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Since 2005 there has been a surge of interest in reducing tropical deforestation as a means of mitigating global climate change, as well as enhancing the protection of tropical biodiversity and contributing to sustainable rural development. Ways of achieving this include the REDD+ (Reducing Emissions from Deforestation and Degradation) within the UN Framework Convention on Climate Change (UNCCC), and also non-governmental ("voluntary") forest carbon sequestration projects being established across the tropics. The Ecosystems Group, led by Malhi, in the Oxford School of Geography and the Environment, has been actively engaged in natural science and policy/governance research directions, all of which have had impacts on both REDD+ and voluntary forest carbon sequestration projects. The group's natural science research has developed scientific methodologies for measuring tropical forest biomass, through in situ plots and satellite imagery, and they have been actively involved in establishing pilot REDD+ projects in several countries. On the policy and governance side, the Forest Governance Group, created in 2009, has played a key role in establishing global databases on the effectiveness of protected areas in conserving forests, provided international comparative analyses of forest policies outside protected areas, and actively engaged in global, regional and local REDD+ policy-making fora.
Impacts: I) Economic benefits derived from carbon credit and land-use schemes in sub-Saharan Africa. II) Multi-national developments in public-policy related to Reducing Emissions for Deforestation and Forest Degradation (REDD). III) Recommendation for launch by the European Space Agency (March 2013) of the first ever forest-specific monitoring mission.
Significance and reach: Public policy developments have occurred over the period 2011 - June 2013 in Malawi, Mozambique and Gabon. Increases of more than 20% in the level of rural employment pre and post 2008 have been documented for one project in Mozambique.
Underpinned by: Research into quantifying tropical forest biomass stocks and their degradation, undertaken at the University of Edinburgh (2004 onwards).
DU researchers have developed new algorithms and statistical models with which to make precise quantitative assessments of forest cover and forest attributes over small or large areas using satellite remote-sensing data, either alone or in combination with airborne or ground-based laser scanning. This research underpins the use of remote sensing as a cost-effective tool for aspects of forest resource management, planning, and policy compliance in many countries. Users include government agencies in the UK, Sweden, New Zealand and Guyana, and international forestry consultancy companies based in Finland with regional branches in New Zealand. DU researchers have also used these methods to help verify the Guyana government's entitlement to $250m under a UN initiative for avoidance of CO2 emissions.
Research by the University of Huddersfield is making a major contribution to maintaining the tropical forests of south-west Ethiopia and improving the livelihoods of those who rely on them. By identifying effective arrangements for sustainable resource management and small-scale business development, the research has led to increased production, enhanced links with national and international markets and developed new institutions, as well as leading to revised legislation. Over 105,000 hectares of degrading forest are being transformed into a working and profitable resource and 18 new enterprises now serve around 100,000 people. In total, an estimated fifteen million people benefit from new rules supporting forest enterprise development.
Impact on public policy and services: The use of well-adapted sources of forest tree seed for planting in the UK is embedded in native woodland planting policy. This policy is enforced through payment of planting grant only when appropriately adapted seed is utilised.
Impact on the environment: The new native woodland derived from locally adapted stock is not only more likely to show increased establishment, but also to be more resilient to native and introduced diseases.
Impact on commerce: 67% of native woodland seed is now locally-sourced, representing £4 million of the total trade of £8.2 million in British native trees.
Beneficiaries: Woodland owners and seed suppliers in the UK, who have an interest in ensuring maximum establishment and long-term tree health. Populations of wild animals reliant on the health of woodlands. Society as a whole benefits from a more sustainable environment and preserved biodiversity.
Significance and Reach: The policy and practice play important roles in maintaining a healthy, sustainable woodland environment with maximum biodiversity. On average 40 million trees of native species are planted annually in the UK.
Attribution: All the original research was undertaken at the University of Edinburgh, led by Professor Richard Ennos.
The creation of an evidenced-based framework for biodiversity conservation has profoundly altered approaches to conservation policy and practice, both in the UK and globally. Our research has underpinned strategic management that has supported tropical biodiversity resilience and mitigated ecosystem impacts in the face of changes in land-use, rural livelihoods and forest resource extraction. Our research on biodiversity and conservation management has had impact on governmental and non-governmental policy and practice at national (UK) and international (Brazil, Cambodia) scales, including directly influencing a forestry conservation Bill in Brazil.