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The forestry and timber-processing sector contributes about £2,000M per year to the UK economy. There are significant benefits to be gained by converting the maximum possible percentage of UK wood into construction timber products because the highest returns in terms of price and environmental impact are achieved with construction grade timber. WestCHEM research has contributed to the development of acoustic tools that allow construction-grade timber to be identified in the forest. This research also led to changes in UK Forestry Commission planting policy, with `improved' stock now accounting for >80% of new planting across both public and private sectors, yielding an estimated increase of £75M in the market value of these trees.
Research by Oxford University has led to the development of a biodiversity assessment tool based on three biological indices, that has been used in many parts of the world to prioritise and protect biodiversity hotspots, particularly in landscapes that are at major threat from logging or conversion to agriculture. In Ghana these methods have led to the protection of ~2,300 km2 of forest reserves (13% of the total forest network) and were codified in a simple field guide. In Liberia a multinational mining company made important conservation decisions based on the application of these methods. Use of the tool has led to the retention of substantial areas of high biodiversity forest in West Africa, despite competing economic and political drivers, and amidst a continuing general decline in forest condition across the region.
Harmful Algal Blooms (HABs) are a serious risk to human health and the sustainability of the aquaculture industry. Research by Prof. Davidson has improved understanding of temporal and spatial trends in marine HABs and detection of toxins in farmed shellfish. Knowledge gleaned from this research has been adopted by the Food Standards Agency (FSA) in the design of the HAB Monitoring Programme for Scotland. Prof. Davidson leads the FSA HAB Monitoring Programme. The research findings also underpin the Crown Estate's finfish monitoring programmes and are used to advise aquaculture businesses on ways to reduce economic impact of HAB events.
Research on the population biology of the stag beetle at Royal Holloway has created impact on the environment (species conservation through an increase in available habitat and in known breeding sites), impact on public policy (production of a species action plan and an EU Directive and the management of woodland habitats), and impact on society (change in public understanding). Using a `Citizen Science' approach, over 250 volunteers have engaged with this research in population surveys and over 1,000 have helped to create breeding sites. The research has helped to implement conservation policy decisions in the UK and EU and has produced many public information guides. It also has resulted in a radically revised Joint Nature Conservation Committee (JNCC) national Biodiversity Action Plan (BAP) for the species. Furthermore, the research has created impact on practitioners (through enhancement of teaching practices) and brought practical conservation biology into schools, improving the teaching of the National Curriculum at KS2 and 3.