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Surrey's research programme on the environmental, social and technological dimensions of sustainable development has generated widespread societal debate about the nature of the relationship between prosperity and sustainability. This has influenced national and international responses to the financial crisis, shaped long term international development plans and influenced industrial strategy. The best-selling book Prosperity without Growth has been translated into numerous foreign languages; Professor Jackson's TEDtalk has been viewed over a million times and has subtitles in 26 languages. The research continues to influence business leaders, policy-makers and civil society organisations globally.
The Green Guide to Specification is an environmental profiling system that enables designers and constructors to select building materials and components which have the lowest environmental impact. Designed and developed at Oxford Brookes University, the Green Guide methodology provides the construction industry with reliable environmental evaluations based on quantitative Life Cycle Assessment (LCA) data. Now in its 4th edition and part of the BREEAM and Code for Sustainable Homes programmes, Green Guide has been used to reduce environmental impacts for over 230,000 recorded construction projects, with a further 1.07 million projects registered awaiting certification worldwide. In 2009, the Green Guide was adopted as the official design standard for all construction materials used in the London 2012 Olympics.
Developing sustainable consumption and production policies and practices in industry requires analysis of technical, environmental, economic and social performance of supply chains delivering goods and services. In a programme covering the 20 years since its foundation, the University of Surrey's Centre for Environmental Strategy (CES) has played a major role in developing a systematic "whole system" approach to assessing and managing supply chains, starting from Life Cycle Assessment (LCA) and Life Cycle Management (LCM) and progressing to sustainability analysis.
This approach underpins current national and international standards and policy and is embodied in the corporate strategies of a number of major companies (for example Unilever and M&S); the approach is also starting to be adopted in guiding the development of new consumer products.
This case study describes the policy impact of research on the deployment of renewable energy in Ireland, the UK and internationally. Three key policy impacts are highlighted;
1) The research has shaped policies underpinning the Republic of Ireland's aim to become a net energy exporter by 2030 and influenced other stakeholders in this field;
2) It has influenced good practice recommended globally by the International Energy Agency on the social acceptance of wind energy;
3) It has generated evidence on the performance of the UK's devolved administrations on renewable energy, which has been deployed in constitutional debates over Scottish Independence.
Since 2007, Edinburgh researchers have played an important role in increasing the use of local, context-specific knowledge in the assessment of technological sustainability and efficiency in the bioenergy and solar sectors in East Africa and South Asia. This has taken the following forms:
Science has guided national dryland policy in Africa through approaches that have omitted local knowledge, and has informed international policy through implementation of the United Nations Convention to Combat Desertification (UNCCD), previously developed by a Roster of Experts. Our national and district-level research in Botswana has identified routes to increase community involvement in degradation monitoring, and our strategies have been rolled out nationally via agricultural extension workers, allowing knowledge to inform farming practices and land policy. Our analysis of the wider international context has led us to propose new science-to-policy pathways that have allowed the UNCCD to draw more effectively upon both local and scientific evidence.
Examples are provided of significant impact by the Centre for Mathematical Modelling and Flow Analysis (CMMFA) upon the Marine Renewables and Offshore Wind communities. In particular, CMMFA informed the design of a novel wave energy converter being commercialised for connection to the national grid. CMMFA has also contributed to a study of the design parameters for an offshore wind power station as part of a larger interdisciplinary collaborative research effort. This work responds to and informs the RCUK Energy Programme via underpinning research, capacity building and provision of trained personnel thus enacting UK Government Energy Policy.
Effective, equitable natural resource management poses increasingly complex challenges for policymakers and local communities in the context of climate change, population growth and potentially conflicting agendas on biodiversity conservation, livelihoods and economic growth. Leicester research on socio-ecological, culturally appropriate approaches to environmental governance and sustainability has been integral to:
This research has demonstrated the shortcomings of recent changes to UK Government energy efficiency policy, and developed thinking about alternatives, in order to enable governments to provide an effective system of incentives for energy efficiency improvement. Such a system would allow energy sector decarbonisation at a lower cost than with supply side strategies alone. The analysis and concept have both had an impact. In the UK, the team of researchers have secured support from major environmental NGOs, have been included in a UK Government policy consultation, leading to the tabling of an amendment to the 2012 Energy Bill. Internationally, the team's research continues to influence leading policy analysts, including the Inter-Governmental Panel on Climate Change (IPCC).
It is widely acknowledged that conventional approaches to planning and development exacerbate environmental problems with consequential negative social and economic impacts. This award winning research proposes alternatives by examining the systems and techniques used in the design of autonomous eco-building in order to identify best practice in the procurement of low carbon buildings. The research findings were first tested and subsequently validated, through the design and construction of a community building in Lincolnshire. This building has won multiple awards for innovations in sustainability and the underpinning research has impacted at regional, national and international level through direct application to design, changes to professional practice and through enhanced public awareness