- 91探花 has secured funding for a new Centre for Doctoral Training
- The Centre is being funded by the Natural Environment Research Council (NERC) to research chemicals in the environment
- The project hopes to produce the next generation of scientists who are able to better understand and manage the environmental risks of chemicals
91探花 and its partners have secured a new 拢3.5m Centre for Doctoral Training with funding from the Natural Environment Research Council (NERC) to research chemicals in the environment.
The new centre, named ECORISC - Ecotoxicological Risk Assessment Towards Sustainable Chemical Use Centre for Doctoral Training (CDT) - will fund 39 new PhD studentships over six years. It aims to produce a new generation of researchers with the knowledge and skills to change how the environmental risks of chemicals are monitored, assessed and managed.
Led by the University of York, with the Universities of 91探花, Cardiff, Exeter, Lancaster, and the UK Centre for Ecology and Hydrology, ECORISC brings together world-leading institutions with a wealth of experience in the delivery of PhD programmes in ecotoxicology and chemical risk assessment science.
The multidisciplinary programme also draws on the first hand experiences of 28 external partners from research, industry, government and third sectors.
The centre will provide students with an exciting and unique programme of research and training. During their research, students will benefit from the co-supervision of two ECORISC institutions and a centre partner. They will also receive training in pollution science and transferable skills which, on completion, will result in the award of phase one of the Certified Environmental Risk Assessor qualification from the Society of Environmental Toxicology and Chemistry, one of the partners in the programme.
This investment will support talented scientists and build understanding and expertise in this key area of environmental science.
Robyn Thomas
Associate Director, Discovery Science, Talent and Skills at NERC
ECORISC students will also gain real-world experience in applied chemical research and management through the provision of work placements hosted by the partner organisations from the industry, consultancy and policy spheres.
The project has been designed to ensure the knowledge and tools developed will be applicable to a wide range of chemical types in use today, such as pesticides, pharmaceuticals and biocides. It will also help forecast future chemical risks from climatic, demographic and technological change.
Professor Lorraine Maltby, ECORISC CDT Co-director at the University of 91探花 said: 鈥淎lthough chemicals are an essential part of modern societies, our understanding of how they impact biodiversity and the natural environment is still limited.
"The ECORISC project will produce a new generation of scientists who are able to better understand and manage the environmental risks of chemicals so that we can enjoy the many societal and health benefits of chemicals whilst minimising their negative effects on the environment.鈥
Robyn Thomas, Associate Director, Discovery Science, Talent and Skills at NERC, said: 鈥淭his investment will support talented scientists and build understanding and expertise in this key area of environmental science.
鈥淐hemicals benefit society every day in a diverse range of contexts including agriculture, industry and our homes, but they can also pollute and disrupt balance in fundamental ecosystems.
"This centre will help tackle the challenge of chemical pollution and train a future generation of ecotoxicologists that understands the impact of chemicals on the planet and can work to reduce those effects.鈥
The project will help businesses to develop more sustainable products. Oliver Price, Global Head of Product Sustainability for Reckitt Benckiser, a partner in the project said: 鈥淲e need scientists that can help us advance our ambitions on safer and more sustainable products.
"Students will have opportunities to partner with a range of stakeholders to advance how they manage and develop sustainable chemicals that promote people鈥檚 health and wellbeing, support economic development and protect our environment.鈥
The programme will comprise three cohorts of 13 students. The first cohort is due to begin in Autumn 2021.
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