

Original language	English
Article number	e3002976
Journal	PLoS Biology
Volume	23
Issue number	2
DOIs	https://doi.org/10.1371/journal.pbio.3002976
State	Published - Feb 13 2025

Keywords

Animals
Mammals/physiology
Humans
Biodiversity
Forests
Tropical Climate
Conservation of Natural Resources/methods
Ecosystem
Population Dynamics
Human Activities

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10.1371/journal.pbio.3002976

Cite this

Greco, I., Beaudrot, L., Sutherland, C., Tenan, S., Hsieh, C., Gorczynski, D., Sheil, D., Brodie, J., Ahmed, M. F., Ahumada, J., Amin, R., Baker-Watton, M., Begum, R. H., Bisi, F., Bitariho, R., Campos-Arceiz, A., Carvalho, E. A. R., Cornélis, D., Cremonesi, G., ... Rovero, F. (2025). Landscape-level human disturbance results in loss and contraction of mammalian populations in tropical forests. PLoS Biology, 23(2), Article e3002976. https://doi.org/10.1371/journal.pbio.3002976

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title = "Landscape-level human disturbance results in loss and contraction of mammalian populations in tropical forests",

abstract = "Tropical forests hold most of Earth{\textquoteright}s biodiversity and a higher concentration of threatened mammals than other biomes. As a result, some mammal species persist almost exclusively in protected areas, often within extensively transformed and heavily populated landscapes. Other species depend on remaining remote forested areas with sparse human populations. However, it remains unclear how mammalian communities in tropical forests respond to anthropogenic pressures in the broader landscape in which they are embedded. As governments commit to increasing the extent of global protected areas to prevent further biodiversity loss, identifying the landscape-level conditions supporting wildlife has become essential. Here, we assessed the relationship between mammal communities and anthropogenic threats in the broader landscape. We simultaneously modeled species richness and community occupancy as complementary metrics of community structure, using a state-of-the-art community model parameterized with a standardized pan-tropical data set of 239 mammal species from 37 forests across 3 continents. Forest loss and fragmentation within a 50-km buffer were associated with reduced occupancy in monitored communities, while species richness was unaffected by them. In contrast, landscape-scale human density was associated with reduced mammal richness but not occupancy, suggesting that sensitive species have been extirpated, while remaining taxa are relatively unaffected. Taken together, these results provide evidence of extinction filtering within tropical forests triggered by anthropogenic pressure occurring in the broader landscape. Therefore, existing and new reserves may not achieve the desired biodiversity outcomes without concurrent investment in addressing landscape-scale threats.",

keywords = "Animals, Mammals/physiology, Humans, Biodiversity, Forests, Tropical Climate, Conservation of Natural Resources/methods, Ecosystem, Population Dynamics, Human Activities",

author = "Ilaria Greco and Lydia Beaudrot and Chris Sutherland and Simone Tenan and Chia Hsieh and Daniel Gorczynski and Douglas Sheil and Jedediah Brodie and Ahmed, {Mohammad Firoz} and Jorge Ahumada and Rajan Amin and Megan Baker-Watton and Begum, {Ramie Husneara} and Francesco Bisi and Robert Bitariho and Ahimsa Campos-Arceiz and Carvalho, {Elildo A.R.} and Daniel Corn{\'e}lis and Giacomo Cremonesi and {de Camargos}, {Virg{\'i}nia Londe} and Iariaella Elimanantsoa and Santiago Espinosa and Adeline Fayolle and Davy Fonteyn and Abishek Harihar and Harry Hilser and Alys Granados and Jansen, {Patrick A.} and Jayasilan Mohd-Azlan and Caspian Johnson and Steig Johnson and Dipankar Lahkar and Lima, {Marcela Guimar{\~a}es Moreira} and Luskin, {Matthew Scott} and Marcelo Magioli and Martin, {Emanuel H.} and Adriano Martinoli and Morato, {Ronaldo Gon{\c c}alves} and Badru Mugerwa and Pardo, {Lain E.} and Julia Salvador and Fernanda Santos and C{\'e}dric Vermeulen and Wright, {Patricia C.} and Francesco Rovero",

note = "Publisher Copyright: {\textcopyright} 2025 Greco et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. Copyright: {\textcopyright} 2025 Greco et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.",

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Greco, I, Beaudrot, L, Sutherland, C, Tenan, S, Hsieh, C, Gorczynski, D, Sheil, D, Brodie, J, Ahmed, MF, Ahumada, J, Amin, R, Baker-Watton, M, Begum, RH, Bisi, F, Bitariho, R, Campos-Arceiz, A, Carvalho, EAR, Cornélis, D, Cremonesi, G, de Camargos, VL, Elimanantsoa, I, Espinosa, S, Fayolle, A, Fonteyn, D, Harihar, A, Hilser, H, Granados, A, Jansen, PA, Mohd-Azlan, J, Johnson, C, Johnson, S, Lahkar, D, Lima, MGM, Luskin, MS, Magioli, M, Martin, EH, Martinoli, A, Morato, RG, Mugerwa, B, Pardo, LE, Salvador, J, Santos, F, Vermeulen, C, Wright, PC & Rovero, F 2025, 'Landscape-level human disturbance results in loss and contraction of mammalian populations in tropical forests', PLoS Biology, vol. 23, no. 2, e3002976. https://doi.org/10.1371/journal.pbio.3002976

TY - JOUR

T1 - Landscape-level human disturbance results in loss and contraction of mammalian populations in tropical forests

AU - Greco, Ilaria

AU - Beaudrot, Lydia

AU - Sutherland, Chris

AU - Tenan, Simone

AU - Hsieh, Chia

AU - Gorczynski, Daniel

AU - Sheil, Douglas

AU - Brodie, Jedediah

AU - Ahmed, Mohammad Firoz

AU - Ahumada, Jorge

AU - Amin, Rajan

AU - Baker-Watton, Megan

AU - Begum, Ramie Husneara

AU - Bisi, Francesco

AU - Bitariho, Robert

AU - Campos-Arceiz, Ahimsa

AU - Carvalho, Elildo A.R.

AU - Cornélis, Daniel

AU - Cremonesi, Giacomo

AU - de Camargos, Virgínia Londe

AU - Elimanantsoa, Iariaella

AU - Espinosa, Santiago

AU - Fayolle, Adeline

AU - Fonteyn, Davy

AU - Harihar, Abishek

AU - Hilser, Harry

AU - Granados, Alys

AU - Jansen, Patrick A.

AU - Mohd-Azlan, Jayasilan

AU - Johnson, Caspian

AU - Johnson, Steig

AU - Lahkar, Dipankar

AU - Lima, Marcela Guimarães Moreira

AU - Luskin, Matthew Scott

AU - Magioli, Marcelo

AU - Martin, Emanuel H.

AU - Martinoli, Adriano

AU - Morato, Ronaldo Gonçalves

AU - Mugerwa, Badru

AU - Pardo, Lain E.

AU - Salvador, Julia

AU - Santos, Fernanda

AU - Vermeulen, Cédric

AU - Wright, Patricia C.

AU - Rovero, Francesco

N1 - Publisher Copyright: © 2025 Greco et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. Copyright: © 2025 Greco et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

PY - 2025/2/13

Y1 - 2025/2/13

N2 - Tropical forests hold most of Earth’s biodiversity and a higher concentration of threatened mammals than other biomes. As a result, some mammal species persist almost exclusively in protected areas, often within extensively transformed and heavily populated landscapes. Other species depend on remaining remote forested areas with sparse human populations. However, it remains unclear how mammalian communities in tropical forests respond to anthropogenic pressures in the broader landscape in which they are embedded. As governments commit to increasing the extent of global protected areas to prevent further biodiversity loss, identifying the landscape-level conditions supporting wildlife has become essential. Here, we assessed the relationship between mammal communities and anthropogenic threats in the broader landscape. We simultaneously modeled species richness and community occupancy as complementary metrics of community structure, using a state-of-the-art community model parameterized with a standardized pan-tropical data set of 239 mammal species from 37 forests across 3 continents. Forest loss and fragmentation within a 50-km buffer were associated with reduced occupancy in monitored communities, while species richness was unaffected by them. In contrast, landscape-scale human density was associated with reduced mammal richness but not occupancy, suggesting that sensitive species have been extirpated, while remaining taxa are relatively unaffected. Taken together, these results provide evidence of extinction filtering within tropical forests triggered by anthropogenic pressure occurring in the broader landscape. Therefore, existing and new reserves may not achieve the desired biodiversity outcomes without concurrent investment in addressing landscape-scale threats.

AB - Tropical forests hold most of Earth’s biodiversity and a higher concentration of threatened mammals than other biomes. As a result, some mammal species persist almost exclusively in protected areas, often within extensively transformed and heavily populated landscapes. Other species depend on remaining remote forested areas with sparse human populations. However, it remains unclear how mammalian communities in tropical forests respond to anthropogenic pressures in the broader landscape in which they are embedded. As governments commit to increasing the extent of global protected areas to prevent further biodiversity loss, identifying the landscape-level conditions supporting wildlife has become essential. Here, we assessed the relationship between mammal communities and anthropogenic threats in the broader landscape. We simultaneously modeled species richness and community occupancy as complementary metrics of community structure, using a state-of-the-art community model parameterized with a standardized pan-tropical data set of 239 mammal species from 37 forests across 3 continents. Forest loss and fragmentation within a 50-km buffer were associated with reduced occupancy in monitored communities, while species richness was unaffected by them. In contrast, landscape-scale human density was associated with reduced mammal richness but not occupancy, suggesting that sensitive species have been extirpated, while remaining taxa are relatively unaffected. Taken together, these results provide evidence of extinction filtering within tropical forests triggered by anthropogenic pressure occurring in the broader landscape. Therefore, existing and new reserves may not achieve the desired biodiversity outcomes without concurrent investment in addressing landscape-scale threats.

KW - Animals

KW - Mammals/physiology

KW - Humans

KW - Biodiversity

KW - Forests

KW - Tropical Climate

KW - Conservation of Natural Resources/methods

KW - Ecosystem

KW - Population Dynamics

KW - Human Activities

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AN - SCOPUS:85217956134

SN - 1544-9173

VL - 23

JO - PLoS Biology

JF - PLoS Biology

IS - 2

M1 - e3002976

ER -

Landscape-level human disturbance results in loss and contraction of mammalian populations in tropical forests

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Keywords

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