Tonnes of Ocean Pollution Can Be Saved by Changing Washing Habits

Their forensic analysis revealed an average of 114 mg of microfibers were released per kilogram of fabric in each wash load during a standard washing cycle.   (Image: via   pixabay  /  CC0 1.0)
Their forensic analysis revealed an average of 114 mg of microfibers were released per kilogram of fabric in each wash load during a standard washing cycle. (Image: via pixabay / CC0 1.0)

A new study has revealed that almost 13,000 tonnes of microfibres, equivalent to two rubbish trucks every day, are being released into European marine environments every year — but this could be reduced by as much as 30 percent if we made a small change to our laundry habits. The findings have been published by the scientific journal PLOS ONE. Every time you wash your clothes, thousands of tiny microfibres from the fabric are released into rivers and other waterways, causing marine pollution.

Scientists have speculated for some time that these microfibres may cause more harm than microbeads, which were banned from UK and US consumer products in recent years. Researchers from Northumbria University worked in partnership with Procter & Gamble, makers of Ariel, Tide, Downy, and Lenor on the first major forensic study into the environmental impact of microfibres from real soiled household laundry.

Their forensic analysis revealed an average of 114 mg of microfibres were released per kilogram of fabric in each wash load during a standard washing cycle. Given that a 2013 AISE report suggested 35.6 billion wash loads are completed in 23 European countries each year, the researchers suggest a massive 12,709 tonnes of microfibres are being released from washing machines into rivers and other waterways each year in Europe alone. This is the equivalent of two rubbish trucks worth of waste ending up in marine environments each day.

However, the researchers achieved a 30 percent reduction in the amount of microfibres released when they performed a 30-minute 15˚C wash cycle, in comparison to a standard 85-minute 40˚C cycle, based on typical domestic laundering. If households changed to cooler, faster washes, they would potentially save 3,813 tonnes of microfibres being released into marine ecosystems in Europe. The researchers found even more significant differences when they compared different microfibre releases from different types of North American washing machines.

Households in North America and Canada have historically used high volume traditional top loading washing machines with an average 64-liter wash water volume. The market is gradually moving to high-efficiency machines that use up to 50 percent less water and energy per load. As a consequence, these high-efficiency machines released fewer microfibres than traditional top-loading machines, with notable examples including a 70 percent reduction in microfibres from polyester fleece fabrics and a 37 percent reduction from polyester T-shirts.

The team applied test methods used in forensic science, such as spectroscopic and microscopy techniques, to examine the structure and composition of the microfibres released from the clothing. (Image: via pixabay / CC0 1.0)

The team applied test methods used in forensic science, such as spectroscopic and microscopy techniques, to examine the structure and composition of the microfibres released from the clothing. (Image: via pixabay / CC0 1.0)

Other key findings emerging from the study include:

  • Larger wash loads led to a decrease in the release of microfibres, due to a lower ratio of water to fabric. As such, the research team advises that consumers fill – but do not overfill – their washing machines. A correctly filled washing machine should be around three-quarters full.
  • New clothes release more microfibres than older clothes. Microfibre release was more prominent in new clothes during the first eight washes.
  • Fabric softeners were found to have no direct impact on microfibre release when tested in both European and North American washing conditions.

A novel aspect of the study was the involvement of forensics expertise from Dr. Kelly Sheridan, an expert in forensic textile fibers who has worked on several high-profile murder cases. Her guidance ensured the research could be conducted without cross-contamination of fibers from other sources. The team applied test methods used in forensic science, such as spectroscopic and microscopy techniques, to examine the structure and composition of the microfibres released from the clothing. This enabled the fibers to be weighed and characterized to determine the ratios of manmade to natural fibers being released from wash loads.

Infographic of volume of microfibres. (Image: Northumbria University)

Infographic of the volume of microfibres. (Image: Northumbria University)

The researchers found that 96 percent of the fibers released were natural, coming from cotton, wool, and viscose, with synthetic fibers, such as nylon, polyester, and acrylic, accounting for just 4 percent. A positive point to note is that the natural fibers from plant and animal sources biodegrade much more rapidly than synthetic fibers. A previous study has identified that cotton fibers degraded by 76 percent after almost eight months in wastewater, compared to just 4 percent deterioration in polyester fibers.

This means that natural fibers will continue to degrade over time, whereas petroleum-based microfibres plateaued and can be expected to remain in aquatic environments for a much longer period. John R. Dean, Professor of Analytical and Environmental Sciences at Northumbria University, who led the study, said:

Dr. Neil Lant, Research Fellow at Procter & Gamble, said:

The researchers say that the study provides evidence for appliance manufacturers to introduce filtering systems into the design of machines and develop approaches to reduce water consumption in laundry cleaning. Procter & Gamble laundry products, such as Ariel Pods, are suited to low temperatures and the company intends to use this evidence to bring further innovations to enable consumers to wash with low temperatures without compromising on performance. They also hope it will encourage textile manufacturers to help by conducting filtered pre-washing to remove the most labile fibers, which can easily break down and displace.

Provided by: Northumbria University [Note: Materials may be edited for content and length.]

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