Plastic made from cane sugar also threatens the environment. Researchers from the University of Gothenburg have found that perch change their behaviour when exposed to so-called bioplastic.
Traditional plastic, based on fossil oil, has flooded the earth and there is microplastic in all living things. This has led to intensive research for alternatives that decompose faster in nature. Bio-based polymers based on cane sugar are one such option. The most common bioplastic is poly-L-lactide (PLA), which is used in 3D printers, textiles, food packaging, disposable cutlery and other applications.
PLA plastic changed the behaviour of perch
Bioplastics also have a negative impact on biological life. Doctoral student Azora König Kardgar at the University of Gothenburg has found that the behaviour of small perch exposed to bioplastics in fish food changed over a period of six months. They reacted far more when they met fellow perch than normal. In addition, there were signs of reduced movement, altered ability to form shoals and altered reaction when approached by danger.
“Toxicological experiments that analyse animal behaviour are very rare. Most commonly, researchers look at physiological changes. We can see that something in PLA plastic causes changes in the fish, but we can’t see what,” says Azora.
Because this research looked at PLA microplastic particles, the researchers also tested feeding the perch with kaolin particles, a white clay used for porcelain and to coat paper. Fish fed with kaolin showed some minor changes in behaviour. However, a male sex hormone was affected and some other gene expressions in the fish was curbed, such as the response to stress.
PLA is not an environmentally friendly option
“We see that PLA is not harmless to fish, so it should not be sold as an environmentally friendly alternative to ordinary plastic. It should be considered as equivalent to ordinary plastic,” says Azora.
Fish were fed for six months with food containing 2 per cent PLA, which is about the concentration of ordinary petrochemical plastic used in previous studies. The quantity of kaolin fed to another group of fish was also 2 per cent. In addition, there was also a control group of perch fed with uncontaminated food.
Contact: Azora König Kardgar, doctoral student at the Department of Biological and Environmental Sciences at the University of Gothenburg, phone: +46 (0)767-65 73 47, email: azora.konig@bioenv.gu.se