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Temperate forests can deliver future wood demand and climate-change mitigation dependent on afforestation and circularity

Allbwn ymchwil: Cyfraniad at gyfnodolynErthygladolygiad gan gymheiriaid

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Temperate forests can deliver future wood demand and climate-change mitigation dependent on afforestation and circularity. / Forster, Eilidh; Styles, David; Healey, John.
Yn: Nature Communications, 14.03.2025.

Allbwn ymchwil: Cyfraniad at gyfnodolynErthygladolygiad gan gymheiriaid

HarvardHarvard

Forster, E, Styles, D & Healey, J 2025, 'Temperate forests can deliver future wood demand and climate-change mitigation dependent on afforestation and circularity', Nature Communications.

APA

Forster, E., Styles, D., & Healey, J. (yn y wasg). Temperate forests can deliver future wood demand and climate-change mitigation dependent on afforestation and circularity. Nature Communications.

CBE

Forster E, Styles D, Healey J. 2025. Temperate forests can deliver future wood demand and climate-change mitigation dependent on afforestation and circularity. Nature Communications.

MLA

Forster, Eilidh, David Styles, a John Healey. "Temperate forests can deliver future wood demand and climate-change mitigation dependent on afforestation and circularity". Nature Communications. 2025.

VancouverVancouver

Forster E, Styles D, Healey J. Temperate forests can deliver future wood demand and climate-change mitigation dependent on afforestation and circularity. Nature Communications. 2025 Maw 14.

Author

Forster, Eilidh ; Styles, David ; Healey, John. / Temperate forests can deliver future wood demand and climate-change mitigation dependent on afforestation and circularity. Yn: Nature Communications. 2025.

RIS

TY - JOUR

T1 - Temperate forests can deliver future wood demand and climate-change mitigation dependent on afforestation and circularity

AU - Forster, Eilidh

AU - Styles, David

AU - Healey, John

PY - 2025/3/14

Y1 - 2025/3/14

N2 - Global wood demand is expected to rise but supply capacity is questioned due to limited forest resources. Additionally, the global warming potential (GWP) impact of increased wood supply and use is not well understood. We propose a framework combining forest carbon modelling and dynamic consequential life-cycle assessment to evaluate this impact. Applying it to generic temperate forest, we show that afforestation to double productive forest area combined with enhanced productivity can meet lower-bound wood demand projections from 2058. Temperate forestry value-chains can achieve cumulative GWP benefit of up to 265 Tg CO2-equivalent (CO2e) by 2100 per 100,000 ha of forest (if expanded to 200,000 ha through afforestation). Net GWP balance depends on which overseas forests supply domestic shortfalls, how wood is used, and the rate of industrial decarbonisation. Increased wood-use could aid climate-change mitigation, providing it is coupled with a long-term planting strategy, enhanced forest productivity and efficient wood use.

AB - Global wood demand is expected to rise but supply capacity is questioned due to limited forest resources. Additionally, the global warming potential (GWP) impact of increased wood supply and use is not well understood. We propose a framework combining forest carbon modelling and dynamic consequential life-cycle assessment to evaluate this impact. Applying it to generic temperate forest, we show that afforestation to double productive forest area combined with enhanced productivity can meet lower-bound wood demand projections from 2058. Temperate forestry value-chains can achieve cumulative GWP benefit of up to 265 Tg CO2-equivalent (CO2e) by 2100 per 100,000 ha of forest (if expanded to 200,000 ha through afforestation). Net GWP balance depends on which overseas forests supply domestic shortfalls, how wood is used, and the rate of industrial decarbonisation. Increased wood-use could aid climate-change mitigation, providing it is coupled with a long-term planting strategy, enhanced forest productivity and efficient wood use.

M3 - Article

JO - Nature Communications

JF - Nature Communications

SN - 2041-1723

ER -