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Safeguarding our seas through the establishment of marine Special Protection Areas and cultural heritage Seascapes is a fundamental aim of European Union Directives and the UK Marine and Coastal Access Act 2009. Over the past decade, sonar research development led by Dr Bates of the University of St Andrews has had widespread influence on international government and industry through accurate mapping of these assets, championing their importance and establishing new management strategies for their conservation. This work has been pivotal to the creation of 107 of the current legislated European Marine Special Areas of Conservation and Marine Special Protection Areas. The innovations in technology pioneered by this work also are providing critical findings on climate change impacts in the Earth's most sensitive and threatened environments with world media coverage on work in the Arctic including the award- winning TV series Operation Iceberg in 2012. Strong international media involvement has become one of the hallmarks of this work which simultaneously delivers research results as outputs of high quality across the globe. Furthermore, the technology has had economic impact in the form of three spin-out companies.
A programme of research conducted by The Centre for Maritime Archaeology (CMA) at the University of Southampton has influenced, at a national and international scale, the management and protection of underwater and coastal heritage. The research has directly influenced public policy, nationally through the English Heritage Maritime and Marine Historic Environment Research Agenda, and internationally by underpinning primary legislation and current practice in Uruguay. Capacity building has resulted in new educational infrastructure, the Centre for Maritime Archaeology and Underwater Cultural Heritage (CMAUCH) in Alexandria, Egypt, which has changed attitudes towards maritime heritage throughout the region.
Research into 3D visualisation of shipwreck sites with historical significance or that pose a threat to the environment e.g. Costa Concordia, Deepwater Horizon, has led to multiple impacts:
The research also led to the formation of a University spin-out company (ADUS) which surveys and visualises shipwrecks with great detail and accuracy. This informs critical decision-making during salvage, wreck removal and environmental clean-up operations.
Research at the submerged town of Pavlopetri in Greece has stimulated improved management and conservation of a key site of marine cultural heritage. It helped to forge a new policy against uncontrolled industrialisation of the Vatika bay, reducing potential environmental damage, and has informed the development of national governmental policy on the protection and presentation of submerged sites in Greece.
Utilising pioneering technological advancements in underwater scanning and improved visualisation processes, the research also helped an offshore engineering company to improve its product development and changed the way archaeologists and the public visualise, interpret and understand marine cultural heritage.
Through an internationally successful documentary (viewed by approximately 15 million people) that used state-of-the-art CGI technology, public awareness and policy engagement with underwater archaeology (and the environmental issues related to its preservation) have been enhanced and, locally, Vatika and the Laconia region have seen increased tourism and transformed community involvement.
Research on the distribution, abundance and sensitivity to disturbance of marine predators has been translated into environmental and economic benefits via a series of spin-out companies with a global presence. The research enabled the following impacts:
Direct company earnings were ~£6 million turnover in the assessment period and this supported 24 employees two-thirds of whom are skilled specialists.
Enhanced structural geology models of complex fractured reservoirs, utilising new virtual- and field-based techniques developed at Durham, have been applied by industry in the Faroe- Shetland region, N Britain and helped sanction development of the 8 billion barrel Clair Ridge project, a £4.5 billion investment by the Clair Joint Venture Group (BP, Shell, ConocoPhillips, Chevron). Geospatial Research Ltd (a spin-out launched in 2004) has additionally used Durham structural geology research methodologies and expertise to provide > £1.3 million of consultancy services to the global hydrocarbon industry creating, since 2008, 12 new highly skilled jobs.
This research in Libya has had several significant impacts with wide reach for a range of different groups, both national and international. It has made fundamental contributions to the archaeological mapping of Libya (a country of extraordinary archaeological richness but still poorly recorded), to the development of typologies of sites and artefacts, and to dating frameworks. This has delivered major related impacts for management of cultural heritage by the Libyan Department of Antiquities (DoA), and for Environmental Impact Assessment (EIA) and archaeological mitigation work by oil companies in the Libyan desert. There have been additional benefits through dissemination of new historical models, as well as protection of heritage sites during the 2011 conflict.
Achievement of energy security and the UK's 2020 carbon targets economy depends upon a mix of new offshore oil and gas and renewable energy developments, but concern that seismic survey and construction noise could pose an unacceptable risk to marine mammals threatens to delay these plans.
University of Aberdeen ecologists, under the direction of Paul Thompson, have developed long-term studies of marine mammal population dynamics that now underpin frameworks for assessing and mitigating the impacts of such developments on marine mammals in EU protected areas.
The specific impact on commerce and the environment is that this assessment process has been adopted by industry within their consent applications. As a result of academic consultancy in industry, planning decisions have been informed by the research, and the management of environmental risks has changed. This has reduced the consenting risk for industry and provided an assessment framework that allows regulators to ensure that they are implementing current government policy within international legal frameworks for environmental protection.
The research resulted in primary legislation and provided government with the evidence used when implementing the measures set out within legislation. Specifically, this concerned:
This work, together with connected public outreach, was awarded the Queen's Anniversary Prize in 2011 for excellence in research supporting better governance of the ocean.
Bradford's pioneering research into geophysical prospecting has significantly changed the approach to heritage management in the UK and internationally. Our research has influenced the development of commercial survey instruments in this field as well as changing industry guidance/practice. The changes include increased use of more sustainable, non-invasive methods for archaeological investigation and the gathering of richer data about the buried past. Our guidelines for legacy archaeological data have created standards in the archiving of this valuable information resource for public re-use. The group's involvement with Time Team has enhanced public awareness of geophysical prospecting which is demonstrated in the increased use of these techniques by community groups.