Developing environmentally sustainable forestry value chains
Lead Research Organisation:
Bangor University
Department Name: Sch of Environment and Natural Resources
Abstract
Forests play a key role in climate regulation, water purification and biodiversity conservation, whilst providing renewable wood-based resources critical for the circular economy. Forest cover in the UK is one third of the European average, and possible post-Brexit reform of agricultural subsidies could create substantial impetus for forestry expansion. There remains an incomplete evidence base on the wider environmental consequences of such expansion in relation to methods of woodland establishment and management. There is also a need to more accurately account for carbon sequestration in harvested wood products, and to calculate environmental "credits" attributable to substitution of wood for high-impact products such as concrete and fossil fuels. These effects will arise over an extended time period for advanced value chains involving cascading uses of the primary wood feedstock, e.g. starting with construction and culminating in fuel use -as wood pellets or bioethanol. This exciting studentship will develop state-of-the-art of life cycle assessment (LCA) models to integrate ecological data on forestry land management with techno-economic data on product processing and product substitution to answer the following questions:
What are the environmental consequences of woodland establishment on marginal land, with particular emphasis on greenhouse gas fluxes, carbon sequestration, nutrient losses and biodiversity?
How do environmental footprints of innovative wood-derived products compare with substituted conventional products?
In addressing these questions, the project will make a significant contribution to the ongoing scientific debate about "land sparing", by quantifying life cycle GHG mitigation potential and possible environmental co-benefit of forestry expansion on land "spared" from agriculture.
What are the environmental consequences of woodland establishment on marginal land, with particular emphasis on greenhouse gas fluxes, carbon sequestration, nutrient losses and biodiversity?
How do environmental footprints of innovative wood-derived products compare with substituted conventional products?
In addressing these questions, the project will make a significant contribution to the ongoing scientific debate about "land sparing", by quantifying life cycle GHG mitigation potential and possible environmental co-benefit of forestry expansion on land "spared" from agriculture.
Organisations
People |
ORCID iD |
David Styles (Primary Supervisor) | |
Eilidh Forster (Student) |
Studentship Projects
Project Reference | Relationship | Related To | Start | End | Student Name |
---|---|---|---|---|---|
NE/R010226/1 | 01/10/2017 | 30/09/2022 | |||
1935038 | Studentship | NE/R010226/1 | 30/09/2017 | 30/03/2023 | Eilidh Forster |