Biodiversity implications of land-intensive carbon dioxide removal

Ruben Prütz; Joeri Rogelj; Gaurav Ganti; Jeff Price; Rachel Warren; Nicole Forstenhäusler; Yazhen Wu; Andrey Lessa Derci Augustynczik; Michael Wögerer; Tamás Krisztin; Petr Havlík; Florian Kraxner; Stefan Frank; Tomoko Hasegawa; Jonathan C. Doelman; Vassilis Daioglou; Florian Humpenöder; Alexander Popp; Sabine Fuss

doi:10.1038/s41558-026-02557-5

Biodiversity implications of land-intensive carbon dioxide removal

Ruben Prütz, Joeri Rogelj, Gaurav Ganti, Jeff Price, Rachel Warren, Nicole Forstenhäusler, Yazhen Wu, Andrey Lessa Derci Augustynczik, Michael Wögerer, Tamás Krisztin, Petr Havlík, Florian Kraxner, Stefan Frank, Tomoko Hasegawa, Jonathan C. Doelman, Vassilis Daioglou, Florian Humpenöder, Alexander Popp, Sabine Fuss

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

Abstract

Pathways consistent with global climate objectives typically deploy billions of tonnes of carbon dioxide removal (CDR) from land-intensive methods such as forestation and bioenergy with carbon capture and storage. Such large-scale deployment of land-intensive CDR may have negative consequences for biodiversity. Here we assess scenarios across five integrated assessment models and show that scenarios consistent with limiting warming to 1.5 °C allocate up to 13% of global areas of high biodiversity importance for land-intensive CDR. These overlaps are distributed unevenly, with higher shares in low- and middle-income countries. Understanding the potential conflicts between climate action and biodiversity conservation is crucial. An illustrative analysis shows that if current biodiversity hotspots were protected from land-use change, over half the land allocated for forestation and bioenergy with carbon capture and storage in the assessed scenarios would be unavailable unless synergies between climate and conservation goals are leveraged. Our analysis also indicates CDR-related biodiversity benefits due to avoided warming.

Original language	English
Pages (from-to)	155-163
Number of pages	9
Journal	Nature Climate Change
Volume	16
Issue number	2
DOIs	https://doi.org/10.1038/s41558-026-02557-5
Publication status	Published - 30 Jan 2026

UN SDGs

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

SDG 13 Climate Action
SDG 15 Life on Land

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Prütz, R., Rogelj, J., Ganti, G., Price, J., Warren, R., Forstenhäusler, N., Wu, Y., Augustynczik, A. L. D., Wögerer, M., Krisztin, T., Havlík, P., Kraxner, F., Frank, S., Hasegawa, T., Doelman, J. C., Daioglou, V., Humpenöder, F., Popp, A., & Fuss, S. (2026). Biodiversity implications of land-intensive carbon dioxide removal. Nature Climate Change, 16(2), 155-163. https://doi.org/10.1038/s41558-026-02557-5

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title = "Biodiversity implications of land-intensive carbon dioxide removal",

abstract = "Pathways consistent with global climate objectives typically deploy billions of tonnes of carbon dioxide removal (CDR) from land-intensive methods such as forestation and bioenergy with carbon capture and storage. Such large-scale deployment of land-intensive CDR may have negative consequences for biodiversity. Here we assess scenarios across five integrated assessment models and show that scenarios consistent with limiting warming to 1.5 °C allocate up to 13% of global areas of high biodiversity importance for land-intensive CDR. These overlaps are distributed unevenly, with higher shares in low- and middle-income countries. Understanding the potential conflicts between climate action and biodiversity conservation is crucial. An illustrative analysis shows that if current biodiversity hotspots were protected from land-use change, over half the land allocated for forestation and bioenergy with carbon capture and storage in the assessed scenarios would be unavailable unless synergies between climate and conservation goals are leveraged. Our analysis also indicates CDR-related biodiversity benefits due to avoided warming.",

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Prütz, R, Rogelj, J, Ganti, G, Price, J , Warren, R , Forstenhäusler, N, Wu, Y, Augustynczik, ALD, Wögerer, M, Krisztin, T, Havlík, P, Kraxner, F, Frank, S, Hasegawa, T, Doelman, JC, Daioglou, V, Humpenöder, F, Popp, A & Fuss, S 2026, 'Biodiversity implications of land-intensive carbon dioxide removal', Nature Climate Change, vol. 16, no. 2, pp. 155-163. https://doi.org/10.1038/s41558-026-02557-5

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AU - Prütz, Ruben

AU - Rogelj, Joeri

AU - Ganti, Gaurav

AU - Price, Jeff

AU - Warren, Rachel

AU - Forstenhäusler, Nicole

AU - Wu, Yazhen

AU - Augustynczik, Andrey Lessa Derci

AU - Wögerer, Michael

AU - Krisztin, Tamás

AU - Havlík, Petr

AU - Kraxner, Florian

AU - Frank, Stefan

AU - Hasegawa, Tomoko

AU - Doelman, Jonathan C.

AU - Daioglou, Vassilis

AU - Humpenöder, Florian

AU - Popp, Alexander

AU - Fuss, Sabine

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N2 - Pathways consistent with global climate objectives typically deploy billions of tonnes of carbon dioxide removal (CDR) from land-intensive methods such as forestation and bioenergy with carbon capture and storage. Such large-scale deployment of land-intensive CDR may have negative consequences for biodiversity. Here we assess scenarios across five integrated assessment models and show that scenarios consistent with limiting warming to 1.5 °C allocate up to 13% of global areas of high biodiversity importance for land-intensive CDR. These overlaps are distributed unevenly, with higher shares in low- and middle-income countries. Understanding the potential conflicts between climate action and biodiversity conservation is crucial. An illustrative analysis shows that if current biodiversity hotspots were protected from land-use change, over half the land allocated for forestation and bioenergy with carbon capture and storage in the assessed scenarios would be unavailable unless synergies between climate and conservation goals are leveraged. Our analysis also indicates CDR-related biodiversity benefits due to avoided warming.

AB - Pathways consistent with global climate objectives typically deploy billions of tonnes of carbon dioxide removal (CDR) from land-intensive methods such as forestation and bioenergy with carbon capture and storage. Such large-scale deployment of land-intensive CDR may have negative consequences for biodiversity. Here we assess scenarios across five integrated assessment models and show that scenarios consistent with limiting warming to 1.5 °C allocate up to 13% of global areas of high biodiversity importance for land-intensive CDR. These overlaps are distributed unevenly, with higher shares in low- and middle-income countries. Understanding the potential conflicts between climate action and biodiversity conservation is crucial. An illustrative analysis shows that if current biodiversity hotspots were protected from land-use change, over half the land allocated for forestation and bioenergy with carbon capture and storage in the assessed scenarios would be unavailable unless synergies between climate and conservation goals are leveraged. Our analysis also indicates CDR-related biodiversity benefits due to avoided warming.

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Biodiversity implications of land-intensive carbon dioxide removal

Abstract

UN SDGs

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