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Andrew McGonigle's research is focused on the development of improved techniques for monitoring volcanic gases, data which are vital for assessing hazard levels and issuing pre-eruption evacuation alerts. The instrumentation derived from this research is considerably cheaper, more reliable and accurate and samples far more frequently than possible previously. These devices have been disseminated to at least 25 countries and are now used as internationally adopted standards by governmental agencies in monitoring and forecasting operations. McGonigle's work led to a Rolex Award for Enterprise in 2008, the Award citation stating that "his combination of science and advanced technology has the potential to save thousands of lives".
Research focussed on understanding volcanic degassing and developing monitoring methods to forecast volcanic activity forms the basis of this impact case; this work was carried out by a group of academic staff and early-career researchers based in Cambridge. The arrival of large fluxes of sulphur-rich gases at the surface can be used to assess magma movement and forecast volcanic activity. This assessment feeds into local governmental decisions regarding risk mitigation and development planning, and the viability of commercial enterprises requiring access to volcanic areas. The development of automatic spectrometer networks for monitoring sulphur dioxide emissions was pioneered by this group. The prototype system was developed at Soufriere Hills Volcano, Montserrat and since then, the design has been patented and adopted at 20 volcano observatories worldwide.
Mercury is extremely toxic and there is a worldwide need to limit its use and manage redundant stocks. Diverse research in the UoA on mercury in the environment led to a knowledge-exchange initiative: `Integrating Knowledge to Inform Mercury Policy' (IKIMP). Since 2009, IKIMP's policy briefings and reports have had a significant impact on mercury policy at UK, European and global levels. The United Nations Environment Programme (UNEP) adopted IKIMP's decision-making framework to help countries deal with their redundant mercury. Defra used IKIMP reports to communicate the UK's position on mercury issues at EU and international levels, and IKIMP has influenced UNEP's development of the Minamata Convention, the international, legally-binding convention to limit mercury use agreed in 2013.
Measurements of sulphur dioxide emissions from volcanoes provide critical evidence for forecasting eruptions. From 2001 the research team led by Clive Oppenheimer (Department of Geography, University of Cambridge: Lecturer 1994-2003; Reader 2003-12; Professor 2012-) has shown that a new technique based on UV spectroscopy can revolutionise such measurements. The approach (awarded a US patent in 2006) has since 2008 come to underpin the state-of-the-art in operational surveillance of volcanic emissions worldwide, contributing significantly to hazard assessment and emergency management at over thirty volcanoes, and helping to save lives by providing early warning. The team has trained and supported volcanologists around the world in the methodology (in Costa Rica, 2008; Java, 2010; Iceland, 2012), and has helped in collecting data during volcanic crises (e.g. Merapi, 2010), contributing to planning decisions and the safety of local populations.
The 2010 eruption of Eyjafjallajökull volcano, Iceland caused prolonged closure of European airspace, costing the global airline industry an estimated $200 million per day and disrupting 10 million passengers. We have developed and tested models that predict the dispersal of volcanic ash and developed instrumentation to monitor ash clouds during flight bans and used it to test the models. Our research played a key role in establishing the need for a flight ban and in the adoption of a more flexible approach to its staged lifting as the emergency continued. It also led to increased levels of readiness and to new emergency procedures being put in place across Europe which have minimised the economic costs and human inconvenience without an unacceptable rise in the risks to passengers and crew. The new procedures safely eliminated unnecessary disruption to flights in the latter days of the crisis and during the subsequent eruption of another Icelandic volcano, Grímsvötn in 2011.
Research and knowledge exchange led by Prof. Jefferies in sustainable urban drainage systems (SUDS) has driven the design and integration of SUDS into urban environments, into urban planning and everyday practice in the UK, Europe and worldwide. This research has contributed to the development of policies and established guidelines that have informed the set-up of operational and monitoring systems and the reduction of a training manual which is impacting widely on the sector (downloaded >40.000 times). Evidence gathered through this research has supported drainage policy nationally and now underpins important parts of urban infrastructure, improving environments and their resilience to flooding.
In 2008-2009 the UK was subject to legal infraction proceedings at the European Court of Justice (ECJ) for allegedly failing to implement the European Union's Urban Waste-water Treatment Directive (UWWTD). Research by the Institute of Estuarine and Coastal Studies, Hull (IECS) for the Environment Agency (EA)/Defra provided evidence to the UK Government for its defence against these allegations. The research consisted of:
- literature/data reviews and collection and analysis of critical evidence from the Humber.
- co-ordinating workshops and convening an expert panel of sufficient authoritative academic opinion to counteract the European Court of Justice allegations.
In December 2009 the European Court of Justice ruled in favour of the UK. Our research therefore helped to save very significant, unnecessary capital investment in nutrient removal technology for sewage treatment nationally and in the Yorkshire and Humber region especially. The UK government thus avoided the possibility of major European Commission fines of up to €703,000 per day, or €256m per annum, for infraction of the Urban Water-water Treatment Directive [1].
Biocatalysts provide unique activities that facilitate chemical transformations that are simply not possible using abiotic methods. Northumbria University researchers with expertise in enzymes and biocatalysis have provided biocatalysis services to the pharmaceutical, fine chemical, food and biofuels industries through our business facing innovation unit Nzomics. This has generated significant contract research, collaboration and licence agreements to companies, including the pharmaceutical company GlaxoSmithKline and the services-led company Almac. Biocatalysts produced as a result of Northumbria University research and technology transfer are sold worldwide and benefit business through their use in research and development activities, such as the production of intermediates in drug synthesis.
Over one quarter of the estimated 886 million undernourished people in the world live in sub-Saharan Africa and their lives and livelihoods depend critically on rain-fed agriculture. However this region has lacked the equipment and the infrastructure to monitor rainfall. Over the past 20 years, the Unit's TAMSAT (Tropical Applications of Meteorology using SATellite Data and Ground-Based Observations) research group has developed a reliable and robust means for monitoring rainfall, appropriate for use in Africa. In addition, the Unit pioneered the use of such data to predict crop yields over large areas. TAMSAT data and methods are now used in food security (to anticipate drought and predict crop and livestock yields); in health planning (to predict outbreaks of rain-promoted diseases such as malaria); in aid (to guide the allocation and distribution of relief food and water); and in economic planning (to plan mitigation activities and investment in infrastructure). The Unit's programme of development and validation has extended the method to all of Africa, at all times of year. Our work with national meteorological services in Africa has helped them to build their own capabilities and to both contribute to TAMSAT and exploit it. The data provided by TAMSAT has had major impact in increasing the resilience of African populations to weather and climate, saving and improving the quality of lives, and strengthening economies in developing nations.
This case study focuses on the development and usage of self-help material designed to aid people in feeling and performing better. It has achieved impact through raising awareness via mass media and professional outlets. Research informed self-help materials are available for open access via media links, academic organisations, service organisations (NHS), commercial organisations (London Marathon), national governing bodies (Research Councils), and professional bodies (British Association of Sport and Exercise Sciences). An on-line project, run in conjunction with BBC Lab UK, developed and tested self-help interventions with 75,000 users each receiving personalised feedback from former Olympian Michael Johnson.