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The Sinai Baton Blue is the world's smallest butterfly, and is restricted to the St. Katherine Protectorate in the South Sinai region of Egypt. Research by Francis Gilbert's group on climate change and biodiversity in Egypt surveyed populations of the butterfly for the first time and ensured it received IUCN Critically Endangered status. The butterfly became the focus of biodiversity awareness campaigns in Egypt: appearing on a stamp, in Government-backed educational programmes in schools, and as the flagship species for conservation in Egypt's most important National Park. Current work contributes to international conservation of this extremely rare species and its host-plant, respecting indigenous Bedouin knowledge, benefitting their tribal community, and ensuring international conservation strategies incorporate local pastoralist traditions to sustain the genetic diversity of the planet.
Research on the population biology of the stag beetle at Royal Holloway has created impact on the environment (species conservation through an increase in available habitat and in known breeding sites), impact on public policy (production of a species action plan and an EU Directive and the management of woodland habitats), and impact on society (change in public understanding). Using a `Citizen Science' approach, over 250 volunteers have engaged with this research in population surveys and over 1,000 have helped to create breeding sites. The research has helped to implement conservation policy decisions in the UK and EU and has produced many public information guides. It also has resulted in a radically revised Joint Nature Conservation Committee (JNCC) national Biodiversity Action Plan (BAP) for the species. Furthermore, the research has created impact on practitioners (through enhancement of teaching practices) and brought practical conservation biology into schools, improving the teaching of the National Curriculum at KS2 and 3.
Identification of rare plant species on nature reserves at Malham (Yorks.) and Morvich (W. Scotland) led to site managers developing sympathetic management approaches to ensure the species' conservation. These are detailed in management plans and include reduction in grazing and introduction of population census to assess management success. In addition, incorporation of the discoveries into plant guides has led to increased awareness of the two species which in turn has drawn naturalists to view and photograph them. Thus the research at Edge Hill has led to the conservation of and increased awareness of a rare component of the UK flora.
York research on the responses of species to habitat fragmentation has led to a paradigm shift in the approach to conservation that has permeated non-governmental organisations (NGOs), governmental agencies and intergovernmental bodies; the traditional concept of protecting and managing populations of species in isolated reserves has largely been replaced by landscape-scale conservation strategies, which increase the long-term survival of species. This new approach is now accepted government policy and has altered practical land designation and management for conservation over millions of hectares in the UK, as well as affecting the strategies adopted by most global conservation organisations and countries in the world.
Conservation of migratory bird species is an inherently international endeavour, because the fate of these species depends upon the actions of nations throughout their migratory ranges.
Research into migratory wading bird populations by Jennifer Gill and colleagues at UEA has had the following impacts:
Research from the Department of Zoology has been instrumental in identifying residues of the veterinary painkiller diclofenac in cattle carcasses as responsible for catastrophic declines in vulture populations across the Indian subcontinent. As a result, the drug has been banned for veterinary use in the relevant countries, and an international conservation effort (SAVE) to Save Asia's Vultures from Extinction has been set up. Declines have since slowed, captive breeding programmes have been introduced, and local people have been trained in monitoring work and advocacy. There has also been inter-government collaboration to support conservation efforts, the first example of such collaboration on the subcontinent.
Research by Oxford University has led to the development of a biodiversity assessment tool based on three biological indices, that has been used in many parts of the world to prioritise and protect biodiversity hotspots, particularly in landscapes that are at major threat from logging or conversion to agriculture. In Ghana these methods have led to the protection of ~2,300 km2 of forest reserves (13% of the total forest network) and were codified in a simple field guide. In Liberia a multinational mining company made important conservation decisions based on the application of these methods. Use of the tool has led to the retention of substantial areas of high biodiversity forest in West Africa, despite competing economic and political drivers, and amidst a continuing general decline in forest condition across the region.
Conservation activities must be well grounded in solid science to be effective. Our research identified specific threats to the survival of threatened species in Sichuan Province, China. Research outcomes were used to create, maintain and monitor nature reserves, ensuring species survival. The revelation that human cultural and subsistence activities were adversely affecting threatened species led to successful promotion and adoption of beneficial alternatives to these behaviours. Our research provided the basis for technical support to local communities through capacity building and community development, empowering indigenous ethnic minority populations to protect forest habitat for wildlife. LJMU-led research identified the factors which adversely impacted breeding success of threatened birds, creating opportunities for the amelioration of these threats and promoting conservation of threatened species.
Drs Peck and Stewart are actively engaged in conservation projects in Papua New Guinea (PNG) and Ecuador and have established conservation areas that are now protected from logging and which provide a sustainable income for local communities. These impacts are:
Molecular and evolutionary research by Dr Jim Groombridge at the University of Kent, (2003 onwards, lecturer 2003-2008, Senior Lecturer 2008-2012, Reader 2012-), undertaken in partnership with the Mauritius Wildlife Foundation, the Seychelles Islands Foundation and Government Ministries of both states, has identified unexpected evolutionary distinctiveness and established high conservation priority for rare populations of birds and frogs on Mauritius and Seychelles. Subsequent studies have led to the recovery of three critically-endangered species and to the alleviation of problems with wildlife disease. Groombridge's research has led to renewed investment of international conservation resources across the Indian Ocean. His work on island species conservation is particularly important because islands host a high proportion of global biodiversity and help define our understanding of evolutionary science; these `living laboratories' also host many of the World's rarest species making them a global conservation priority.