TY - JOUR
T1 - Upscaling miscanthus production in the United Kingdom
T2 - The benefits, challenges, and trade-offs
AU - Hodgson, E. M.
AU - McCalmont, J.
AU - Rowe, R.
AU - Whitaker, J.
AU - Holder, A.
AU - Clifton‐Brown, J. C.
AU - Thornton, J.
AU - Hastings, A.
AU - Robson, P. R. H.
AU - Webster, R. J.
AU - Farrar, K.
AU - Donnison, I. S.
N1 - Publisher Copyright:
© 2024 The Author(s). GCB Bioenergy published by John Wiley & Sons Ltd.
PY - 2024/8/1
Y1 - 2024/8/1
N2 - The UK sixth carbon budget has recommended domestic biomass supply should increase to meet growing demand, planting a minimum of 30,000 hectares of perennial energy crops a year by 2035, with a view to establishing 700,000 hectares by 2050 to meet the requirements of the balanced net zero pathway. Miscanthus is a key biomass crop to scale up domestic biomass production in the United Kingdom. A cohesive land management strategy, based on robust evidence, will be required to ensure upscaling of miscanthus cultivation maximizes the environmental and economic benefits and minimizes undesirable consequences. This review examines research into available land areas, environmental impacts, barriers to uptake, and the challenges, benefits, and trade-offs required to upscale miscanthus production on arable land and grassland in the United Kingdom. Expansion of perennial biomass crops has been considered best restricted to marginal land, less suited to food production. The review identifies a trade-off between avoiding competition with food production and a risk of encroaching on areas containing high-biodiversity or high-carbon stocks, such as semi-natural grasslands. If areas of land suitable for food production are needed to produce the biomass required for emission reduction, the review indicates there are multiple strategies for miscanthus to complement long-term food security rather than compete with it. On arable land, a miscanthus rotation with a cycle length of 10–20 years can be employed as fallow period for fields experiencing yield decline, soil fatigue, or persistent weed problems. On improved grassland areas, miscanthus presents an option for diversification, flood mitigation, and water quality improvement. Strategies need to be developed to integrate miscanthus into farming systems in a way that is profitable, sensitive to local demand, climate, and geography, and complements rather than competes with food production by increasing overall farm profitability and resilience.
AB - The UK sixth carbon budget has recommended domestic biomass supply should increase to meet growing demand, planting a minimum of 30,000 hectares of perennial energy crops a year by 2035, with a view to establishing 700,000 hectares by 2050 to meet the requirements of the balanced net zero pathway. Miscanthus is a key biomass crop to scale up domestic biomass production in the United Kingdom. A cohesive land management strategy, based on robust evidence, will be required to ensure upscaling of miscanthus cultivation maximizes the environmental and economic benefits and minimizes undesirable consequences. This review examines research into available land areas, environmental impacts, barriers to uptake, and the challenges, benefits, and trade-offs required to upscale miscanthus production on arable land and grassland in the United Kingdom. Expansion of perennial biomass crops has been considered best restricted to marginal land, less suited to food production. The review identifies a trade-off between avoiding competition with food production and a risk of encroaching on areas containing high-biodiversity or high-carbon stocks, such as semi-natural grasslands. If areas of land suitable for food production are needed to produce the biomass required for emission reduction, the review indicates there are multiple strategies for miscanthus to complement long-term food security rather than compete with it. On arable land, a miscanthus rotation with a cycle length of 10–20 years can be employed as fallow period for fields experiencing yield decline, soil fatigue, or persistent weed problems. On improved grassland areas, miscanthus presents an option for diversification, flood mitigation, and water quality improvement. Strategies need to be developed to integrate miscanthus into farming systems in a way that is profitable, sensitive to local demand, climate, and geography, and complements rather than competes with food production by increasing overall farm profitability and resilience.
KW - agricultural land classification (ALC)
KW - bioenergy
KW - BECCS
KW - ecosystem services
KW - biodiversity
KW - biomass
KW - land use
KW - energy crops
KW - soil carbon (SOC)
KW - buffer strip
UR - http://www.scopus.com/inward/record.url?scp=85198035154&partnerID=8YFLogxK
U2 - 10.1111/gcbb.13177
DO - 10.1111/gcbb.13177
M3 - Review Article
SN - 1757-1693
VL - 16
JO - GCB Bioenergy
JF - GCB Bioenergy
IS - 8
M1 - e13177
ER -