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Deep sea tailings placement (DSTP) techniques have been pioneered in Papua New Guinea (PNG): a mining reliant economy in a seismically active region, facing major environmental challenges in the safe handling and storage of mine tailings on land. Dr Shimmield's team researched impacts of DSTP on the marine environment specifically to inform and develop guidelines for the use of DSTP to reduce environmental impact, thereby lowering risk and increasing private sector investment. Guidelines have been established as regulation by the PNG Government providing reassurance to private investors, facilitating an increase in mining exports to 60% of total export (2010).
Dr Ceri Lewis' research expeditions to the Canadian High Arctic to investigate impacts of ocean acidification, have informed educational material, introducing oceans education to schools, both nationally and internationally. Lewis worked with Digital Explorer, a non-profit organisation, to provide free lesson plans and multi-media resources on ocean acidification and Arctic climate change to classrooms, both nationally and internationally. The resulting education resources, informed by Ceri's fieldwork, are already being used by 1,225 UK secondary schools (i.e. 30% of secondary schools in the UK), reaching over 658,000 pupils within the first year of being launched. These school resources are also being used internationally including a training programme in Alaska and outreach examples across Europe.
Research at the University of Southampton has redefined understanding of the potential rapidity of sea level rise above the present, and of the relationship between climate change and sea level. It has informed the "worst-case scenario" for climate change flood risk assessment in the UK as well as key adaptation policy documents throughout Europe, North America and Australasia. Impact generation occurs mainly though active public engagement, which ensures widespread international media attention, and through direct interaction with the Environment Agency (EA) and UK Climate Impact Programme (UKCIP) which have now joined the research group in a £3.3 million consortium project to better define the "worst case scenario".
This case study highlights the research at Plymouth University evidencing the problems of deep sea fishing in European waters. Working with policy makers, NEAFC, GOs, NGOs, and industry the researchers have contributed to solutions to deep-sea management problems across Europe. They have developed new techniques for habitat mapping which, coupled with human use data, has helped establish large offshore Marine Protected Areas (MPAs) that have minimized the effects of displacement on the industry while providing key refuges for ecosystem recovery and conservation.
The Plymouth University marine carbon team was the first to investigate ecological consequences of ocean acidification, and carbon capture and storage leakage. The findings have impacted on US legislation and are key to the UK ocean acidification research programme. The research is highlighted in the European Science Foundations' Science Policy Briefing on Impacts of Ocean Acidification (2009), the United Nations' Emerging Issues Bulletin on `Environmental consequence of ocean acidification: a threat to food security' (2010), the US `National Strategy to Meet the Challenges of a Changing Ocean' (2010) and the Intergovernmental Panel on Climate Change `Ocean Acidification Report' (2011).
Research on the status, distribution and ecology of sea turtles at the University of Exeter has driven national and international conservation policy, engaged millions of people worldwide and raised substantial funding for conservation. Governments including the UK, Cayman Islands, Cyprus and Gabon have used this research in making legislation and multi-million pound management decisions. Development of open-access animal tracking tools has facilitated a global network of over 135 countries, with more than 300 projects tracking thousands of animals from 118 species. The ability to adopt tracked animals online has attracted millions of visitors and raised funding for conservation projects world-wide.
In 2012, cod stocks in the North Sea were assessed as having recovered almost to a level at which their viability is considered to be safe. This recovery followed 3 decades of progressive depletion to only 50% of the safety threshold of abundance. Achieving this recovery required the EU to abandon an earlier `closed area' policy banning fishing in selected areas of the North Sea, and instead enforce drastic cuts in overall activity on national fishing fleets. The policy change was prompted in part by predictions from mathematical modelling of cod populations by researchers at Strathclyde, showing that the `closed area' policy was unlikely to be an effective strategy for recovery. The recovery has so far restored £17 million in annual value to the fishery.
Strategic Environmental Assessment (SEA) research conducted in the Spatial Planning and Impact Assessment Research Group (SPIA) since 2004 has examined how policy makers can support a high level of environmental protection through integration of environmental considerations into the preparation and adoption of policy. Research has made a key difference to the capacity of policy makers to shape more environmentally sustainable policy through evidence based policy making which is informed by environmental assessment procedures and techniques. Research findings have fed into guidance and other documents of national and international organisations in relation to designing environmentally sustainable policy.
Impact: Economic benefits arising from new exploitations of North Sea oil and gas fields (2008 - June 2013), including oil production at the Bentley field by Xcite Energy Ltd and gas production at the Wissey field by Tullow Oil plc.
Significance and reach: The Bentley field produced 47,000 barrels of oil (value ~$4.7M) over the period 2011 — 2012, with an estimated ~900M barrels in place. [text removed for publication].
Underpinned by: Research into the identification of geological features through seismic and sequence stratigraphy, undertaken at the University of Edinburgh (1993 - June 2013).
Since 1994, Professor Charles Sheppard at the University of Warwick, both individually and in collaboration with others, has published key results and observational studies into the coral reefs and islands of the Chagos Archipelago, central Indian Ocean. This is a British Overseas Territory - the British Indian Ocean Territory (BIOT), the UK's most biodiverse marine environment, comprising five atolls including the largest in the world and ten submerged atolls and banks covering 60,000 sqkm. These studies showed the marine environment there was the least impacted in the Indian Ocean, and the largest undamaged tract of coral reefs remaining in the world. It also has the worlds highest reef fish biomass, highest densities of the huge but endangered coconut crabs, and is the most unpolluted marine environment recorded in the world. Results in 250 papers to date from over 100 collaborators including several from Warwick (PhD students to Professors), provided the scientific basis for the UK Government's declaration in 2010 of the largest strictly no-take Marine Protected Area (MPA) in the world. The MPA exceeds 650,000 sqkm. The intention is to conserve this huge and globally important area in its present condition, for the benefit of the Indian Ocean countries, and to act as a scientific reference site, or baseline, for tropical studies world-wide. This declaration is a major step forward for marine conservation and food security in a region that has undergone massive decline, both in its ecological condition and ability to supply protein for inhabitants of many of the world's poorest countries.