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This case study concerns the impact of Plymouth University research relating to farmed fish diets, which led to changes to EU legislation with respect to two types of ingredients: animal proteins and probiotics. The impact of the reintroduction of certain animal proteins in farmed fish feeds (previously banned to protect human health) and to the authorization of a probiotic as a feed additive, involved industry investment in research, have reduced the environmental impact of farmed fishing, improved competitiveness, enhanced yield and quality and improved fish health and survival.
Research on the environmental safety and toxicity of nanomaterials in fishes has had a global impact across both government and industry contributing to:
(i) Consensus building on biological effects allowing regulatory agencies/governments to make proper decisions on the hazard of nanomaterials to farmed fish and wildlife.
(ii) Critical evaluation of the internationally agreed process of toxicity testing to determine whether the current legislative test methods are fit for purpose and acceptable to the aquaculture industry.
(iii) Identification of national/international research priorities and policies via work with the OECD and the US Government.
(iv) Influencing government policy to support training and information for industry.
Salmon maturation prior to harvest constitutes an environmental, welfare and production bottleneck for the salmon aquaculture industry. Our research has reduced the number of fish that mature during the grow-out phase so they do not reallocate energy to develop gonads and display secondary sexual characteristics that reduce yield, harvest quality and increase disease susceptibility that can result in downgrading at processing and lost profitability. In addition, reproductively competent fish that escape from on-growing cages may breed with wild stocks, leading to potential introgression. This has a major impact on public perception of farmed salmon and it limits the expansion of the industry. The IoA Reproduction team has undertaken a comprehensive body of work since 1993 to address this critical production bottleneck through an array of management strategies. This work culminated in the REF period by the demonstration that salmon puberty can be reduced to <3% by the use of standardised lighting regimes (2008) followed by the first commercial production of sterile salmon (2012-13).
Hundreds of synthetic chemicals contaminate our food and water. Brunel's research shows harmful cumulative cocktail effects of low levels of contaminants in food and water, previously thought to be safe. The active translation of these results into European chemicals legislation also ensured a sound basis for including multiple chemical exposures in risk assessment. By working with the European Food Safety Authority, we demonstrated a viable approach to grouping chemicals for mixtures risk assessment. Based on our research, a totally new approach to grouping chemicals for mixtures risk assessment has been decided. This will influence maximum residue levels for toxic pesticides in food in Europe leading to better protection of consumers against the increased risks of harm due to multiple pesticide residues present in the majority of food items.
Two books and review/research articles in Italian have disseminated the findings from the underpinning research on creating false autobiographical memories and the dangers of inadequate interviewing techniques. This work has critically increased awareness in the Italian legal system amongst both barristers and judges, to the point of shaping the practice of interviewing witnesses in that country. It has also informed all verdicts on child sexual abuse by the Supreme Court of Cassation.
In 2008-2009 the UK was subject to legal infraction proceedings at the European Court of Justice (ECJ) for allegedly failing to implement the European Union's Urban Waste-water Treatment Directive (UWWTD). Research by the Institute of Estuarine and Coastal Studies, Hull (IECS) for the Environment Agency (EA)/Defra provided evidence to the UK Government for its defence against these allegations. The research consisted of:
- literature/data reviews and collection and analysis of critical evidence from the Humber.
- co-ordinating workshops and convening an expert panel of sufficient authoritative academic opinion to counteract the European Court of Justice allegations.
In December 2009 the European Court of Justice ruled in favour of the UK. Our research therefore helped to save very significant, unnecessary capital investment in nutrient removal technology for sewage treatment nationally and in the Yorkshire and Humber region especially. The UK government thus avoided the possibility of major European Commission fines of up to €703,000 per day, or €256m per annum, for infraction of the Urban Water-water Treatment Directive [1].
Listing an endangered DPS under US law (governed by the Endangered Species Act, ESA, of 1973) requires the use of genetic markers to assess the extent of reproductive isolation, direction and pattern of gene flow, and effective size of the DPS under assessment. Professor Hoelzel's group provided these essential data from work in multiple peer-review publications, and in a commissioned report in 2004 in support of a successful petition by the National Marine Fisheries Service (NMFS) to protect the killer whale population residing in the inland waters of Washington State, USA, after it was shown to have declined by 20% in 10 years (Krahn et al. 2004; see volume 79, No.222 of the Federal Register for DPS listing). This formed the foundation for on-going impact on policy and regulation between 2008 and the present, including support in response to petitions filed in 2012 and 2013 (see testimonial from the Branch Chief, NOAA Fisheries). Killer whale sustainability in this region reflects general ecosystem health and supports an economically important whale-watch industry.
Bangor Research since 1998 has pioneered, through experimental, comparative and modelling studies and industry collaborations, quantification of the wider ecosystem effects of fishing, specifically on seabed habitats. Novel findings gave policy and economic benefits to the fishing industry and led to the sustainable, continued profitable development of the UK's largest blue mussel fishery and Isle of Man scallop fishery, with a combined value of £22M. It directly led to Marine Stewardship Council (MSC) certification of these fisheries and underpinned certification of dozens of other demersal fisheries. Additionally, the research has influenced UK retailer policies on sustainable fish sourcing, providing direct environmental and commercial benefits and improving public knowledge and sustainable consumption.
Work by University of Stirling staff has contributed directly to improved wildlife resource management in the Central African region. Innovative research into the status and trends of key wildlife populations, ecological impacts, resource harvests and trade, drivers of resource use and assessing management success have contributed directly to new thinking on the issue, revisions of laws and policy and to success in attracting foreign aid for management issues. Stirling staff members now advise the Government of Gabon on resource management policies, National Park management and biodiversity issues.
This case study focuses on the development and usage of self-help material designed to aid people in feeling and performing better. It has achieved impact through raising awareness via mass media and professional outlets. Research informed self-help materials are available for open access via media links, academic organisations, service organisations (NHS), commercial organisations (London Marathon), national governing bodies (Research Councils), and professional bodies (British Association of Sport and Exercise Sciences). An on-line project, run in conjunction with BBC Lab UK, developed and tested self-help interventions with 75,000 users each receiving personalised feedback from former Olympian Michael Johnson.