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The Scottish Government is aiming to generate all of its electricity through renewable energy sources by 2020. Research by the University of Aberdeen has produced a freely available tool - the Windfarm Carbon Calculator - that has overhauled the planning process for windfarm developments in Scotland. In changing public policy and planning regulations, and informing the public debate, Aberdeen's calculator is helping the Government fulfil its pledge to become "the green energy powerhouse of Europe" while protecting some of the country's most environmentally fragile areas. It continues to guide the actions of politicians, planners, the wind industry, NGOs and community groups.
The claimed impact therefore is on: the environment, economy and commerce, public policies and services, practitioners and services.
International and national political negotiations and public debates about climate change mitigation policies can only progress with accurate and timely updates about the global carbon budget. Annual carbon updates have been supplied over many years, as a result of our work. The "Global Carbon Project" (GCP) has become the definitive source on carbon budgets for political and policy processes dealing with climate change mitigation and the GCP draws heavily on the School's work on the ocean carbon cycle, including ocean iron fertilisation, and its relevance to the contemporary global carbon budget. This is evidenced by its citation and influence on national (e.g. UK, Germany, Australia, USA, Sweden and Canada) and international (e.g. UN Framework Convention on Climate Change) deliberations.
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.
Impacts: I) Development of carbon credit certification schemes, including the expansion by the Gold Standard Foundation into land-use and forestry and the creation of the Natural Forest Standard by Ecometrica Ltd (both in 2012). II) Enhanced cross-sector collaboration for the quantification of forest-loss risks and implications for financing risks, through the 2011 creation of a Forest Finance Risk Network (FFRN).
Significance and reach: The Gold Standard Foundation represents nine forestry projects worldwide (benefiting >8,500 people) and over 1.8million ha. of Brazilian land is managed through two Natural Forest Standard projects. The FFRN connects 80 member organizations globally.
Underpinned by: Research into carbon emissions associated with forest-loss, undertaken at the University of Edinburgh (2005 onwards).
Research in the UoA developed a methodology for Carbon Calculations over the Life Cycle of Industrial Activities (CCaLC), providing `cradle to grave' carbon footprint estimates for commercial products. The methodology was embedded in a set of software tools designed to be used by non- experts, allowing companies to perform carbon footprinting in-house. The software is free to download, currently with 3300 users in more than 70 countries. The methodology and software tools have been endorsed by BERR (now BIS), DEFRA and the World Bank, and used widely by industry, across a range of sectors, to reduce carbon footprints of their products. This has resulted in significant environmental and socio-economic benefits, including estimated climate change mitigation gains in excess of £450m.
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.
Carbon dioxide sequestration is the process by which pressured CO2 is injected into a storage space within the Earth rather than released into the atmosphere. It is one of the major ways that carbon dioxide emissions can be controlled.
Research since 2004 by applied mathematicians at the University of Cambridge into the many different effects that might be encountered during this process has had considerable impact on government and industry groups in determining how the field is viewed and how it should and might be industrially developed. The work played a major role in the CO2CRC conferences and was subsequently reported to the Australian Government by the CO2CRC chair and organisers.
Dr Luiz Aragão in Geography at Exeter has, since 2008, led research focused on quantifying the impacts of environmental change on fire risk and carbon dynamics in Amazonian forests. This has had a number of impacts. First, research into drought frequency and intensity and fire occurrence has directly informed the design and implementation of environmental policy and regulation in relation to a `zero fire' policy by the State of Acre in Brazil. Second, the research has led to the development of new monitoring tools to assist policy makers in understanding the interactions between climate, ecosystems, and human health in Amazonia. Third, research into carbon emissions has influenced methodological development within the United Nations REDD (Reducing Emissions from Deforestation and Forest Degradation in Developing Countries) programme in Colombia. Finally, Dr Aragão's research has been widely disseminated in media outlets, thus increasing awareness of the general public and policy makers on drought and fire issues in Amazonia.
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.
Research undertaken at the University of Manchester (UoM) has described peatland erosion and its impacts on hydrology and carbon balance; demonstrating the value of large scale peatland restoration via the re-vegetation of bare peat and erosion gully blocking. The primary impact can be seen within the Peak District National Park, where findings have formed the scientific underpinning for extensive investment in landscape-scale peatland restoration (totalling > £13m) by restoration practitioners such as the Moors for the Future Partnership (MFFP), which is significantly transforming degraded but iconic peatland landscapes. The MFFP mode is viewed as a national exemplar, with UoM research continuing to impact on upland policy, land use and restoration planning by regional, national and international bodies (National Trust, Moors for the Future, Natural England, DEFRA and the International Union for Conservation of Nature).