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Research over the last 20 years by Jane Nicklin (née Faull) and her research group has established expertise in fungi, which has led to impacts in three areas: impacts on the licensing of commercial products for the control of insect pests which affect food crops, which have led to a new product being licensed in the US to the benefit of vine growers; impacts on heritage conservation, where the work has benefitted English Heritage, the National Trust and many other conservation groups; and impacts on public awareness and media engagement with science, in particular through her work with Channel 4's How Clean is your House? in 2009.
Durham has a long-standing record of research into improving the resistance of crop plants towards pests, which includes pioneering work on genetic engineering of plants for insect resistance. The CpTI gene developed in Durham for enhancing insect resistance in transgenic crops has had a major impact on Chinese agriculture, due to the widespread deployment of GM cotton containing genes encoding Bacillus thuringiensis (Bt) toxin and CpTI. The SGK 321 transgenic cotton line was approved for commercial growing in China in 1999, and by the current REF period Bt/CpTI cotton was grown on approximately 0.5 million hectares of land, representing approximately 15% of the total transgenic cotton grown (which in turn represented 67% of total cotton production). The economic value of Bt/CpTI cotton is estimated as approx. £600 million per year.
Based on innovative technology invented and developed through research at the University of Southampton, sustainable pest control products by spinout company Exosect are being employed around the world to preserve the global food supply. Since 2008 its bio-control products have been newly adopted in diverse situations: by Sainsbury's in response to consumer pressure to reduce chemicals in food; by Bayer CropScience, who bought rights, in a multimillion pound deal, to a product for the protection of bee populations; by English Heritage to preserve the UK's cultural heritage. The technology has inspired a US$1m Gates Foundation grant for poverty reduction efforts in sub-Saharan Africa and raised awareness among conventional pesticide manufacturers of the environmental and economic benefits of bio-control solutions.
Professor Luke Alphey at the University of Oxford has developed a new and highly effective technique for the control and eradication of insect pests and carriers of disease. This groundbreaking approach involves the introduction of a dominant lethal gene into an insect's DNA at the egg stage. Since 2012, the method has been successfully applied in Brazil to control Aedes aegypti, the worldwide vector of the dengue fever virus. The regulatory framework for genetically modified insects has also changed substantially as a result of Alphey's work. The spin-out company Oxitec has attracted investment in the region of £13.4 million since 2008, reflecting the huge potential of this approach.