Linking construction timber carbon storage with land use and forestry management practices

Eilidh Forster; John Healey; Caren Dymond; Gary Nwman; Gareth Davies; David Styles

Linking construction timber carbon storage with land use and forestry management practices

Eilidh Forster
, John Healey
, Caren Dymond
, Gary Nwman
, Gareth Davies
, David Styles

School of Environmental & Natural Sciences

Woodknowledge Wales Ltd.
Coed Cymru
The Government of British Columbia

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

296 Downloads (Pure)

Abstract

Consequential life cycle assessment was applied to forestry systems to evaluate the environmental balance of expanding forestry onto marginal agricultural land to supply more timber for the built environment, accounting for land use effects and product substitution. Forestry expansion to supply timber buildings could mitigate UK greenhouse gas (GHG) emissions by 2.4 Gg CO₂ eq. per ha of forest over 100 years, though net mitigation could be halved if beef production were displaced to Brazil. Forest thinning increases wood yields and percentage conversion of harvested wood to construction sawnwood, resulting in 5% greater net GHG mitigation compared with unthinned systems. Optimising the environmental sustainability of construction timber value chains in a circular, bio-based economy will require holistic accounting of land use (change), forestry management and complex flows of wood.

Original language	English
Title of host publication	IOP Conference Series: Earth and Environmental Science
Publisher	IOP Publishing
Number of pages	11
Volume	323
Publication status	Published - 28 Oct 2019

Publication series

Name	IOP Conf. Series: Earth and Environmental Science
Publisher	IOP Publishing
Number	1
Volume	323

UN SDGs

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

SDG 7 Affordable and Clean Energy
SDG 12 Responsible Consumption and Production
SDG 15 Life on Land

Access to Document

Forster_2019_IOP_Conf._Ser.__Earth_Environ._Sci._323_012142Final published version, 1.85 MBLicence: CC BY

Cite this

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title = "Linking construction timber carbon storage with land use and forestry management practices",

abstract = "Consequential life cycle assessment was applied to forestry systems to evaluate the environmental balance of expanding forestry onto marginal agricultural land to supply more timber for the built environment, accounting for land use effects and product substitution. Forestry expansion to supply timber buildings could mitigate UK greenhouse gas (GHG) emissions by 2.4 Gg CO2 eq. per ha of forest over 100 years, though net mitigation could be halved if beef production were displaced to Brazil. Forest thinning increases wood yields and percentage conversion of harvested wood to construction sawnwood, resulting in 5\% greater net GHG mitigation compared with unthinned systems. Optimising the environmental sustainability of construction timber value chains in a circular, bio-based economy will require holistic accounting of land use (change), forestry management and complex flows of wood.",

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Linking construction timber carbon storage with land use and forestry management practices. / Forster, Eilidh; Healey, John; Dymond, Caren et al.
IOP Conference Series: Earth and Environmental Science. Vol. 323 IOP Publishing, 2019. 012142 (IOP Conf. Series: Earth and Environmental Science; Vol. 323, No. 1).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Linking construction timber carbon storage with land use and forestry management practices

AU - Forster, Eilidh

AU - Healey, John

AU - Dymond, Caren

AU - Nwman, Gary

AU - Davies, Gareth

AU - Styles, David

PY - 2019/10/28

Y1 - 2019/10/28

N2 - Consequential life cycle assessment was applied to forestry systems to evaluate the environmental balance of expanding forestry onto marginal agricultural land to supply more timber for the built environment, accounting for land use effects and product substitution. Forestry expansion to supply timber buildings could mitigate UK greenhouse gas (GHG) emissions by 2.4 Gg CO2 eq. per ha of forest over 100 years, though net mitigation could be halved if beef production were displaced to Brazil. Forest thinning increases wood yields and percentage conversion of harvested wood to construction sawnwood, resulting in 5% greater net GHG mitigation compared with unthinned systems. Optimising the environmental sustainability of construction timber value chains in a circular, bio-based economy will require holistic accounting of land use (change), forestry management and complex flows of wood.

AB - Consequential life cycle assessment was applied to forestry systems to evaluate the environmental balance of expanding forestry onto marginal agricultural land to supply more timber for the built environment, accounting for land use effects and product substitution. Forestry expansion to supply timber buildings could mitigate UK greenhouse gas (GHG) emissions by 2.4 Gg CO2 eq. per ha of forest over 100 years, though net mitigation could be halved if beef production were displaced to Brazil. Forest thinning increases wood yields and percentage conversion of harvested wood to construction sawnwood, resulting in 5% greater net GHG mitigation compared with unthinned systems. Optimising the environmental sustainability of construction timber value chains in a circular, bio-based economy will require holistic accounting of land use (change), forestry management and complex flows of wood.

UR - https://iopscience.iop.org/article/10.1088/1755-1315/323/1/012142

M3 - Conference contribution

VL - 323

T3 - IOP Conf. Series: Earth and Environmental Science

BT - IOP Conference Series: Earth and Environmental Science

PB - IOP Publishing

ER -

Linking construction timber carbon storage with land use and forestry management practices

Abstract

Publication series

UN SDGs

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

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