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The University of Southampton's long-term archaeological research at Avebury forms the basis upon which national and international heritage organisations such as the National Trust and UNESCO manage and preserve one of the most important prehistoric landscapes in the world. Local councils have used the research findings to inform their own policy and planning decisions. Research disseminated through museum exhibitions, public engagement events and publications has resulted in increased public interest and understanding of the site, stimulating greater tourism and local economic benefit.
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.
The site of Star Carr (c. 9000 BC) is internationally renowned in the archaeological world yet, until now, has been virtually unheard of in the public sphere. Research at York has enhanced the preservation and conservation of this important site, securing its status on the Schedule of Monuments, and informed the management, protection and restoration of wetlands across Europe. Alongside this, research into the public perception of the Mesolithic has guided a comprehensive range of public engagement activities which have enhanced Mesolithic heritage presentation and raised global awareness of this undervalued period of human prehistory.
Southampton researchers have developed, commercialised and applied an array of new technological methods and interpretative approaches for managing the seabed through novel near surface geophysical imaging. This fundamental research has had demonstrable major impacts on areas as diverse as: improving the preservation and management of underwater cultural heritage (through providing direct UK government guidance and advice); enabling the sustainable use of the marine environment for the largest offshore infrastructure developments (including providers of nuclear power, wind power and trans-national energy connectors); enhanced mineral resource exploitation (for The Crown Estate — owners of the marine estate and regulators of the companies that exploit it); providing object detection service and training for the UK armed forces; assisting national and international law enforcement agencies in underwater search; and finally, disseminating these skills through postgraduate education to the UK and overseas marine survey sector.
Research at Newcastle on the historic landscapes of Britain and Europe has included significant contributions to the development of a technique called Historic Landscape Characterisation (HLC). Work on the methodology and research applications of HLC has impacted on policy and practice in the fields of sustainable landscape management, planning, and heritage conservation in the UK and abroad.
Bangor's research into Austrian archaeology has since 2008 resulted in significant impacts on Austrian archaeological heritage management, the archaeology labour market, and relationships between archaeologists and metal detectorists. Specifically, the National Heritage Agency (Bundesdenkmalamt; `NHA') has made significant changes to its policies, especially putting contracts to tender and introducing the first minimal standards for archaeological excavation, following a ministerial edict to change contract awarding practices. Recommendations on minimum salary levels for specific responsibilities in archaeological fieldwork have largely been adopted. The issue of how best to regulate metal detecting is being discussed on a national scale and attitudes towards detectorists are undergoing substantial change.
This research has had transformational impacts: systematically providing evidence of the state of cultural heritage policies concerning nine countries in South East Europe; identifying the need for management tools to integrate inventories, environmental and spatial planning, heritage protection and funding mechanisms for projects to enable sustainable use of heritage resources; helping shape a Council of Europe regional programme; creating the framework for legal/administration reform requests by the states concerned; and has led to technical assistance actions, jointly funded by the Council of Europe and the European Commission, including monitoring to ensure the institutionalisation of methodologies in national policies and strategies.
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.
The impact of this research has been to change architectural conservation practice to utilize plants as agents of conservation rather than remove them from ruins and other heritage sites. The impact stems from new scientific evidence based on integrated laboratory and field studies carried out at the School of Geography and the Environment in Oxford, by Professor Viles and her team, demonstrating that plants and other organic growths can be protective and contribute to successful and cost-effective conservation of heritage sites. The impact has been realised through close collaboration with English Heritage throughout the research process.
Durham Archaeology has significantly changed how one of the most important World Heritage Sites in Asia is protected and managed. By enhancing the definition, sequence and preservation of Lumbini, birthplace of the Lord Buddha, this research has influenced development plans for the maintenance of the site, preventing proposals that would have destroyed critical evidence of early Buddhist practice. The research approach is now being translated to neighbouring sites. The impacts of Durham's research thus have extensive reach, being of significant value to the Government of Nepal, the United Nations Educational and Scientific Organisation (UNESCO) and the Lumbini Development Trust.