Fragmentation increased in over half of global forests from 2000 to 2020

Yibiao Zou; Thomas W. Crowther; Gabriel Reuben Smith; Haozhi Ma; Lidong Mo; Lalasia Bialic-Murphy; Peter Potapov; Klementyna A. Gawecka; Chi Xu; Pablo Negret Torres; Thomas Lauber; Zhaofei Wu; Dominic Rebindaine; Constantin M. Zohner

doi:10.1126/science.adr6450

Fragmentation increased in over half of global forests from 2000 to 2020

Yibiao Zou, Thomas W. Crowther, Gabriel Reuben Smith, Haozhi Ma, Lidong Mo, Lalasia Bialic-Murphy, Peter Potapov, Klementyna A. Gawecka, Chi Xu, Pablo Negret Torres, Thomas Lauber, Zhaofei Wu, Dominic Rebindaine, Constantin M. Zohner

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

1 Citation (Scopus)

Abstract

Habitat fragmentation, in which contiguous forests are broken into smaller, isolated patches, threatens biodiversity by disrupting species movement, shrinking populations, and altering ecosystem dynamics. Past assessments suggested declining global fragmentation, but they relied on structure-based metrics that overlook ecological connectivity. We analyzed global forest fragmentation from 2000 to 2020 using complementary metrics that captured patch connectivity, aggregation, and structure. Connectivity-based metrics revealed that 51 to 67% of forests globally—and 58 to 80% of tropical forests—became more fragmented, which is nearly twice the rate suggested by traditional structure-focused methods (30 to 35%). Aggregation-focused metrics confirmed increases in 57 to 83% of forests. Human activities such as agriculture and logging drive this change. Yet protected tropical areas saw up to an 82% reduction in fragmentation, underscoring the potential of targeted conservation.

Original language	English
Pages (from-to)	1151-1156
Number of pages	6
Journal	Science
Volume	389
Issue number	6765
DOIs	https://doi.org/10.1126/science.adr6450
Publication status	Published - 2025

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title = "Fragmentation increased in over half of global forests from 2000 to 2020",

abstract = "Habitat fragmentation, in which contiguous forests are broken into smaller, isolated patches, threatens biodiversity by disrupting species movement, shrinking populations, and altering ecosystem dynamics. Past assessments suggested declining global fragmentation, but they relied on structure-based metrics that overlook ecological connectivity. We analyzed global forest fragmentation from 2000 to 2020 using complementary metrics that captured patch connectivity, aggregation, and structure. Connectivity-based metrics revealed that 51 to 67% of forests globally—and 58 to 80% of tropical forests—became more fragmented, which is nearly twice the rate suggested by traditional structure-focused methods (30 to 35%). Aggregation-focused metrics confirmed increases in 57 to 83% of forests. Human activities such as agriculture and logging drive this change. Yet protected tropical areas saw up to an 82% reduction in fragmentation, underscoring the potential of targeted conservation.",

author = "Yibiao Zou and Crowther, {Thomas W.} and Smith, {Gabriel Reuben} and Haozhi Ma and Lidong Mo and Lalasia Bialic-Murphy and Peter Potapov and Gawecka, {Klementyna A.} and Chi Xu and {Negret Torres}, Pablo and Thomas Lauber and Zhaofei Wu and Dominic Rebindaine and Zohner, {Constantin M.}",

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doi = "10.1126/science.adr6450",

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AU - Zou, Yibiao

AU - Crowther, Thomas W.

AU - Smith, Gabriel Reuben

AU - Ma, Haozhi

AU - Mo, Lidong

AU - Bialic-Murphy, Lalasia

AU - Potapov, Peter

AU - Gawecka, Klementyna A.

AU - Xu, Chi

AU - Negret Torres, Pablo

AU - Lauber, Thomas

AU - Wu, Zhaofei

AU - Rebindaine, Dominic

AU - Zohner, Constantin M.

PY - 2025

Y1 - 2025

N2 - Habitat fragmentation, in which contiguous forests are broken into smaller, isolated patches, threatens biodiversity by disrupting species movement, shrinking populations, and altering ecosystem dynamics. Past assessments suggested declining global fragmentation, but they relied on structure-based metrics that overlook ecological connectivity. We analyzed global forest fragmentation from 2000 to 2020 using complementary metrics that captured patch connectivity, aggregation, and structure. Connectivity-based metrics revealed that 51 to 67% of forests globally—and 58 to 80% of tropical forests—became more fragmented, which is nearly twice the rate suggested by traditional structure-focused methods (30 to 35%). Aggregation-focused metrics confirmed increases in 57 to 83% of forests. Human activities such as agriculture and logging drive this change. Yet protected tropical areas saw up to an 82% reduction in fragmentation, underscoring the potential of targeted conservation.

AB - Habitat fragmentation, in which contiguous forests are broken into smaller, isolated patches, threatens biodiversity by disrupting species movement, shrinking populations, and altering ecosystem dynamics. Past assessments suggested declining global fragmentation, but they relied on structure-based metrics that overlook ecological connectivity. We analyzed global forest fragmentation from 2000 to 2020 using complementary metrics that captured patch connectivity, aggregation, and structure. Connectivity-based metrics revealed that 51 to 67% of forests globally—and 58 to 80% of tropical forests—became more fragmented, which is nearly twice the rate suggested by traditional structure-focused methods (30 to 35%). Aggregation-focused metrics confirmed increases in 57 to 83% of forests. Human activities such as agriculture and logging drive this change. Yet protected tropical areas saw up to an 82% reduction in fragmentation, underscoring the potential of targeted conservation.

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JO - Science

JF - Science

IS - 6765

ER -

Fragmentation increased in over half of global forests from 2000 to 2020

Abstract

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