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Concentration of microparticles in lakes reflect nearby human activity and land use

Study suggests microparticle pollution in European lakes higher than previously reported

Date:
September 14, 2021
Source:
PLOS
Summary:
A new study suggests that microparticle concentrations in lakes are higher than previously reported, and that human activity and surrounding land use may be a strong predictor of microplastics and anthropogenic fiber pollution.
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Predicting where anthropogenic debris accumulates in aquatic ecosystems is necessary for its control and environmental remediation, but plastic and fiber pollution in lakes is not well studied. A study published in PLOS Biology by Andrew Tanentzap at University of Cambridge, United Kingdom and colleagues suggests that microparticle concentrations in lakes are higher than previously reported, and that human activity and surrounding land use may be a strong predictor of microplastics and anthropogenic fiber pollution.

Plastic microparticles are ingested by a range of animals including large vertebrates and can deteriorate water quality. However, little is known about how human activity affects the concentration of microparticles in lakes. To better understand the accumulation of plastic and fiber particles in lakes, researchers trawled the surface waters of 67 European lakes between April and September 2019, spanning 30° of latitude in a range of environments. They counted the microparticles in these lakes under a microscope and with chemical analyses and measured lake water quality. The authors then fitted a model to their field data as well as synthesized, published data from over 2,100 net tows. They also tested if pollution was more common in lakes that were surrounded by lands where more waste was generated according to an existing computer model.

The authors found that concentration of water microparticles quadrupled in areas with more human activity and doubled in areas with lower forest cover. The study excluded macroparticles greater than 5 mm which can still be harmful to the environment, which may have led to an underestimation of plastic accumulation. The authors also found five times fewer microparticles in lakes with more active microorganisms, suggesting some naturally occurring species can help remove pollution. Future studies are needed to isolate microorganisms from the natural environment and test their ability to degrade microplastics and fibers.

According to the authors, "Our study provides a valuable evidence base to help prioritize monitoring and mitigation of anthropogenic debris in the world's lakes. As anthropogenic debris continues to pollute the environment, our data will help contextualize future work, and our models can inform control and remediation efforts."

"Most of our attention on plastic pollution focuses on the oceans, but we discovered that Europe's lakes -- our drinking water sources -- are similarly polluted by microscopic plastics and man-made fibers," Tanentzap adds. "Our study can now help direct control and remediation efforts by identifying hotspots of microparticle pollution based on surrounding land use and water quality."


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Journal Reference:

  1. Andrew J. Tanentzap, Samuel Cottingham, Jérémy Fonvielle, Isobel Riley, Lucy M. Walker, Samuel G. Woodman, Danai Kontou, Christian M. Pichler, Erwin Reisner, Laurent Lebreton. Microplastics and anthropogenic fibre concentrations in lakes reflect surrounding land use. PLOS Biology, 2021; 19 (9): e3001389 DOI: 10.1371/journal.pbio.3001389

Cite This Page:

PLOS. "Concentration of microparticles in lakes reflect nearby human activity and land use." ScienceDaily. ScienceDaily, 14 September 2021. <www.sciencedaily.com/releases/2021/09/210914152523.htm>.
PLOS. (2021, September 14). Concentration of microparticles in lakes reflect nearby human activity and land use. ScienceDaily. Retrieved March 27, 2024 from www.sciencedaily.com/releases/2021/09/210914152523.htm
PLOS. "Concentration of microparticles in lakes reflect nearby human activity and land use." ScienceDaily. www.sciencedaily.com/releases/2021/09/210914152523.htm (accessed March 27, 2024).

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