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Trade-offs in using European forests to meet climate objectives

Author

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  • Sebastiaan Luyssaert

    (Vrije Universiteit Amsterdam
    CEA-CNRS-UVSQ, Université Paris-Saclay)

  • Guillaume Marie

    (Vrije Universiteit Amsterdam)

  • Aude Valade

    (Institut Pierre Simon Laplace (IPSL)
    Global Ecology Unit CREAF-UAB)

  • Yi-Ying Chen

    (CEA-CNRS-UVSQ, Université Paris-Saclay
    Research Center for Environmental Changes (RCEC), Academia Sinica)

  • Sylvestre Njakou Djomo

    (Aarhus University)

  • James Ryder

    (CEA-CNRS-UVSQ, Université Paris-Saclay
    National Physical Laboratory, Teddington)

  • Juliane Otto

    (CEA-CNRS-UVSQ, Université Paris-Saclay
    Helmholtz-Zentrum Geesthacht (HZG), Climate Service Center Germany (GERICS))

  • Kim Naudts

    (CEA-CNRS-UVSQ, Université Paris-Saclay
    Max Planck Institute for Meteorology)

  • Anne Sofie Lansø

    (CEA-CNRS-UVSQ, Université Paris-Saclay)

  • Josefine Ghattas

    (Institut Pierre Simon Laplace (IPSL))

  • Matthew J. McGrath

    (CEA-CNRS-UVSQ, Université Paris-Saclay)

Abstract

The Paris Agreement promotes forest management as a pathway towards halting climate warming through the reduction of carbon dioxide (CO2) emissions1. However, the climate benefits from carbon sequestration through forest management may be reinforced, counteracted or even offset by concurrent management-induced changes in surface albedo, land-surface roughness, emissions of biogenic volatile organic compounds, transpiration and sensible heat flux2–4. Consequently, forest management could offset CO2 emissions without halting global temperature rise. It therefore remains to be confirmed whether commonly proposed sustainable European forest-management portfolios would comply with the Paris Agreement—that is, whether they can reduce the growth rate of atmospheric CO2, reduce the radiative imbalance at the top of the atmosphere, and neither increase the near-surface air temperature nor decrease precipitation by the end of the twenty-first century. Here we show that the portfolio made up of management systems that locally maximize the carbon sink through carbon sequestration, wood use and product and energy substitution reduces the growth rate of atmospheric CO2, but does not meet any of the other criteria. The portfolios that maximize the carbon sink or forest albedo pass only one—different in each case—criterion. Managing the European forests with the objective of reducing near-surface air temperature, on the other hand, will also reduce the atmospheric CO2 growth rate, thus meeting two of the four criteria. Trade-off are thus unavoidable when using European forests to meet climate objectives. Furthermore, our results demonstrate that if present-day forest cover is sustained, the additional climate benefits achieved through forest management would be modest and local, rather than global. On the basis of these findings, we argue that Europe should not rely on forest management to mitigate climate change. The modest climate effects from changes in forest management imply, however, that if adaptation to future climate were to require large-scale changes in species composition and silvicultural systems over Europe5,6, the forests could be adapted to climate change with neither positive nor negative climate effects.

Suggested Citation

  • Sebastiaan Luyssaert & Guillaume Marie & Aude Valade & Yi-Ying Chen & Sylvestre Njakou Djomo & James Ryder & Juliane Otto & Kim Naudts & Anne Sofie Lansø & Josefine Ghattas & Matthew J. McGrath, 2018. "Trade-offs in using European forests to meet climate objectives," Nature, Nature, vol. 562(7726), pages 259-262, October.
    • Handle: RePEc:nat:nature:v:562:y:2018:i:7726:d:10.1038_s41586-018-0577-1
    DOI: 10.1038/s41586-018-0577-1
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    Citations

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    Cited by:

    1. Iversen, Endre Kildal & Lindhjem, Henrik & Jacobsen, Jette Bredahl & Grimsrud, Kristine, 2021. "Moving (back) to greener pastures? Social benefits and costs of climate forest planting in Norway," Land Use Policy, Elsevier, vol. 107(C).
    2. Anna A. Romanovskaya & Vladimir N. Korotkov & Polina D. Polumieva & Alexander A. Trunov & Victoria Yu. Vertyankina & Rodion T. Karaban, 2020. "Greenhouse gas fluxes and mitigation potential for managed lands in the Russian Federation," Mitigation and Adaptation Strategies for Global Change, Springer, vol. 25(4), pages 661-687, April.
    3. Endre Kildal Iversen & Kristine Grimsrud & Henrik Lindhjem & Jette Bredahl Jacobsen, 2019. "Trade-offs between carbon sequestration, landscape aesthetics and biodiversity in a cost-benefit analysis of land use options in Norway," Discussion Papers 915, Statistics Norway, Research Department.
    4. Suchocka, Marzena & Heciak, Jakub & Błaszczyk, Magdalena & Adamczyk, Joanna & Gaworski, Marek & Gawłowska, Agnieszka & Mojski, Jacek & Kalaji, Hazem M. & Kais, Karolina & Kosno-Jończy, Joanna & Hec, 2023. "Comparison of Ecosystem Services and Replacement Value calculations performed for urban trees," Ecosystem Services, Elsevier, vol. 63(C).
    5. Moriarty, Patrick & Honnery, Damon, 2019. "Ecosystem maintenance energy and the need for a green EROI," Energy Policy, Elsevier, vol. 131(C), pages 229-234.
    6. Jun Ge & Qi Liu & Beilei Zan & Zhiqiang Lin & Sha Lu & Bo Qiu & Weidong Guo, 2022. "Deforestation intensifies daily temperature variability in the northern extratropics," Nature Communications, Nature, vol. 13(1), pages 1-15, December.
    7. Ikäheimo, Jussi & Weiss, Robert & Kiviluoma, Juha & Pursiheimo, Esa & Lindroos, Tomi J., 2022. "Impact of power-to-gas on the cost and design of the future low-carbon urban energy system," Applied Energy, Elsevier, vol. 305(C).
    8. Jingmeng Wang & Wei Li & Philippe Ciais & Laurent Z. X. Li & Jinfeng Chang & Daniel Goll & Thomas Gasser & Xiaomeng Huang & Narayanappa Devaraju & Olivier Boucher, 2021. "Global cooling induced by biophysical effects of bioenergy crop cultivation," Nature Communications, Nature, vol. 12(1), pages 1-9, December.
    9. Laurent Augusto & Antra Boča, 2022. "Tree functional traits, forest biomass, and tree species diversity interact with site properties to drive forest soil carbon," Nature Communications, Nature, vol. 13(1), pages 1-12, December.
    10. Ikäheimo, Jussi & Lindroos, Tomi J. & Kiviluoma, Juha, 2023. "Impact of climate and geological storage potential on feasibility of hydrogen fuels," Applied Energy, Elsevier, vol. 342(C).

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