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The United Kingdom is today better adapted to climate risks as a result of a sustained programme of research completed by the School into the impacts of climate change on ecological, social and infrastructural systems. This work has had significant and continuing impact on the design and implementation of UK (and international) climate adaptation strategies and policies, especially with regard to flooding, the built environment and water and coastal management. Decision-support tools (such as climate scenarios and options appraisal) and direct policy advice produced by the School have been used by numerous public and private sector organisations to inform and guide their adaptation strategies and investments.
Significant climate change is forecast for the Middle East by the end of this century, leading to — amongst other things — greater water scarcity and falling agricultural productivity. LSE research resulted in the development of the Palestinian Authority's first climate change adaptation strategy. This in turn led to the creation of a Palestinian national committee on climate change and, with the implementation of specific recommendations from this research, the strengthening of climate change planning within the Palestinian Authority. The research also shifted regional priorities for the United Nations Development Programme (UNDP), which subsequently included climate change in its 2011-2013 Strategic Framework as a policy priority for development work in the occupied Palestinian territory.
The Edinburgh-based research (2009-) of Gordon Hughes underpinning this case study has influenced the development of World Bank policies and advice concerning the response to climate change. It has done so by providing a measure of the financial costs of adapting our infrastructure to climate change. His work shows that the financial burden is unevenly spread across countries and sectors, but it can often be substantially reduced by better managing natural resources and weather risks. These findings were given a worldwide reach as they formed the factual basis for the signing of international agreements (worth $80bn) on reducing greenhouse emissions by the 2010 Conference of Parties (all the UN member states).
The research has had significant impact on the design and implementation of public-private partnerships at the international level (theme 1). It has led to new professional groups within the finance sector (theme 2). In particular research has directly influenced the investments of the International Climate Fund (£2.9 billion) set up by the UK Government; the Little Rock Accord signed in December 2012, with the Club de Madrid group of former world leaders; credit rating analysis of energy and water utilities by Standard & Poor's; and a new Board in the UK Institute and Faculty of Actuaries. Collectively these groups influence substantial capital flows into climate and resource solutions globally.
Exeter's Centre for Energy and the Environment has created novel probabilistic weather files for 50 locations across the UK, consisting of hourly weather conditions over a year, which have been used by the construction industry to test resilience of building designs to climate change. They have already had significant economic impact through their use in more than £3bn worth of infrastructure projects, for example, Great Ormond Street Hospital, Leeds Arena, and the Zero Carbon Passivhaus School. The weather files are widely available to professionals and endorsed by internationally leading building simulation software providers such as Integrated Environmental Solutions.
Research at Loughborough University (LU) from 2000-2013 by Dr Wood and Professor Wilby has enabled Natural England, the Environment Agency of England and Wales, and the Environmental Protection Agency of Ireland, to implement European Directives (Water Framework, Habitats, and Groundwater). Benefits were accrued from the development of monitoring techniques and integrated modelling to understand long-term drivers of ecological status in river systems. This research has been translated into field standards and planning guidelines within the UK water sector. Moreover, this work helped other organisations such as World Wildlife Fund (WWF-UK) to raise public awareness of the consequences of household water use on freshwater environments.
Hope's research in developing the PAGE2002 model of climate change has been used extensively by government agencies in the UK and US, as well as the IMF and the international community in order to improve their calculations for global carbon emissions and setting carbon emissions targets. The model was used in the UK government's Eliasch Review, in order to calculate the costs and benefits of actions to reduce global deforestation; by the US Environmental Protection Agency, in order to calculate the marginal impact of one tonne of CO2 emissions; and the IMF, whose calculations using the PAGE2002 model form the basis for their guidance on carbon pricing.
Research undertaken at the University of Manchester (UoM) has enhanced capacity for assessing and responding to climate change impacts and risks in urban areas, by moving from basic research around user requirements to the development of scaleable decision support tools. The needs of end users have been considered from the outset, with a co-production model of research — academics working in joint enterprise with stakeholders from the public, private and third sectors — leading to enhanced take-up of the resulting ideas, tools and techniques. Impacts are based upon supporting climate change adaptation responses within planning authorities, at local, regional, national and international scales, with the web-based climate change adaptation tools, developed at UoM, now freely available to municipalities worldwide.
Research at the University of Exeter identifying potential climate tipping points and developing early warning methods for them has changed the framework for climate change discussion. Concepts introduced by Professor Tim Lenton and colleagues have infiltrated into climate change discussions among policy-makers, economists, business leaders, the media, and international social welfare organisations. Thorough analyses of abrupt, high impact, and uncertain probability events, including estimates of their proximity, has informed government debate and influenced policy around the world. It has also prompted the insurance and reinsurance industry to reconsider their risk portfolios and take into account tipping point events.
A novel large-area process-based crop simulation model developed at the University of Reading and published in 2004 has been used to explore how climate change may affect crop production and global food security. The results of Reading's modelling work have been used as evidence to support the case for action on climate change for international agreements and used by the UK Government to inform various areas of policy and, in particular, to help frame its position on climate change at international negotiations. The database and knowledge from this model also informed the development of Reading's innovative web-based tool that locates sites where the climate today is similar to the projected climate in another location - providing insight into potential adaptation practices for crop production in the future by linking to present-day examples. This tool has been used to inform and train farmers and policy-makers in developing countries and has supported policy implementation of the International Treaty on Plant Genetic Resources for Food and Agriculture.