Latest news with #EmilyThrift
The Independent
29-05-2025
- Health
- The Independent
Scientists fear Britain's entire food chain is contaminated as study finds microplastics in bugs
Plastic pollution is harming slugs, beetles, snails and earthworms, new research has found, raising fears Britain's entire food chain has been contaminated. Researchers found more than one in ten bugs had fragments of plastic in their stomachs, causing harmful chemicals to be passed on to larger animals that feed on them, like birds and hedgehogs. The study, by scientists at Sussex and Exeter universities, analysed more than 580 bug samples from 51 sites across Sussex. Microplastics were found in almost 12 per cent of bugs with the highest levels recorded in earthworms (30 per cent) and slugs and snails (24 per cent). Polyester, most likely from clothes, was the most common type of plastic found in the invertebrates tested. Researchers suspected these plastic fibres came from dried human sewage sludge which is used as fertiliser by some farmers and can contain fibres from washing machines. One common garden black beetle was found with a 4.5mm long piece of nylon inside it- that's a quarter of its body length. Although animals that feed on decaying plant matter had the highest rates of plastic, carnivorous insects, such as ladybirds, were also affected. Researchers say the findings raise fresh concerns about the long-term effects of plastic pollution and its impact on biodiversity and that it should no longer be seen as solely a marine issue. 'We were surprised by just how widespread this plastic contamination is,' said lead author Emily Thrift, Ecology Doctoral Tutor at the University of Sussex. 'This is the first study to find plastics consistently turning up across an entire community of land invertebrates. 'Similar plastic types were found in hedgehog faeces in our earlier research, and they seem to be entering the diet of birds, mammals, and reptiles via their invertebrate prey.' One previous study on insects from 2024 revealed ingesting plastic can lead to stunted growth, reduced fertility and changes in liver, kidney, and stomach function in various species, raising alarm among conservationists. In another 2020 study published in the journal Global Change Biology, dippers, a type of small bird, were found to be ingesting about 200 plastic particles a day from the insects they eat. Three in four of the fragments found in the birds were less than 0.5mm in size but were up several millimetres in length. Professor Fiona Mathews, Environmental Biologist at the University of Sussex, stressed that microplastics are now found in every level of the food chain, from bugs to mammals. She said: 'Attention is currently focused on litter as the main source of contamination, but these findings suggest multiple sources ranging from clothing to paint.' The researchers say their work, which spans six invertebrate groups and four levels of the food chain, highlights the need to research how these different plastics are damaging the environment and implement stronger measures to limit plastic pollution.
The Independent
28-05-2025
- Health
- The Independent
Scientists fear Britain's entire food chain contaminated as study finds microplastics in bugs
Plastic pollution is harming slugs, beetles, snails and earthworms, new research has found, raising fears Britain's entire food chain has been contaminated. Researchers found more than one in ten bugs had fragments of plastic in their stomachs, causing harmful chemicals to be passed on to larger animals that feed on them, like birds and hedgehogs. The study, by scientists at Sussex and Exeter universities, analysed more than 580 bug samples from 51 sites across Sussex. Microplastics were found in almost 12 per cent of bugs with the highest levels recorded in earthworms (30 per cent) and slugs and snails (24 per cent). Polyester, most likely from clothes, was the most common type of plastic found in the invertebrates tested. Researchers suspected these plastic fibres came from dried human sewage sludge which is used as fertiliser by some farmers and can contain fibres from washing machines. One common garden black beetle was found with a 4.5mm long piece of nylon inside it- that's a quarter of its body length. Although animals that feed on decaying plant matter had the highest rates of plastic, carnivorous insects, such as ladybirds, were also affected. Researchers say the findings raise fresh concerns about the long-term effects of plastic pollution and its impact on biodiversity and that it should no longer be seen as solely a marine issue. 'We were surprised by just how widespread this plastic contamination is,' said lead author Emily Thrift, Ecology Doctoral Tutor at the University of Sussex. 'This is the first study to find plastics consistently turning up across an entire community of land invertebrates. 'Similar plastic types were found in hedgehog faeces in our earlier research, and they seem to be entering the diet of birds, mammals, and reptiles via their invertebrate prey.' One previous study on insects from 2024 revealed ingesting plastic can lead to stunted growth, reduced fertility and changes in liver, kidney, and stomach function in various species, raising alarm among conservationists. In another 2020 study published in the journal Global Change Biology, dippers, a type of small bird, were found to be ingesting about 200 plastic particles a day from the insects they eat. Three in four of the fragments found in the birds were less than 0.5mm in size but were up several millimetres in length. Professor Fiona Mathews, Environmental Biologist at the University of Sussex, stressed that microplastics are now found in every level of the food chain, from bugs to mammals. She said: 'Attention is currently focused on litter as the main source of contamination, but these findings suggest multiple sources ranging from clothing to paint.' The researchers say their work, which spans six invertebrate groups and four levels of the food chain, highlights the need to research how these different plastics are damaging the environment and implement stronger measures to limit plastic pollution.
BBC News
23-05-2025
- Science
- BBC News
Plastic in every level of food web, say Sussex scientists
Plastic pollution is now contaminating insects at the base of terrestrial food chains, raising fresh concerns about the long-term impact on wildlife, according to a new study by the Universities of Sussex and have discovered fragments of plastic in the stomachs of beetles, slugs, snails and earthworms, with the pollutants making their way up the food chain to birds, mammals and study, described as the most comprehensive of its kind, analysed more than 580 invertebrate samples from 51 sites across Fiona Mathews, an environmental biologist at the University of Sussex, said microplastics were now "ubiquitous at every level of the food web". A food web is a complex network made up of all of the food chains in an were detected in nearly 12% of specimens, with earthworms showing the highest contamination rate at 30%, followed by slugs and snails at 24%, said the commonly shed from clothing, was the most frequently detected plastic researcher Emily Thrift, from the University of Sussex, said the findings were "surprising and deeply concerning"."This is the first study to find plastics consistently turning up across an entire community of land invertebrates," she said."Similar plastic types have previously been found in hedgehog faeces and appear to be entering the diet of birds, mammals and reptiles via their invertebrate prey."The research team warned that plastic pollution should no longer be seen as solely a marine issue. The team said the chemicals released by degrading plastics in soil pose serious risks to biodiversity, with previous studies linking ingestion of plastic to stunted growth, organ damage and reduced fertility in and decomposers – such as worms and slugs – were found to be the most heavily contaminated. However, carnivorous insects like ladybirds were also affected, often ingesting larger plastic particles through their prey. Co-author of the study Prof Tamara Galloway, from the University of Exeter, said: "To reduce the uptake of microplastics into the food web we first have to understand how it is getting there. "Emily's results are a crucial first step to understanding this process and its consequences for wildlife."Prof Mathews said the focus has often been on plastics in "visible litter" but added the findings "suggest multiple hidden sources – from clothing fibres to paint particles". "There is now an urgent need to understand how different types of plastics are affecting ecosystems, and to take steps to reduce their release into the environment," she said,The researchers say their work, which spans six invertebrate groups and four levels of the food chain, highlights the need for broader environmental monitoring and stronger measures to limit plastic pollution.
