The ecosystem service and biodiversity contributions and trade-offs of contrasting forest restoration approaches

Fangyuan Hua; L. Adrian  Bruijnzeel; Paula  Meli; Phillip A.  Martin; Jun Zhang; Shinichi Nakagawa; Xinran  Miao; Weiyi  Wang; Christopher  McEvoy; Jorge Luis  Peña Arancibia; Pedro H. S.  Brancalion; Pete Smith; David Edwards; Andrew Balmford

doi:10.1126/science.abl4649

The ecosystem service and biodiversity contributions and trade-offs of contrasting forest restoration approaches

Fangyuan Hua^* (Corresponding Author), L. Adrian Bruijnzeel^* (Corresponding Author), Paula Meli, Phillip A. Martin, Jun Zhang, Shinichi Nakagawa, Xinran Miao, Weiyi Wang, Christopher McEvoy, Jorge Luis Peña Arancibia, Pedro H. S. Brancalion, Pete Smith, David Edwards, Andrew Balmford

^*Corresponding author for this work

Aberdeen Centre For Environmental Sustainability

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Abstract

Forest restoration is being scaled-up globally to deliver critical ecosystem services and biodiversity benefits, yet we lack rigorous comparison of co-benefit delivery across different restoration approaches. In a global synthesis, we use 25,950 matched data pairs from 264 studies in 53 countries to assess how delivery of climate, soil, water, and wood production services as well as biodiversity compares across a range of tree plantations and native forests. Carbon storage, water provisioning, and especially soil erosion control and biodiversity benefits are all delivered better by native forests, with compositionally simpler, younger plantations in drier regions performing particularly poorly. However, plantations exhibit an advantage in wood
production. These results underscore important trade-offs among environmental and production goals that policymakers must navigate in meeting forest restoration commitments.

Original language	English
Pages (from-to)	839-844
Number of pages	7
Journal	Science
Volume	376
Issue number	6595
Early online date	17 Mar 2022
DOIs	https://doi.org/10.1126/science.abl4649
Publication status	Published - 22 May 2022

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Hua, F., Bruijnzeel, L. A., Meli, P., Martin, P. A., Zhang, J., Nakagawa, S., Miao, X., Wang, W., McEvoy, C., Peña Arancibia, J. L., Brancalion, P. H. S., Smith, P., Edwards, D., & Balmford, A. (2022). The ecosystem service and biodiversity contributions and trade-offs of contrasting forest restoration approaches. Science, 376(6595), 839-844. https://doi.org/10.1126/science.abl4649

Hua, F, Bruijnzeel, LA, Meli, P, Martin, PA, Zhang, J, Nakagawa, S, Miao, X, Wang, W, McEvoy, C, Peña Arancibia, JL, Brancalion, PHS, Smith, P, Edwards, D & Balmford, A 2022, 'The ecosystem service and biodiversity contributions and trade-offs of contrasting forest restoration approaches', Science, vol. 376, no. 6595, pp. 839-844. https://doi.org/10.1126/science.abl4649

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title = "The ecosystem service and biodiversity contributions and trade-offs of contrasting forest restoration approaches",

abstract = "Forest restoration is being scaled-up globally to deliver critical ecosystem services and biodiversity benefits, yet we lack rigorous comparison of co-benefit delivery across different restoration approaches. In a global synthesis, we use 25,950 matched data pairs from 264 studies in 53 countries to assess how delivery of climate, soil, water, and wood production services as well as biodiversity compares across a range of tree plantations and native forests. Carbon storage, water provisioning, and especially soil erosion control and biodiversity benefits are all delivered better by native forests, with compositionally simpler, younger plantations in drier regions performing particularly poorly. However, plantations exhibit an advantage in woodproduction. These results underscore important trade-offs among environmental and production goals that policymakers must navigate in meeting forest restoration commitments.",

author = "Fangyuan Hua and Bruijnzeel, {L. Adrian} and Paula Meli and Martin, {Phillip A.} and Jun Zhang and Shinichi Nakagawa and Xinran Miao and Weiyi Wang and Christopher McEvoy and {Pe{\~n}a Arancibia}, {Jorge Luis} and Brancalion, {Pedro H. S.} and Pete Smith and David Edwards and Andrew Balmford",

note = "Funding This work was supported by Royal Society Newton International FellowshipNF160839 and National Natural Science Foundation of China Grants 32122057 and 31988102 (to F.H.), as well as and S{\~a}o Paulo Research Foundation Postdoctoral Grant 2016/00052-9 (to P.M.).",

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AU - Hua, Fangyuan

AU - Bruijnzeel, L. Adrian

AU - Meli, Paula

AU - Martin, Phillip A.

AU - Zhang, Jun

AU - Nakagawa, Shinichi

AU - Miao, Xinran

AU - Wang, Weiyi

AU - McEvoy, Christopher

AU - Peña Arancibia, Jorge Luis

AU - Brancalion, Pedro H. S.

AU - Smith, Pete

AU - Edwards, David

AU - Balmford, Andrew

N1 - Funding This work was supported by Royal Society Newton International FellowshipNF160839 and National Natural Science Foundation of China Grants 32122057 and 31988102 (to F.H.), as well as and São Paulo Research Foundation Postdoctoral Grant 2016/00052-9 (to P.M.).

PY - 2022/5/22

Y1 - 2022/5/22

N2 - Forest restoration is being scaled-up globally to deliver critical ecosystem services and biodiversity benefits, yet we lack rigorous comparison of co-benefit delivery across different restoration approaches. In a global synthesis, we use 25,950 matched data pairs from 264 studies in 53 countries to assess how delivery of climate, soil, water, and wood production services as well as biodiversity compares across a range of tree plantations and native forests. Carbon storage, water provisioning, and especially soil erosion control and biodiversity benefits are all delivered better by native forests, with compositionally simpler, younger plantations in drier regions performing particularly poorly. However, plantations exhibit an advantage in woodproduction. These results underscore important trade-offs among environmental and production goals that policymakers must navigate in meeting forest restoration commitments.

AB - Forest restoration is being scaled-up globally to deliver critical ecosystem services and biodiversity benefits, yet we lack rigorous comparison of co-benefit delivery across different restoration approaches. In a global synthesis, we use 25,950 matched data pairs from 264 studies in 53 countries to assess how delivery of climate, soil, water, and wood production services as well as biodiversity compares across a range of tree plantations and native forests. Carbon storage, water provisioning, and especially soil erosion control and biodiversity benefits are all delivered better by native forests, with compositionally simpler, younger plantations in drier regions performing particularly poorly. However, plantations exhibit an advantage in woodproduction. These results underscore important trade-offs among environmental and production goals that policymakers must navigate in meeting forest restoration commitments.

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DO - 10.1126/science.abl4649

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EP - 844

JO - Science

JF - Science

SN - 0036-8075

IS - 6595

ER -

The ecosystem service and biodiversity contributions and trade-offs of contrasting forest restoration approaches

Abstract

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