High-quality surrounding landscapes mitigate avian extirpations from forest remnants

Anderson S. Bueno; Chase D. Mendenhall; Marina Anciães; Luiz dos Anjos; Víctor Arroyo-Rodríguez; Marco Aurélio-Silva; Cristina Banks-Leite; Matthew G. Betts; Arthur A. Bispo; Andrea Larissa Boesing; Marconi Campos-Cerqueira; Olivier Claessens; Will Cresswell; Gretchen C. Daily; Filibus Danjuma Dami; Sidnei M. Dantas; Pedro F. Develey; Ping Ding; David P. Edwards; Márcio A. Efe; Deborah Faria; Kenneth J. Feeley; Thomas W. Gillespie; Adam S. Hadley; Jack H. Hatfield; Luiza Magalli Pinto Henriques; Lars H. Holbech; Gregory J. Irving; Urs G. Kormann; M. Jyothi Krishnan; Marilise M. Krügel; Jesse R. Lasky; Michael J. Lawes; Alexander C. Lees; Luc Lens; Lahert William Lobo-Araújo; Leithen K. M’Gonigle; Mohammad Saiful Mansor; Shiiwua A. Manu; Miguel Ângelo Marini; Alexandre Camargo Martensen; Thomas J. Matthews; Jean Paul Metzger; Randall Moore; José Carlos Morante-Filho; P. O. Nameer; Shukor Md Nor; Helon Simões Oliveira; Rômulo Ribon; Viviana Ruiz-Gutiérrez; Luís Fábio Silveira; Philip C. Stouffer; John W. Terborgh; Alexandre Uezu; Yanping Wang; Robyn Wethered; Ding Li Yong; Carlos A. Peres

doi:10.1073/pnas.2521783123

High-quality surrounding landscapes mitigate avian extirpations from forest remnants

Anderson S. Bueno
, Chase D. Mendenhall
, Marina Anciães
, Luiz dos Anjos
, Víctor Arroyo-Rodríguez
, Marco Aurélio-Silva
, Cristina Banks-Leite
, Matthew G. Betts
, Arthur A. Bispo
, Andrea Larissa Boesing
, Marconi Campos-Cerqueira
, Olivier Claessens
, Will Cresswell
, Gretchen C. Daily
, Filibus Danjuma Dami
, Sidnei M. Dantas
, Pedro F. Develey
, Ping Ding
, David P. Edwards
, Márcio A. Efe

Deborah Faria, Kenneth J. Feeley, Thomas W. Gillespie, Adam S. Hadley, Jack H. Hatfield, Luiza Magalli Pinto Henriques, Lars H. Holbech, Gregory J. Irving, Urs G. Kormann, M. Jyothi Krishnan, Marilise M. Krügel, Jesse R. Lasky, Michael J. Lawes, Alexander C. Lees, Luc Lens, Lahert William Lobo-Araújo, Leithen K. M’Gonigle, Mohammad Saiful Mansor, Shiiwua A. Manu, Miguel Ângelo Marini, Alexandre Camargo Martensen, Thomas J. Matthews, Jean Paul Metzger, Randall Moore, José Carlos Morante-Filho, P. O. Nameer, Shukor Md Nor, Helon Simões Oliveira, Rômulo Ribon, Viviana Ruiz-Gutiérrez, Luís Fábio Silveira, Philip C. Stouffer, John W. Terborgh, Alexandre Uezu, Yanping Wang, Robyn Wethered, Ding Li Yong, Carlos A. Peres

Department of Animal Biology And Conservation Science

Instituto Federal de Educação Ciência e Tecnologia Farroupilha – IFFarroupilha
Slippery Rock University of Pennsylvania
Instituto Nacional de Pesquisas da Amazônia
Universidade Estadual de Londrina
Universidad Nacional Autónoma de México
National Autonomous University of Mexico
Imperial College London
Oregon State University
Universidade Federal de Goiás
University of São Paulo
Senckenberg Biodiversity and Climate Research Centre
WildMon
Groupe d’Étude et de Protection des Oiseaux en Guyane
University of St Andrews
Stanford University
University of Jos
Instituto Tecnológico Vale
SAVE Brasil
College of Life Sciences, Zhejiang University
University of Cambridge
Federal University of Alagoas
Universidade Estadual de Santa Cruz
University of Miami
University of California at Los Angeles
New Brunswick Department of Natural Resources and Energy Development
University of York
King Mongkut's University of Technology Thonburi
Swiss Ornithological Institute
Kerala Agricultural University
Universidade Federal de Santa Maria
Pennsylvania State University
University of KwaZulu-Natal
Universiti Malaysia Sarawak
Manchester Metropolitan University
Cornell University
Ghent University
Universidade Federal de São Carlos
Simon Fraser University
Universiti Kebangsaan Malaysia
Brasília University
University of Birmingham
University of the Azores
Universidade Federal de Sergipe
Universidade Federal de Viçosa
Louisiana State University Agricultural Center
Florida Museum of Natural History
James Cook University Queensland
Instituto de Pesquisas Ecológicas
Nanjing Normal University
Cossypha Ecological
Tanglin International Centre
University of East Anglia
Yale School of Public Health
Instituto Juruá

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

Abstract

The species–area relationship (SAR) has long been used to predict extirpation rates from habitat loss, but these rates depend not only on habitat area but also on the surrounding landscape and species’ habitat specialization. We collated global data from forest islands created by river damming and forest fragments resulting from clear-cut deforestation to examine the effects of matrix type (aquatic or terrestrial) and tree cover on avian SARs. Unlike oceanic islands, which are often millions of years old, anthropogenic forest islands provide a contemporary analog to forest fragments to understand matrix effects on SARs and serve as a baseline for worst-case scenarios of forest fragmentation. Our database comprises 50 datasets from 45 studies conducted in tropical and subtropical regions, totaling 1,954 bird species detected through 39,197 incidence records from 336 forest islands and 669 forest fragments. We found that bird extirpation rates were lower in fragments than on islands, especially for forest-dependent species compared to all species. Species losses were further reduced by increasing tree cover around forest remnants at local landscape scales of 300 m, highlighting the importance of small-scale conservation strategies. Moreover, even small forest fragments with greater nearby tree cover held high conservation value, emphasizing the crucial role of the surrounding landscape in mitigating avian extirpations from forest remnants. Beyond protecting forest remnants themselves, area-based conservation efforts would therefore be greatly enhanced by improving matrix quality and expanding tree cover in otherwise hostile landscapes.

Original language	English
Article number	e2521783123
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	123
Issue number	14
DOIs	https://doi.org/10.1073/pnas.2521783123
Publication status	Published - 7 Apr 2026

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 15 Life on Land

Keywords

biodiversity conservation
biogeography
habitat fragmentation
species richness
tropical forests

Access to Document

10.1073/pnas.2521783123

Cite this

Bueno, A. S., Mendenhall, C. D., Anciães, M., dos Anjos, L., Arroyo-Rodríguez, V., Aurélio-Silva, M., Banks-Leite, C., Betts, M. G., Bispo, A. A., Boesing, A. L., Campos-Cerqueira, M., Claessens, O., Cresswell, W., Daily, G. C., Dami, F. D., Dantas, S. M., Develey, P. F., Ding, P., Edwards, D. P., ... Peres, C. A. (2026). High-quality surrounding landscapes mitigate avian extirpations from forest remnants. Proceedings of the National Academy of Sciences of the United States of America, 123(14), Article e2521783123. https://doi.org/10.1073/pnas.2521783123

@article{83e41eba5b0e4b3c8011d9dba4efa08f,

title = "High-quality surrounding landscapes mitigate avian extirpations from forest remnants",

abstract = "The species–area relationship (SAR) has long been used to predict extirpation rates from habitat loss, but these rates depend not only on habitat area but also on the surrounding landscape and species{\textquoteright} habitat specialization. We collated global data from forest islands created by river damming and forest fragments resulting from clear-cut deforestation to examine the effects of matrix type (aquatic or terrestrial) and tree cover on avian SARs. Unlike oceanic islands, which are often millions of years old, anthropogenic forest islands provide a contemporary analog to forest fragments to understand matrix effects on SARs and serve as a baseline for worst-case scenarios of forest fragmentation. Our database comprises 50 datasets from 45 studies conducted in tropical and subtropical regions, totaling 1,954 bird species detected through 39,197 incidence records from 336 forest islands and 669 forest fragments. We found that bird extirpation rates were lower in fragments than on islands, especially for forest-dependent species compared to all species. Species losses were further reduced by increasing tree cover around forest remnants at local landscape scales of 300 m, highlighting the importance of small-scale conservation strategies. Moreover, even small forest fragments with greater nearby tree cover held high conservation value, emphasizing the crucial role of the surrounding landscape in mitigating avian extirpations from forest remnants. Beyond protecting forest remnants themselves, area-based conservation efforts would therefore be greatly enhanced by improving matrix quality and expanding tree cover in otherwise hostile landscapes.",

keywords = "biodiversity conservation, biogeography, habitat fragmentation, species richness, tropical forests",

author = "Bueno, \{Anderson S.\} and Mendenhall, \{Chase D.\} and Marina Anci{\~a}es and \{dos Anjos\}, Luiz and V{\'i}ctor Arroyo-Rodr{\'i}guez and Marco Aur{\'e}lio-Silva and Cristina Banks-Leite and Betts, \{Matthew G.\} and Bispo, \{Arthur A.\} and Boesing, \{Andrea Larissa\} and Marconi Campos-Cerqueira and Olivier Claessens and Will Cresswell and Daily, \{Gretchen C.\} and Dami, \{Filibus Danjuma\} and Dantas, \{Sidnei M.\} and Develey, \{Pedro F.\} and Ping Ding and Edwards, \{David P.\} and Efe, \{M{\'a}rcio A.\} and Deborah Faria and Feeley, \{Kenneth J.\} and Gillespie, \{Thomas W.\} and Hadley, \{Adam S.\} and Hatfield, \{Jack H.\} and Henriques, \{Luiza Magalli Pinto\} and Holbech, \{Lars H.\} and Irving, \{Gregory J.\} and Kormann, \{Urs G.\} and Krishnan, \{M. Jyothi\} and Kr{\"u}gel, \{Marilise M.\} and Lasky, \{Jesse R.\} and Lawes, \{Michael J.\} and Lees, \{Alexander C.\} and Luc Lens and Lobo-Ara{\'u}jo, \{Lahert William\} and M{\textquoteright}Gonigle, \{Leithen K.\} and Mansor, \{Mohammad Saiful\} and Manu, \{Shiiwua A.\} and Marini, \{Miguel {\^A}ngelo\} and Martensen, \{Alexandre Camargo\} and Matthews, \{Thomas J.\} and Metzger, \{Jean Paul\} and Randall Moore and Morante-Filho, \{Jos{\'e} Carlos\} and Nameer, \{P. O.\} and Nor, \{Shukor Md\} and Oliveira, \{Helon Sim{\~o}es\} and R{\^o}mulo Ribon and Viviana Ruiz-Guti{\'e}rrez and Silveira, \{Lu{\'i}s F{\'a}bio\} and Stouffer, \{Philip C.\} and Terborgh, \{John W.\} and Alexandre Uezu and Yanping Wang and Robyn Wethered and Yong, \{Ding Li\} and Peres, \{Carlos A.\}",

note = "Publisher Copyright: Copyright {\textcopyright} 2026 the Author(s).",

year = "2026",

month = apr,

day = "7",

doi = "10.1073/pnas.2521783123",

language = "English",

volume = "123",

journal = "Proceedings of the National Academy of Sciences of the United States of America",

issn = "0027-8424",

publisher = "National Academy of Sciences",

number = "14",

}

Bueno, AS, Mendenhall, CD, Anciães, M, dos Anjos, L, Arroyo-Rodríguez, V, Aurélio-Silva, M, Banks-Leite, C, Betts, MG, Bispo, AA, Boesing, AL, Campos-Cerqueira, M, Claessens, O, Cresswell, W, Daily, GC, Dami, FD, Dantas, SM, Develey, PF, Ding, P, Edwards, DP, Efe, MA, Faria, D, Feeley, KJ, Gillespie, TW, Hadley, AS, Hatfield, JH, Henriques, LMP, Holbech, LH, Irving, GJ, Kormann, UG, Krishnan, MJ, Krügel, MM, Lasky, JR, Lawes, MJ, Lees, AC, Lens, L, Lobo-Araújo, LW, M’Gonigle, LK, Mansor, MS, Manu, SA, Marini, MÂ, Martensen, AC, Matthews, TJ, Metzger, JP, Moore, R, Morante-Filho, JC, Nameer, PO, Nor, SM, Oliveira, HS, Ribon, R, Ruiz-Gutiérrez, V, Silveira, LF, Stouffer, PC, Terborgh, JW, Uezu, A, Wang, Y, Wethered, R, Yong, DL & Peres, CA 2026, 'High-quality surrounding landscapes mitigate avian extirpations from forest remnants', Proceedings of the National Academy of Sciences of the United States of America, vol. 123, no. 14, e2521783123. https://doi.org/10.1073/pnas.2521783123

TY - JOUR

T1 - High-quality surrounding landscapes mitigate avian extirpations from forest remnants

AU - Bueno, Anderson S.

AU - Mendenhall, Chase D.

AU - Anciães, Marina

AU - dos Anjos, Luiz

AU - Arroyo-Rodríguez, Víctor

AU - Aurélio-Silva, Marco

AU - Banks-Leite, Cristina

AU - Betts, Matthew G.

AU - Bispo, Arthur A.

AU - Boesing, Andrea Larissa

AU - Campos-Cerqueira, Marconi

AU - Claessens, Olivier

AU - Cresswell, Will

AU - Daily, Gretchen C.

AU - Dami, Filibus Danjuma

AU - Dantas, Sidnei M.

AU - Develey, Pedro F.

AU - Ding, Ping

AU - Edwards, David P.

AU - Efe, Márcio A.

AU - Faria, Deborah

AU - Feeley, Kenneth J.

AU - Gillespie, Thomas W.

AU - Hadley, Adam S.

AU - Hatfield, Jack H.

AU - Henriques, Luiza Magalli Pinto

AU - Holbech, Lars H.

AU - Irving, Gregory J.

AU - Kormann, Urs G.

AU - Krishnan, M. Jyothi

AU - Krügel, Marilise M.

AU - Lasky, Jesse R.

AU - Lawes, Michael J.

AU - Lees, Alexander C.

AU - Lens, Luc

AU - Lobo-Araújo, Lahert William

AU - M’Gonigle, Leithen K.

AU - Mansor, Mohammad Saiful

AU - Manu, Shiiwua A.

AU - Marini, Miguel Ângelo

AU - Martensen, Alexandre Camargo

AU - Matthews, Thomas J.

AU - Metzger, Jean Paul

AU - Moore, Randall

AU - Morante-Filho, José Carlos

AU - Nameer, P. O.

AU - Nor, Shukor Md

AU - Oliveira, Helon Simões

AU - Ribon, Rômulo

AU - Ruiz-Gutiérrez, Viviana

AU - Silveira, Luís Fábio

AU - Stouffer, Philip C.

AU - Terborgh, John W.

AU - Uezu, Alexandre

AU - Wang, Yanping

AU - Wethered, Robyn

AU - Yong, Ding Li

AU - Peres, Carlos A.

PY - 2026/4/7

Y1 - 2026/4/7

N2 - The species–area relationship (SAR) has long been used to predict extirpation rates from habitat loss, but these rates depend not only on habitat area but also on the surrounding landscape and species’ habitat specialization. We collated global data from forest islands created by river damming and forest fragments resulting from clear-cut deforestation to examine the effects of matrix type (aquatic or terrestrial) and tree cover on avian SARs. Unlike oceanic islands, which are often millions of years old, anthropogenic forest islands provide a contemporary analog to forest fragments to understand matrix effects on SARs and serve as a baseline for worst-case scenarios of forest fragmentation. Our database comprises 50 datasets from 45 studies conducted in tropical and subtropical regions, totaling 1,954 bird species detected through 39,197 incidence records from 336 forest islands and 669 forest fragments. We found that bird extirpation rates were lower in fragments than on islands, especially for forest-dependent species compared to all species. Species losses were further reduced by increasing tree cover around forest remnants at local landscape scales of 300 m, highlighting the importance of small-scale conservation strategies. Moreover, even small forest fragments with greater nearby tree cover held high conservation value, emphasizing the crucial role of the surrounding landscape in mitigating avian extirpations from forest remnants. Beyond protecting forest remnants themselves, area-based conservation efforts would therefore be greatly enhanced by improving matrix quality and expanding tree cover in otherwise hostile landscapes.

AB - The species–area relationship (SAR) has long been used to predict extirpation rates from habitat loss, but these rates depend not only on habitat area but also on the surrounding landscape and species’ habitat specialization. We collated global data from forest islands created by river damming and forest fragments resulting from clear-cut deforestation to examine the effects of matrix type (aquatic or terrestrial) and tree cover on avian SARs. Unlike oceanic islands, which are often millions of years old, anthropogenic forest islands provide a contemporary analog to forest fragments to understand matrix effects on SARs and serve as a baseline for worst-case scenarios of forest fragmentation. Our database comprises 50 datasets from 45 studies conducted in tropical and subtropical regions, totaling 1,954 bird species detected through 39,197 incidence records from 336 forest islands and 669 forest fragments. We found that bird extirpation rates were lower in fragments than on islands, especially for forest-dependent species compared to all species. Species losses were further reduced by increasing tree cover around forest remnants at local landscape scales of 300 m, highlighting the importance of small-scale conservation strategies. Moreover, even small forest fragments with greater nearby tree cover held high conservation value, emphasizing the crucial role of the surrounding landscape in mitigating avian extirpations from forest remnants. Beyond protecting forest remnants themselves, area-based conservation efforts would therefore be greatly enhanced by improving matrix quality and expanding tree cover in otherwise hostile landscapes.

KW - biodiversity conservation

KW - biogeography

KW - habitat fragmentation

KW - species richness

KW - tropical forests

UR - https://www.scopus.com/pages/publications/105034817581

U2 - 10.1073/pnas.2521783123

DO - 10.1073/pnas.2521783123

M3 - Article

C2 - 41920866

AN - SCOPUS:105034817581

SN - 0027-8424

VL - 123

JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

IS - 14

M1 - e2521783123

ER -

High-quality surrounding landscapes mitigate avian extirpations from forest remnants

Abstract

UN SDGs

Keywords

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