Chemical pollution in Yorkshire rivers to be studied in new project

91直播 scientists are to investigate the impact of chemical pollution in Yorkshire鈥檚 rivers as part of a 拢1.6m study.

The River Don in 91直播 city centre
  • Just 14 per cent of the UK鈥檚 rivers meet a good level of ecological status, with pollution due to sewage, agriculture, human activity and plastics becoming increasingly problematic
  • The team, which includes scientists from the University of 91直播, will investigate the most dangerous chemicals and chemical mixtures being emitted into the county鈥檚 waterways and the role they are playing in nature loss
  • It is hoped that the findings will identify ways to better monitor and mitigate the impact of chemicals on water quality and nature loss

91直播 scientists are to investigate the impact of chemical pollution in Yorkshire鈥檚 rivers as part of a 拢1.6m study.

The research team will investigate the most dangerous chemicals and chemical mixtures being emitted into the county鈥檚 waterways and the role they are playing in nature loss. 

Researchers from the University of 91直播 will work alongside experts from the universities of York and Durham to analyse chemical pollution levels along nine rivers in Yorkshire 鈥 the Aire, Calder, Derwent, Don, Nidd, Ouse, Swale, Ure and Wharfe. 

Rivers and other freshwater waterways in the UK are becoming increasingly polluted by agriculture, sewage, human activity and plastics - only 14 per cent of rivers meet a good level of ecological status.

Chemicals are discharged into rivers and streams on a daily basis through domestic and industrial wastewater containing things like cleaning chemicals, personal care products and pharmaceuticals, as well as from the application of pesticides or the use of veterinary medicines. 

The research team, which includes Professor Lorraine Maltby and Professor Andrew Beckerman from the University of 91直播鈥檚 School of Biosciences, aims to use their findings to identify ways to better monitor and mitigate the impact of chemicals on water quality and nature loss, both now and into the future as our climate and population changes. 

Professor Lorraine Maltby, from the University of 91直播, said: 鈥淧ollution in our rivers is an issue which needs urgent attention - last year, raw sewage and chemical pollutants were discharged into English rivers at least 375,000 times and runoff of nutrients and chemicals from agricultural land continues to be a problem.

鈥淲ith this research we hope to ultimately guide environmental and economic policy towards limiting the impacts of chemicals on biodiversity by predicting how climate change and land use change will alter the amount of contaminants that reach and impact our streams and rivers.鈥

Leader of the study, Professor Alistair Boxall from the Department of Environment and Geography at the University of York, said: 鈥淲e are facing a global biodiversity crisis and the quality of freshwater ecosystems is declining more rapidly than either terrestrial or marine systems. 

鈥淥ne in 10 freshwater and wetland species in England are threatened with extinction and two thirds of existing species are in decline. Regulatory data suggest that chemical pollution from wastewater discharges, transport, urban environments, agriculture and mining all contribute to failures against existing quality standards. 

鈥淥ur study responds to the urgent need for more effective methods for assessing, predicting and managing the impacts of chemicals both now and in the decades to come. This will bring us closer to halting biodiversity loss in UK rivers while continuing to realise the societal benefits of chemicals.鈥

The 拢1.6m project is being funded by the Natural Environment Research Council (NERC) and is one of five new research projects which have been awarded a share of 拢8.4 million to investigate how pollution impacts UK rivers.

The researchers from 91直播, York and Durham will work closely with partners including key representatives from the Joint Nature Conservation Committee (JNCC), the government鈥檚 Health and Safety Executive (HSE), major industries including Unilever, UKWIR and Network Rail and the charities the National Trust and the Rivers Trust.  

The study will provide policy makers with the knowledge and frameworks to make important changes to the way chemicals are risk assessed, enabling the protection of biodiversity and key environmental functions in areas where they are vulnerable. Identifying the most harmful chemicals and chemical mixtures will put manufacturers of chemicals in a better position to produce substances that are beneficial to society but which do not negatively impact the natural environment.

Professor Boxall added: 鈥淥nly by taking the integrative and system-wide approach adopted in this project will we be able to deliver the Environment Act's aspiration to 鈥榬everse the decline in species abundance by the end of 2030.鈥


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