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GM-6, a new maize variety developed through innovative Bangor crop breeding research (pioneering the use of participatory plant breeding) was released in three states in Western India between 2002 and 2005. Since its release, GM-6 cultivation has rapidly grown to a cumulative area exceeding 2M hectares, of which 54% (more than 1M ha) was during 2008-2013, with a major positive impact on the welfare and prosperity of at least 330,000 households per year. Because of its advantage under drought and on poor soils, GM-6 has average grain yields 28% higher than the best available alternative varieties, providing 360,000 t of additional food grain during 2008-2013 with a total net present value to these farm households of an average of at least £9M per year.
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.
The decline of bees, hoverflies, and other pollinators has been widely described as a "pollination crisis" (e.g. Progress Report of FAO on the Implementation of the International Pollinators Initiative - September 2012) which could have profound effects on both food security, and wild plant populations and the ecosystem services they support. Research by Professor Jeff Ollerton and colleagues into the ecology and diversity of plant-pollinator interactions has: (a) provided a scientific evidence base that has influenced national and international policies relating to the conservation of pollinator populations; (b) raised national and international public awareness of the subject of pollinator conservation; and (c) led to positive changes in UK gardening practices.
Professor Hani Hagras' research into type-2 Fuzzy Logic Controllers (FLCs) underpins novel control systems which avoid the drawbacks and shortcomings of the type-1 FLCs used in numerous real world applications. Type-2 FLCs, developed at Essex, enable challenging applications to be realised and managed with better accuracy and robustness. Such applications include:
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.
Hardy, small-grained cereals have received less scientific attention than their high-yielding, large-grained counterparts, in particular, wheat, rice and maize. The research of Jones' group at Cambridge into one of the hardiest of these, broomcorn or proso millet, has raised awareness of their past, present and future utility among environmental planners and bioscience research industries. It has influenced international policy advisers (via the Chevening Economics of Climate Change Programme, UK Foreign and Commonwealth Office), commercial decisions regarding research and development investment (by Unilever) and recognition of a new Globally Important Agricultural Heritage Systems site in the region of Aohan, Inner Mongolia (by the United Nation's Food and Agriculture Organization).
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.