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The impact of statistical ecology research at Kent is on both the survey design of data collection on wild animals, and the analysis of the resulting data. As a result of our research, better quality data are being collected more efficiently, and a wide range of new methods of data analysis are being used. This is essential for the conservation and management of wild animal populations and the preservation of biodiversity. New methods developed at Kent are now standard tools used in ecology. Examples of impact are improved understanding of the decline of British farmland birds, underpinning conservation action plans; and analysis of data from tiger surveys, supporting the Indonesian Government's National Tiger Recovery Plan.
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.
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.
The project to reintroduce the Great Bustard, a globally endangered bird formerly extinct in the UK, is this country's flagship platform to raise public awareness of threatened species and the need to preserve biodiversity. The group led by Professor Tamás Székely at the University of Bath contributes directly to the implementation of the reintroduction and provides the research that underpins the project. The project has successfully established a new breeding population, enhanced the survival of released birds and achieved ecological enrichment in the release area. In addition, the project has recruited volunteers and supporters from a broad range of society, has been the subject of extensive media coverage and is the focus of a public engagement programme on conservation. The bird has been adopted as the emblem of the county in which it is being released.
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.
Researchers at the University of St Andrews have changed the way environmental monitoring and impact assessment data are collected and analysed, particularly in the marine environment. We have developed new statistical models of wildlife population dynamics that, for example, form the basis for population assessment of most of the world's grey seals, allowing the UK and Canadian governments to implement effective management of the populations. Other research carried out by us has led to reformulation of the recommended standard statistical practice for impact assessment in the UK marine renewables industry, enabling marine regulators such as Marine Scotland to make better-informed licensing decisions concerning large-scale offshore renewable energy developments.
Dr Anne Goodenough and Professor Frank Chambers undertake applied ecological research with importance for conservation and management, nationally and internationally. Working with, or commissioned by, major national bodies including The Heather Trust, Natural England, Countryside Council for Wales, British Trust for Ornithology and RSPB, their research on rare species and habitats influences major national policy (e.g. species conservation priorities, and degraded habitat restoration and conservation). Furthermore, their research informs evidence-based changes in management for species (leading to conservation of internationally declining songbird, the pied flycatcher, at key sites throughout the UK) and landscapes (blanket bog and heather moorland restoration in Wales and England).
Research undertaken at Canterbury Christ Church University (CCCU) studied habitat enrichment in captive coyotes (with the National Wildlife Research Center in Utah), and herd composition of donkeys, horses and mules (with the Donkey Sanctuary). These studies observed social and environmental interactions, addressing important welfare indicators in gregarious species. The work identified welfare issues in both sites and provided the necessary evidence to allow improvements to be made.
Specifically, this research has:
1) led to changes in the husbandry practice and policy in both partner institutions that have improved animal welfare;
2) improved how the Donkey Sanctuary trains international partners and undertakes welfare education.
Scientists at the Institute of Zoology (IOZ) led the development of the IUCN Red List, the foremost tool for assessing species extinction risk. We further developed systems to evaluate the status of biodiversity at the national level (National Red Lists), quantify population changes (Living Planet Index) and robustly measure changing biodiversity (Sampled Red List Index), and global indicators of the status of biodiversity for the Convention on Biological Diversity (CBD). These are used to drive conservation policy and public engagement by Inter-Governmental and Non-Governmental Organisations, and national governments, and underpin measurement of adherence to CBD Targets for 2010 and 2020.
Work by Dr Robert Smith continues to be used by government agencies in Mozambique and South Africa, has already guided the development of Protected Areas (PAs) with a combined area of 25,000 hectares, and has been used by the Critical Ecosystem Partnership Fund to identify spatial priorities for their US$6.5 million funding programme. The team's research has had an obvious, direct and significant environmental impact in those regions. It has also had a broader global impact, including shaping the International Union for the Conservation of Nature's (IUCN) revised Key Biodiversity Area approach and developing software and training materials for conservation practitioners working in 103 countries. Protected Areas are the most widely used international approach for conserving biodiversity. Our research in Southern Africa is leading the development of systems for designing PA networks that meet biodiversity targets and minimise negative impacts on people in surrounding communities.