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Research at the University of Exeter on the links between the Amazon rainforest and climate change has influenced international climate policy, has directly assisted Brazilian environmental policymakers, and has received international media coverage. The underpinning research spans the vulnerability of the rainforest to anthropogenic climate change and the mechanisms behind the Amazonian droughts of 2005 and 2010. Impact has been achieved by stimulating public debate through the media, by contribution to science-into-policy documents produced by the World Bank and for the United Nations Framework Convention on Climate Change (UNFCCC), and by direct face-to-face interaction with UK and Brazilian policymakers.
The Arctic is undergoing faster rates of climate change than most other regions of the world, with major global consequences. Since the 1990s, Professor Callaghan and co-workers at Sheffield have been at the forefront of determining climate change impacts on Arctic ecosystems. This research has directly led to, and fed into, invited authorship and major co-ordination roles in the authoritative international synthesis reports on climate change impacts commissioned by the Arctic Council and the Intergovernmental Panel on Climate Change (IPCC). Through these reports our findings have been widely communicated to international policymakers, the media and society. Callaghan and colleagues have provided policy advice directly to ministers, ambassadors, climate negotiators, and other leaders through face-to-face meetings and presentations, and influenced policy debates at regional to international levels. They have actively engaged in knowledge- exchange activities with Arctic indigenous societies, which are improving those societies' strategies for adaptation to climate change. Through public lectures, the media and authorship of a commissioned textbook, the Sheffield research findings have increased public understanding and influenced the A-level Geography curriculum.
Vincent Gauci and The Open University (OU) Ecosystems Research Group have demonstrated human influences over exchanges of carbon within vulnerable, temperate and tropical wetland ecosystems, which are the largest source of the powerful greenhouse gas methane to the atmosphere. The group's work showing that acid rain pollution suppresses methane emissions from wetlands has influenced policy in the UK, particularly peatland restoration, where the group has had direct interaction with users. The group's work on carbon balance resulting from deforestation, drainage and fires in the carbon-rich Bornean peat swamp has also informed IPCC methodologies for carbon balance calculations in its 2013 Wetlands Supplement.
Research led by the School of Geography at the University of Leeds has enabled, for the first time, the use of on-the-ground observations to evaluate directly the role of tropical forests in the global carbon cycle and to assess their sensitivity to change. Findings from the research have had a significant impact on international debates on the future trajectory of climate change and appropriate policy responses, and are influencing national-scale efforts across the tropics to manage forests in the face of climate change and to reduce carbon emissions resulting from deforestation [D, E, G, H, J]. The success of this Leeds-led initiative has been achieved through the extensive network of scientists involved in this global forest observatory: more than 250 scientists from over 50 institutions across more than 30 countries are now involved.
We conducted research on the impact of land-use change that has resulted in international action to improve forest management. Our research demonstrated that clearing forests to grow crops for biofuels leads to large carbon emissions. In light of these findings, the UK Government amended its biofuel policy to include mandatory sustainability criteria. Leeds researchers co-established with a number of businesses the charity United Bank of Carbon, resulting in the investment of £1.5 million and the protection of 200,000 hectares of forest. Our research underpinned a forest-based climate mitigation scheme resulting in the investment of an additional £440k in forest protection.
The Sinai Baton Blue is the world's smallest butterfly, and is restricted to the St. Katherine Protectorate in the South Sinai region of Egypt. Research by Francis Gilbert's group on climate change and biodiversity in Egypt surveyed populations of the butterfly for the first time and ensured it received IUCN Critically Endangered status. The butterfly became the focus of biodiversity awareness campaigns in Egypt: appearing on a stamp, in Government-backed educational programmes in schools, and as the flagship species for conservation in Egypt's most important National Park. Current work contributes to international conservation of this extremely rare species and its host-plant, respecting indigenous Bedouin knowledge, benefitting their tribal community, and ensuring international conservation strategies incorporate local pastoralist traditions to sustain the genetic diversity of the planet.
By describing the exceptional biodiversity of the Wakatobi Marine National Park (WMNP), Essex research underpinned the Park's nomination for World Heritage Status, and its designation as a UNESCO Man and the Biosphere (MAB) Reserve in 2012. MAB designation was due to our development of a participatory research programme that has taken approximately 5600 international research tourists to the WMNP since 2002. This sustainable research model has contributed to the economic development of the region through the employment of more than 100 local staff per year, injecting over £1M into the local economy. This has also led to increased turnover for our UK partner, Operation Wallacea, from £250k to over £3M per annum (2002-11).
Since 2002, the highly-invasive horse-chestnut leaf-miner moth has caused significant damage to horse-chestnut trees as it spread rapidly across the whole of England and Wales. It is unclear how this species has spread so quickly and so successfully. This case study outlines `Conker Tree Science', a project that addressed this question and, in so doing, had impact of significance and genuine reach on the public's understanding of, and engagement with, our changing environment.
The impact of `Conker Tree Science' encompassed three main elements. First, it produced a cohort of citizen scientists undertaking useful field-observations for genuine, hypothesis-led science. Second, the success of this project was so notable that `Conker Tree Science' was used as evidence of best practice for `citizen science' by RCUK. By extension, this process will help to produce further citizen scientists. Third, the project was also celebrated widely in the national media and as such, the project's reach was substantial as it informed the public about environmental issues and challenges. In addition, the project's data also contributed to Forestry Research (the Forestry Commission research institute) in its understanding of the diffusion of this invasive species.
Between 1996 and 2011, Swansea staff published a series of papers into effects of logging practices, land-use change and recent climatic change on rainforest erosion, hydrology and ecology in Sabah (Malaysian Borneo). This research has led to improved logging practices and land management policy and enhanced the spatial extent, design and security of rainforest conservation in the region — for example, in 2012-13, the Sabah Government more than doubled the area of legally protected rainforest to form an east-west (E-W) contiguous 5000 km2 rainforest area in eastern Sabah. This zone will be more robust in its responses to climatic change and less prone to wildfires than if the forest had been fragmented. This is of global conservational significance because the zone contains the largest remaining area of primary lowland rainforest (and orang-utan habitat) in SE Asia. The impact of our research was achieved through direct, long- term links between Swansea staff and local forest management and governmental bodies.
The UN Reducing Emissions from Deforestation and Forest Degradation (REDD+) programme offers developing countries incentives to reduce carbon emissions from forested lands. Work on carbon storage and sequestration led by researchers in the Department of Zoology has had demonstrable impacts on international development, via the REDD+ programme and two associated UN Conventions; Climate Change (UNFCCC) and Biodiversity (UN CBD), and on national level policy development in Tanzania and Brazil. It has improved the quality of data collection and monitoring necessary for successful implementation of REDD+, and has led to international investment. The work has also had direct impacts in a number of developing countries, through capacity building, employment generation, and enabling local communities to better adapt to climate change.