Difference between revisions of "Microfibers"

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[[File:Plastics-scary-washing-machine h.jpg|500px|thumb|right|Microfiber illustration. Source: Laszlo Kubinyi, Outsideonline.com]]
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[[File:Plastics-scary-washing-machine h.jpg|500px|Microfiber illustration. Source: Laszlo Kubinyi, Outsideonline.com]]
The problem of plastics accumulating in the ocean has been [http://beachapedia.org/Great_Pacific_Garbage_Patch widely documented], with 8 million metric tons (9 million tons)<ref>Plastic waste inputs from land into the ocean, Jenna R. Jambeck, Roland Geyer, Chris Wilcox, Theodore R. Siegler, Miriam Perryman, Anthony Andrady, Ramani Narayan, and Kara Lavender Law, Science 13 February 2015: 347 (6223), 768-771.</ref> to 11 million metric tons<ref>Lau, W.W.Y. & Shiran, Y., et al. 2020. Evaluating scenarios toward zero plastic pollution. Science</ref> of land-based plastics entering the world's ocean annually, in addition to hundreds of thousands of tons of abandoned plastic fishing gear (at least 640,000 tons),<ref>World Animal Protection. 2018. Ghosts beneath the waves: Ghost gear's catastrophic impact on our oceans, and the urgent action needed from industry.</ref> termed "ghost gear", being left in our marine areas each year. Without a large-scale shift in the world's use and management of plastics, especially single use plastic, this will only get worse.  In fact, some projections even indicate that there may be [https://www.washingtonpost.com/news/morning-mix/wp/2016/01/20/by-2050-there-will-be-more-plastic-than-fish-in-the-worlds-oceans-study-says/ more plastic than fish in the ocean by 2050]. Efforts to combat this problem range from source reduction legislation, such as bans on [[Plastic Bags|plastic bags]], [[Polystyrene|polystyrene]], and [[Cigarette Butt Litter|plastic cigarette filters]]; [[Beach Cleanups|beach cleanups]]; and even the use of skimmer devices in harbors to much larger proposed cleanup devices in the open ocean.
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In recent years, the issue of tiny plastic particles, termed microplastics (5 mm or less in size), has gotten increasing attention. These microplastics are able to escape wastewater treatment plants and flow with the discharge water straight into our aquatic and marine areas, becoming bioavailable to wildlife from plankton to top tier predators. Some microplastics, like plastic microbeads, were actually designed to be micro sized to help with skin exfoliation, while other plastics, like plastic bottles and containers, start out as larger products but break down overtime into smaller and smaller plastic pieces. To address microplastic pollution caused by [[Microbeads|microbeads]], which were mainly present in facial scrubs, body wash products and other cosmetics, bans were first enacted in several jurisdictions to prohibit the use of microbeads in products, and in late 2015, a national [http://www.surfrider.org/coastal-blog/entry/nationwide-victory-in-the-battle-against-the-bead Microbead-Free Waters Act] bill was signed into law.
 
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But there’s another microplastic problem that may be even more concerning and harder to address, and its showing up in our ocean, on our beaches, in the food we eat, in the water drink, and even in the air we breath, called plastic 'microfibers'.
 
 
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==Intro to Plastic Microfibers==
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==What Are Plastic Microfibers?==
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Plastic microfibers are a type of [[Microplastics | microplastic]] (plastic particle less than 5 mm) shaped as a fibrous material. Studies have found that the shape of these fibers can actually make them more harmful to marine or aquatic life than spherical [[Microbeads | microplastic beads]], or other microplastics with smooth surfaces, because the fibers have greater surface area (more area for toxic substances to adhere to) and are better able to tangle and catch on to things.<ref> Mishra et al. 2019. [https://www.sciencedirect.com/science/article/abs/pii/S0025326X19300451 Marine microfiber pollution: A review on present status and future challenges]. Marine Pollution Bulletin. Volume 140, p188-197</ref> Sources of plastic microfibers include synthetic apparel (clothing made with plastic threading instead of natural threading like cotton), plastic tarps, car tires, synthetic ropes and fishing gear, and more.
Plastic microfibers are a type of microplastic (plastic particle less than 5 mm) shaped as a fibrous material. Studies have found that the shape of these fibers can actually make them more harmful to marine or aquatic life than spherical microplastic beads, or other microplastics with smooth surfaces, because the fibers have greater surface area (more area for toxic substances to adhere to) and are better able to tangle and catch on to things. Sources of plastic microfibers include synthetic apparel (clothing made with plastic threading instead of natural threading like cotton), plastic tarps, car tires, synthetic ropes and fishing gear, and more.
 
 
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'''Defining Microplastics'''
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===Defining Microplastics===
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The definition of microplastics has varied between research papers, so in an effort to standardize the definition of microplastics in drinking water, the Southern California Coastal Water Research Project (SCCWRP) worked with global experts in the realm of microplastic research and the California State Water Resources Control Board, to officially establish the [https://www.waterboards.ca.gov/board_decisions/adopted_orders/resolutions/2020/rs2020_0021.pdf first agency-adopted definition]. Defining microplastics was the first step in a California state mandate (SB1422) set to establish (1) mandated monitoring of drinking water by 2021, and (2) a statewide management strategy for microplastics in the ocean off California. The next step will be developing standardized testing methods (currently in development) and determining heath-based guidance levels.
The definition of microplastics has varied between research papers, so in an effort to standardize the definition of microplastics, the Southern California Coastal Water Research Project (SCCWRP) worked with global experts in the realm of microplastic research and the California State Water Resources Control Board, to officially establish the first agency-adopted definition: "solid polymeric materials to which chemical additives or other substances may
 
have been added, which are particles which have at least three dimensions that are greater than 1 nanometer and less than 5,000 micrometers. Polymers that are derived in nature that have not been chemically modified (other than by hydrolysis" are excluded". Defining microplastics was the first step in California state mandate (SB1422) set to establish (1) mandated monitoring of drinking water by 2021, and (2) a statewide management strategy for microplastics in the ocean off California. The next step will be developing standardized testing methods (currently in development) and determining heath-based guidance levels ([https://www.sccwrp.org/about/research-areas/additional-research-areas/trash-pollution/microplastics-health-effects-webinar-series/ learn more here]).
 
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[[File:SWRCB Coffin SCCWRP MP Def.png|center]]
 
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'''Plastic Microfibers from Apparel'''
 
 
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==Why are Microfibers a Problem?==
 
In 2011, British ecologist Mark Anthony Browne published a study, [http://pubs.acs.org/doi/abs/10.1021/es201811s Accumulation of Microplastic on Shorelines Worldwide: Sources and Sinks] describing the discovery of micron-scale synthetic fibers, mostly polyester and acrylic, in sediments along beaches around the world, with the highest concentrations appearing near wastewater-disposal sites. These findings strongly suggested that the microfibers came from apparel, a hunch he checked by finding 1,900 fibers in the filter of a washing machine after washing a single fleece jacket.  
 
In 2011, British ecologist Mark Anthony Browne published a study, [http://pubs.acs.org/doi/abs/10.1021/es201811s Accumulation of Microplastic on Shorelines Worldwide: Sources and Sinks] describing the discovery of micron-scale synthetic fibers, mostly polyester and acrylic, in sediments along beaches around the world, with the highest concentrations appearing near wastewater-disposal sites. These findings strongly suggested that the microfibers came from apparel, a hunch he checked by finding 1,900 fibers in the filter of a washing machine after washing a single fleece jacket.  
 
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Fleece jackets are just one of the many products in the synthetic apparel industry, which is clothing partially made from virgin or recycled plastics that have been turned into tiny fibrous plastic materials. These microfibers can be as small as [http://rozaliaproject.org/stop-microfiber-pollution/ half the size of a red blood cell]. When the source of the material is recycled plastics, microfibers have generally been considered an affordable and [http://money.cnn.com/2016/05/16/technology/plastic-bottles-fabric-repreve/ sustainable material] that diverts plastics away from the landfill. Yet results from a variety of studies indicate that this recycled clothing technique may have been causing more harm than good.
 
Fleece jackets are just one of the many products in the synthetic apparel industry, which is clothing partially made from virgin or recycled plastics that have been turned into tiny fibrous plastic materials. These microfibers can be as small as [http://rozaliaproject.org/stop-microfiber-pollution/ half the size of a red blood cell]. When the source of the material is recycled plastics, microfibers have generally been considered an affordable and [http://money.cnn.com/2016/05/16/technology/plastic-bottles-fabric-repreve/ sustainable material] that diverts plastics away from the landfill. Yet results from a variety of studies indicate that this recycled clothing technique may have been causing more harm than good.
 
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'''Geographic Distribution'''
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==Geographic Distribution of Microfibers==
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Browne and several colleagues gathered sand samples from 18 beaches on six continents for analysis. Every beach tested contained microfibers, and nearly 80 percent were polyester or acrylic. Here is the abstract from Mark Browne’s study:
 
Browne and several colleagues gathered sand samples from 18 beaches on six continents for analysis. Every beach tested contained microfibers, and nearly 80 percent were polyester or acrylic. Here is the abstract from Mark Browne’s study:
 
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"Plastic debris <1 mm (defined here as microplastic) is accumulating in marine habitats. Ingestion of microplastic provides a potential pathway for the transfer of pollutants, monomers, and plastic-additives to organisms with uncertain consequences for their health. Here, we show that microplastic contaminates the shorelines at 18 sites worldwide representing six continents from the poles to the equator, with more material in densely populated areas, but no clear relationship between the abundance of microplastics and the mean size-distribution of natural particulates. An important source of microplastic appears to be through sewage contaminated by fibers from washing clothes. Forensic evaluation of microplastic from sediments showed that the proportions of polyester and acrylic fibers used in clothing resembled those found in habitats that receive sewage-discharges and sewage-effluent itself. Experiments sampling wastewater from domestic washing machines demonstrated that a single garment can produce >1900 fibers per wash. This suggests that a large proportion of microplastic fibers found in the marine environment may be derived from sewage as a consequence of washing of clothes. As the human population grows and people use more synthetic textiles, contamination of habitats and animals by microplastic is likely to increase.”
 
"Plastic debris <1 mm (defined here as microplastic) is accumulating in marine habitats. Ingestion of microplastic provides a potential pathway for the transfer of pollutants, monomers, and plastic-additives to organisms with uncertain consequences for their health. Here, we show that microplastic contaminates the shorelines at 18 sites worldwide representing six continents from the poles to the equator, with more material in densely populated areas, but no clear relationship between the abundance of microplastics and the mean size-distribution of natural particulates. An important source of microplastic appears to be through sewage contaminated by fibers from washing clothes. Forensic evaluation of microplastic from sediments showed that the proportions of polyester and acrylic fibers used in clothing resembled those found in habitats that receive sewage-discharges and sewage-effluent itself. Experiments sampling wastewater from domestic washing machines demonstrated that a single garment can produce >1900 fibers per wash. This suggests that a large proportion of microplastic fibers found in the marine environment may be derived from sewage as a consequence of washing of clothes. As the human population grows and people use more synthetic textiles, contamination of habitats and animals by microplastic is likely to increase.”
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According to an article in [http://www.sciencemag.org/news/2011/10/laundry-lint-pollutes-worlds-oceans Science],
 
According to an article in [http://www.sciencemag.org/news/2011/10/laundry-lint-pollutes-worlds-oceans Science],
<blockquote> “Not a single beach was free of the colorful synthetic lint. Each cup of sand contained at least two fibers and as many as 31. The most contaminated samples came from areas with the highest population density, suggesting cities were an important source of the lint.”</blockquote>
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<blockquote> “Not a single beach was free of the colorful synthetic lint. Each cup of sand contained at least two fibers and as many as 31. The most contaminated samples came from areas with the highest population density, suggesting cities were an important source of the lint.”
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Studies continue to find vast amounts of plastic microfibers across the global marine environment. In 2019, a [http://www.usfsp.edu/home/files/2019/09/Microplastics-in-Tampa-Bay.pdf study by McEachern et al] in Tampa Bay found an average of 1 microplastic per liter of ocean water, estimating that the entire bay contained four billion microplastics. Over 75% of the microplastics collected were microfibers. While there are many methods for sampling and evaluating microfibers, the McEachern study noted that discrete water samples were able to collect 200 times more microplastics than collecting samples via plankton nets. Due to the wide range in results from different sampling methodologies, the Southern California Coastal Water Research Project is working on a global initiative to [http://www.sccwrp.org/about/research-areas/additional-research-areas/trash-pollution/measuring-microplastics-workshop/ standardize microplastic sampling and measurement methods].
 
Studies continue to find vast amounts of plastic microfibers across the global marine environment. In 2019, a [http://www.usfsp.edu/home/files/2019/09/Microplastics-in-Tampa-Bay.pdf study by McEachern et al] in Tampa Bay found an average of 1 microplastic per liter of ocean water, estimating that the entire bay contained four billion microplastics. Over 75% of the microplastics collected were microfibers. While there are many methods for sampling and evaluating microfibers, the McEachern study noted that discrete water samples were able to collect 200 times more microplastics than collecting samples via plankton nets. Due to the wide range in results from different sampling methodologies, the Southern California Coastal Water Research Project is working on a global initiative to [http://www.sccwrp.org/about/research-areas/additional-research-areas/trash-pollution/measuring-microplastics-workshop/ standardize microplastic sampling and measurement methods].
 
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'''Almost Everywhere We Look, We Find Plastic Microfibers'''
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==Environmental and Health Risks==
Beyond shorelines and beaches, researchers have started expanding studies to test for plastic microfibers in other areas, from the tissues and stomaches of marine life to drinking water sources, and the results all continue to point to the same result- plastic microfibers may be the most ubiquitous human-made pollutant. Studies have identified plastic microfibers in:
 
*'''Tap Water''' - In 2017, [https://orbmedia.org/stories/Invisibles_final_report Dr. Sam Mason worked with OrbMedia] to conduct an international study on microplastics in tap water. A total of 159 water samples collected and analyzed from five continents, with 83% of the samples containing microplastics (of those microplastics, 99.7% were microfibers). In the United States, 94% of tap water samples contained plastic.
 
[[File:PlasticInGlobalTapWater OrbMedia.png|400px|thumb|center]]
 
*'''Bottled Water''' - In 2017, [https://orbmedia.org/stories/plus-plastic/ Dr. Mason and Orb Media] conducted a similar study but focused solely on [https://orbmedia.org/sites/default/files/FinalBottledWaterReport.pdf microplastics in bottled water] from all over the world. A total of 259 bottles from 11 brands were purchased from 19 locations in 9 countries, with 93% of bottled water samples containing microplastics. An average of 325 microplastic particles (larger than 6.5 micrometers) were found per liter of bottle water (ranging from 0 to 10,000 particles per liter). Nestle bottled water contained the highest amount of plastic particles.
 
[[File:2017 Microplastics BottledWater Results Graphic desktop 0.jpg|400px|center]]
 
*'''Air''' - In 2014, a study in France [https://hal-enpc.archives-ouvertes.fr/hal-01195546 tested indoor and outdoor air] for plastic microfibers. Indoors, researchers found an average of 3-15 microfibers/cubic meter of air, while outside they found an average of 0.2-0.8 microfibers/cubic meter air. Alarmingly, researchers found evidence of atmospheric deposition with an average of 29-280 plastic particles/square meter/day. In 2019, [https://www.nature.com/articles/s41561-019-0335-5 another study in France] confirmed the potential for atmospheric deposition of microplastics, documenting the deposition of 365 microplastics/square meter/day in a remote area of the French Pyreneese Mountains. Microplastics included particles, fibers, and films.
 
*'''Salt''' - In 2018, Incheon National University and Greenpeace East Asia published a study that [https://pubs.acs.org/doi/10.1021/acs.est.8b04180 tested commercial food-grade salt] for the presence of microplastics. Of the 39 salt brands tested from 16 countries on six continents, the amount of microplastics found ranged from from 0-1674 plastic particles/kg sea salt (with one outlier of 13,629 plastic particles per kg), 0-148 plastic particles per kg rock salt, and 28-462 microplastics per kg lake salt.
 
*'''Honey''' - In 2013, chemists Gerd and Elisabeth Liebezeit [https://www.tandfonline.com/doi/full/10.1080/19440049.2013.843025 tested 19 honey samples] from five countries (Germany, France, Italy, Spain and Mexico) for the presence of "non-pollen particulates", and found that 100% of samples contained microplastics.
 
*'''Seafood''' - A [http://www.nature.com/articles/srep14340 2015 study] found that one in three shellfish, and one in four finfish sampled at a California fish market contained microfibers, and these fish were headed straight for the dinner table. It is estimated that people could be unknowingly ingesting 11,000 microfibers each year from [http://www.ncbi.nlm.nih.gov/pubmed/25005888 shellfish consumption], and 178 microfibers from eating a [http://www.ncbi.nlm.nih.gov/pubmed/24650540 single mussel]. A [https://www.mbari.org/microplastics-water-column/?fbclid=IwAR21BOe4IoxNCz0KzsQfCrW_HM2NV__2E4swWFP-u0Z3XPb3cjBILyQz-j8 2019 study] tested deep-sea larvaceans and pelagic red crabs, and found microplastics in every animal specimen surveyed.
 
*'''Beer''' - In 2014, chemists Gerd and Elisabeth Liebezeit [https://www.tandfonline.com/doi/abs/10.1080/19440049.2014.945099?journalCode=tfac20 tested 24 German beer brands] for plastic particles, with 100% of samples containing microplastics. Microplastics identified included a range of fibers, particles, and granules.
 
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'''Environmental and Health Risks'''
 
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Microplastics (including microfibers) are [http://www.exeter.ac.uk/news/featurednews/title_403098_en.html easily ingested] by marine life which may end up on our dinner plates. Essentially the plastics we are washing down the drain with our laundry may work their way up the food chain and come back to haunt us.
 
Microplastics (including microfibers) are [http://www.exeter.ac.uk/news/featurednews/title_403098_en.html easily ingested] by marine life which may end up on our dinner plates. Essentially the plastics we are washing down the drain with our laundry may work their way up the food chain and come back to haunt us.
 
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The problem of microfibers is not just an ocean issue. When Sherri “Sam” Mason, a chemist with the State University of New York at Fredonia and a group from the Illinois-Indiana Sea Grant program took samples from southern Lake Michigan in 2013, about 12% of the debris consisted of microfibers. [http://www.nbcnews.com/science/environment/dirty-laundry-scientists-warn-microfiber-pollution-great-lakes-n283361 Mason’s research] also indicated that microfibers seem to be getting stuck inside fish in ways that other microplastics aren’t. Microbeads and fragments that fish eat typically pass through their bodies and are excreted. But microfibers were enmeshed in the gastrointestinal tracts of some fish Mason and her students examined. Their study helped confirm the bioaccumulative ability of these fibers to move up the food chain by finding fibers inside a double-crested cormorant, a fish-eating bird.
 
The problem of microfibers is not just an ocean issue. When Sherri “Sam” Mason, a chemist with the State University of New York at Fredonia and a group from the Illinois-Indiana Sea Grant program took samples from southern Lake Michigan in 2013, about 12% of the debris consisted of microfibers. [http://www.nbcnews.com/science/environment/dirty-laundry-scientists-warn-microfiber-pollution-great-lakes-n283361 Mason’s research] also indicated that microfibers seem to be getting stuck inside fish in ways that other microplastics aren’t. Microbeads and fragments that fish eat typically pass through their bodies and are excreted. But microfibers were enmeshed in the gastrointestinal tracts of some fish Mason and her students examined. Their study helped confirm the bioaccumulative ability of these fibers to move up the food chain by finding fibers inside a double-crested cormorant, a fish-eating bird.
 
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==Solutions==
 
==Solutions==
So what are the solutions? There appear to be no easy answers except reducing the use plastics at the source. As Kyle Van Houtan, chief scientist at Monterey Bay Aquarium and a co-author of a [https://www.mbari.org/microplastics-water-column/?fbclid=IwAR21BOe4IoxNCz0KzsQfCrW_HM2NV__2E4swWFP-u0Z3XPb3cjBILyQz-j8 2019 study on microplastics in water columns] eloquently says “The ubiquitous presence of plastic pollution throughout the water column points to source reduction—making and using less plastic in the first place—as one of the most effective means of solving this issue... It may be virtually impossible to remove existing microplastic from the deep sea.. But when we slow the flow of plastic from land, we can help prevent the increasing accumulation of plastic in our global ocean.”
 
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When it comes to clothing and microfibers, one way to begin to address the problem is to try to make clothes that shed less plastic fibers when washed. In 2013, Browne launched a new project “[http://www.theguardian.com/sustainable-business/2014/oct/27/toxic-plastic-synthetic-microscopic-oceans-microbeads-microfibers-food-chain Benign by Design],” to help reduce the number of microfibers released into the oceans. Working collaboratively with designers to create fabrics that were more durable and released less plastic waste during wash cycles, this project could help stop the problem of microfiber pollution at the source.
 
When it comes to clothing and microfibers, one way to begin to address the problem is to try to make clothes that shed less plastic fibers when washed. In 2013, Browne launched a new project “[http://www.theguardian.com/sustainable-business/2014/oct/27/toxic-plastic-synthetic-microscopic-oceans-microbeads-microfibers-food-chain Benign by Design],” to help reduce the number of microfibers released into the oceans. Working collaboratively with designers to create fabrics that were more durable and released less plastic waste during wash cycles, this project could help stop the problem of microfiber pollution at the source.
 
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The final place to catch microfibers before they are flushed to the ocean is at wastewater treatment plants. Although a typical secondary treatment plant will not do an effective job removing microfibers, plants that employ tertiary treatment to produce reclaimed water for non-potable uses typically use filtration which would remove microfibers. Wastewater treatment plants that use advanced treatment to produce potable water use microfiltration (as well as other technologies) which will also effectively remove microfibers. If [http://beachapedia.org/Wastewater_Recycling wastewater is recycled] and does not reach the ocean, the microfibers won’t get there either.
 
The final place to catch microfibers before they are flushed to the ocean is at wastewater treatment plants. Although a typical secondary treatment plant will not do an effective job removing microfibers, plants that employ tertiary treatment to produce reclaimed water for non-potable uses typically use filtration which would remove microfibers. Wastewater treatment plants that use advanced treatment to produce potable water use microfiltration (as well as other technologies) which will also effectively remove microfibers. If [http://beachapedia.org/Wastewater_Recycling wastewater is recycled] and does not reach the ocean, the microfibers won’t get there either.
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Industry has responded to the microfiber problem in a variety of ways. Many different devices for the home laundry machine are on the market. Some apparel companies, such as Patagonia, are researching alternative fabrics and construction technologies. The Outdoor Industry Alliance and the European Outdoor Group, collectively which represents over 1500 outdoor apparel companies, has a working group on the issue. <ref> Outdoor Industry Association. 2018. [https://outdoorindustry.org/sustainable-business/microfibers Microfibers]. </ref>
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===The Policy Approach, State by State===
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<big>'''''Connecticut'''''</big>
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In 2018, the CT General Assembly passed HB 5360 An Act Concerning Revisions to Certain Environmental Quality and Conservation Programs.<ref> 5360, An Act Concerning Revisions to Certain Environmental Quality and Conservation Programs has since been codified into Connecticut state law, see Pub. L. 115–405, §301, 132 Stat. 536. 2018.
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https://www.cga.ct.gov/2018/ACT/pa/pdf/2018PA-00181-R00HB-05360-PA.pdf</ref> Section 6 of that bill established a working group of representatives from both the retail and apparel industry and the environmental community to focus on synthetic microfiber pollution. The working group submitted its final report in January 2020. The report did not include major policy recommendations, and new microfiber legislation has not been introduced in Connecticut.
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<big>'''''California'''''</big>
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In 2021, the California legislature proposed AB 622 and AB 802, bills looking at microfiber screens. AB 622 was reintroduced from the previous year and would require all new washing machines to have microfiber screens. AB 802 was also reintroduced from 2020 and would require microfiber screens on washing machines at state facilities and commercial washing machines.<ref>Ordinance No. AB 622, [https://leginfo.legislature.ca.gov/faces/billNavClient.xhtml?bill_id=202120220AB622 An act to add Chapter 10 (commencing with Section 119410) to Part 15 of Division 104 of [California’s] Health and Safety Code, relating to environmental health]. 2021.</ref> <ref>Ordinance No. AB 802, [ https://leginfo.legislature.ca.gov/faces/billNavClient.xhtml?bill_id=202120220AB802  An act to add Section 116376.5 to, and to add Chapter 10 (commencing with Section 119450) to Part 15 of Division 104 of [California’s] Health and Safety Code, relating to environmental protection]. 2021.</ref>
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<big>'''''New York'''''</big>
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New York State Assembly Bill A10599 was introduced in 2018. <ref> Ordinance No. A10599, An act to amend the environmental conservation law, in relation  to requiring additional labels on certain microfiber clothing in the state of New York, to add Art 37 Title 9 §§37-0901 - 37-0907, En Con L, 2018. https://www.nysenate.gov/legislation/bills/2017/a10599. See also: Ordinance No. A1549 </ref> This bill proposed labeling for garments containing more than 50% synthetic fiber, indicating that they will contribute to microfiber waste. The purpose of this labeling is to encourage hand washing of certain materials. The labeling for customers would read, "This garment sheds plastic microfibers when washed. Hand washing recommended to reduce shedding."  This bill did not pass, but there is interest in a similar bill being introduced in 2021.
 
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Visit Surfrider's [https://www.surfrider.org/coastal-blog/entry/bills-and-best-practices-for-microfiber-pollution-solutions Bills and Best Practices for Microfiber Pollution Solutions] Coastal blog to learn about ways to reduce your microplastic and plastic microfiber release, and check out this video from [http://storyofstuff.org/ The Story of Stuff] that discusses the microfiber issue.<br>
 
Visit Surfrider's [https://www.surfrider.org/coastal-blog/entry/bills-and-best-practices-for-microfiber-pollution-solutions Bills and Best Practices for Microfiber Pollution Solutions] Coastal blog to learn about ways to reduce your microplastic and plastic microfiber release, and check out this video from [http://storyofstuff.org/ The Story of Stuff] that discusses the microfiber issue.<br>
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==References and Additional Information Sources==
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==Additional Information==
 
 
 
[http://rozaliaproject.org/stop-microfiber-pollution/ A Human-scale Solution to the Biggest Plastic Pollution Problem Facing our Ocean:Synthetic Microfibers], Rozalia Project, 2014.
 
[http://rozaliaproject.org/stop-microfiber-pollution/ A Human-scale Solution to the Biggest Plastic Pollution Problem Facing our Ocean:Synthetic Microfibers], Rozalia Project, 2014.
  
[http://pubs.acs.org/doi/abs/10.1021/es201811s Accumulation of Microplastic on Shorelines Worldwide: Sources and Sinks], Environmental Science and Technology. 2011.
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[http://pubs.acs.org/doi/abs/10.1021/es201811s Accumulation of Microplastic on Shorelines Worldwide: Sources and Sinks], Environmental Science and Technology, 2011.
  
 
[http://www.nature.com/articles/srep14340 Anthropogenic debris in seafood: Plastic debris and fibers from textiles in fish and bivalves sold for human consumption], Scientific Reports, 2015.
 
[http://www.nature.com/articles/srep14340 Anthropogenic debris in seafood: Plastic debris and fibers from textiles in fish and bivalves sold for human consumption], Scientific Reports, 2015.
  
Carson, H. S., S. L. Colbert, M. J. Kaylor, and K. J. Mcdermid. "Small Plastic Debris Changes Water Movement and Heat Transfer through Beach Sediments." Marine Pollution Bulletin (2011): 1708-713.Rochman, C.M., E. Hoh, T.  
+
[https://www.sciencedirect.com/science/article/abs/pii/S0025326X11003079 Small Plastic Debris Changes Water Movement and Heat Transfer through Beach Sediments], Marine Pollution Bulletin, 2011.
  
 
[http://www.ntn.org.au/wp/wp-content/uploads/2016/05/NTN-Contaminants-in-Marine-Plastics-Report-April-2016-.pdf Contaminants in Marine Plastic Pollution: the new toxic time-bomb’], National Toxics Network, 2016.
 
[http://www.ntn.org.au/wp/wp-content/uploads/2016/05/NTN-Contaminants-in-Marine-Plastics-Report-April-2016-.pdf Contaminants in Marine Plastic Pollution: the new toxic time-bomb’], National Toxics Network, 2016.
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[https://www.theguardian.com/science/2016/sep/27/washing-clothes-releases-water-polluting-fibres-study-finds Single clothes wash may release 700,000 microplastic fibres, study finds], The Guardian, 2016.
 
[https://www.theguardian.com/science/2016/sep/27/washing-clothes-releases-water-polluting-fibres-study-finds Single clothes wash may release 700,000 microplastic fibres, study finds], The Guardian, 2016.
  
[http://www.sciencedirect.com/science/article/pii/S0025326X11003079 Small Plastic Debris Changes Water Movement and Heat Transfer through Beach Sediments, Marine Pollution Bulletin], 2011.
+
[http://www.sciencedirect.com/science/article/pii/S0025326X11003079 Small Plastic Debris Changes Water Movement and Heat Transfer through Beach Sediments], Marine Pollution Bulletin, 2011.
  
Sussarellu, R., M. Suquet, Y. Thomas, C. Lambert, C. Fabioux, M. .. Pernet, N. Goïc, V. Quillien, C. Mingant, Y. Epelboin, C. Corporeau, J. Guyomarch, J. Robbens, I. Paul-Pont, P. Soudant, and A. Huvet. "Oyster Reproduction Is Affected by Exposure to Polystyrene Microplastics." Proceedings of the National Academy of Sciences (2016): 2430-435.
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[https://www.pnas.org/content/113/9/2430 Oyster Reproduction Is Affected by Exposure to Polystyrene Microplastics], Proceedings of the National Academy of Sciences, 2016.
  
 
[http://money.cnn.com/2016/05/16/technology/plastic-bottles-fabric-repreve/ The Company Turning 4 Billion Plastic Bottles into Clothes], CNN Tech, 2016.
 
[http://money.cnn.com/2016/05/16/technology/plastic-bottles-fabric-repreve/ The Company Turning 4 Billion Plastic Bottles into Clothes], CNN Tech, 2016.
  
[http://www.outsideonline.com/1998166/plastics The Invisible Nightmare in Your Fleece], Outsideonline, 2015.
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[http://www.outsideonline.com/1998166/plastics The Invisible Nightmare in Your Fleece], OutsideOnline, 2015.
  
 
[http://www.treehugger.com/ocean-conservation/your-clothes-are-polluting-ocean-every-time-you-do-laundry.html Your clothes are polluting the ocean every time you do laundry], Treehugger, 2014.
 
[http://www.treehugger.com/ocean-conservation/your-clothes-are-polluting-ocean-every-time-you-do-laundry.html Your clothes are polluting the ocean every time you do laundry], Treehugger, 2014.
 
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==References==
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Latest revision as of 21:53, 6 January 2022


Microfiber illustration. Source: Laszlo Kubinyi, Outsideonline.com



What Are Plastic Microfibers?

Plastic microfibers are a type of microplastic (plastic particle less than 5 mm) shaped as a fibrous material. Studies have found that the shape of these fibers can actually make them more harmful to marine or aquatic life than spherical microplastic beads, or other microplastics with smooth surfaces, because the fibers have greater surface area (more area for toxic substances to adhere to) and are better able to tangle and catch on to things.[1] Sources of plastic microfibers include synthetic apparel (clothing made with plastic threading instead of natural threading like cotton), plastic tarps, car tires, synthetic ropes and fishing gear, and more.

Defining Microplastics

The definition of microplastics has varied between research papers, so in an effort to standardize the definition of microplastics in drinking water, the Southern California Coastal Water Research Project (SCCWRP) worked with global experts in the realm of microplastic research and the California State Water Resources Control Board, to officially establish the first agency-adopted definition. Defining microplastics was the first step in a California state mandate (SB1422) set to establish (1) mandated monitoring of drinking water by 2021, and (2) a statewide management strategy for microplastics in the ocean off California. The next step will be developing standardized testing methods (currently in development) and determining heath-based guidance levels.

Why are Microfibers a Problem?

In 2011, British ecologist Mark Anthony Browne published a study, Accumulation of Microplastic on Shorelines Worldwide: Sources and Sinks describing the discovery of micron-scale synthetic fibers, mostly polyester and acrylic, in sediments along beaches around the world, with the highest concentrations appearing near wastewater-disposal sites. These findings strongly suggested that the microfibers came from apparel, a hunch he checked by finding 1,900 fibers in the filter of a washing machine after washing a single fleece jacket.

A similar study to test potential for and magnitude of plastic microfibers reaching and being released from wastewater treatment plants was conducted at VU University Amsterdam in 2012. Researchers estimated that laundry wastewater is sending around two billion synthetic microfibers per second into Europe’s waters. As test methods become more refined, the results are only getting more staggering. In 2016, a joint UC Santa Barbara and Patagonia study found that 250,000 microfibers can be shed from a single fleece jacket after just one wash. In the state of California alone, it is estimated that billions of microfibers escape wastewater treatment plants every day.

Fleece jackets are just one of the many products in the synthetic apparel industry, which is clothing partially made from virgin or recycled plastics that have been turned into tiny fibrous plastic materials. These microfibers can be as small as half the size of a red blood cell. When the source of the material is recycled plastics, microfibers have generally been considered an affordable and sustainable material that diverts plastics away from the landfill. Yet results from a variety of studies indicate that this recycled clothing technique may have been causing more harm than good.

Geographic Distribution of Microfibers

Browne and several colleagues gathered sand samples from 18 beaches on six continents for analysis. Every beach tested contained microfibers, and nearly 80 percent were polyester or acrylic. Here is the abstract from Mark Browne’s study:

"Plastic debris <1 mm (defined here as microplastic) is accumulating in marine habitats. Ingestion of microplastic provides a potential pathway for the transfer of pollutants, monomers, and plastic-additives to organisms with uncertain consequences for their health. Here, we show that microplastic contaminates the shorelines at 18 sites worldwide representing six continents from the poles to the equator, with more material in densely populated areas, but no clear relationship between the abundance of microplastics and the mean size-distribution of natural particulates. An important source of microplastic appears to be through sewage contaminated by fibers from washing clothes. Forensic evaluation of microplastic from sediments showed that the proportions of polyester and acrylic fibers used in clothing resembled those found in habitats that receive sewage-discharges and sewage-effluent itself. Experiments sampling wastewater from domestic washing machines demonstrated that a single garment can produce >1900 fibers per wash. This suggests that a large proportion of microplastic fibers found in the marine environment may be derived from sewage as a consequence of washing of clothes. As the human population grows and people use more synthetic textiles, contamination of habitats and animals by microplastic is likely to increase.”

According to an article in Science,

“Not a single beach was free of the colorful synthetic lint. Each cup of sand contained at least two fibers and as many as 31. The most contaminated samples came from areas with the highest population density, suggesting cities were an important source of the lint.”

Studies continue to find vast amounts of plastic microfibers across the global marine environment. In 2019, a study by McEachern et al in Tampa Bay found an average of 1 microplastic per liter of ocean water, estimating that the entire bay contained four billion microplastics. Over 75% of the microplastics collected were microfibers. While there are many methods for sampling and evaluating microfibers, the McEachern study noted that discrete water samples were able to collect 200 times more microplastics than collecting samples via plankton nets. Due to the wide range in results from different sampling methodologies, the Southern California Coastal Water Research Project is working on a global initiative to standardize microplastic sampling and measurement methods.

Environmental and Health Risks

Microplastics (including microfibers) are easily ingested by marine life which may end up on our dinner plates. Essentially the plastics we are washing down the drain with our laundry may work their way up the food chain and come back to haunt us.

Not only does the ingestion of these microfibers reduce the amount of nutrition obtained from feeding, it also poses an additional risk of harmful bacteria and toxic exposure. Of all chemicals known to be persistent in our environment, bioaccumulative in the food chain, and toxic to life (also known as PBTs), 78% are found in or on microfibers. As a result, the concentrations of PBTs in microfibers are orders of magnitude greater than the concentration of PBTs otherwise found in seawater. Examples of observed PBTs included pesticides like DDT, and plastic additives like brominated flame retardants.

Microfibers can actually enter and remain in the bloodstream and tissues of the food we eat. The bioaccumulation of these toxic chemicals puts all affected marine creatures, and humans and wildlife that consume affected marine creatures, at risk.

Beyond risks from consumption, the sheer magnitude of the amount of microfibers throughout marine and coastal environments can have serious ecological implications. Studies have identified a reduction in oyster reproduction rates, and impacts to the sexual determination of baby sea turtles from the slowed warming rates of sandy sediment containing microfibers, among other effects.

The problem of microfibers is not just an ocean issue. When Sherri “Sam” Mason, a chemist with the State University of New York at Fredonia and a group from the Illinois-Indiana Sea Grant program took samples from southern Lake Michigan in 2013, about 12% of the debris consisted of microfibers. Mason’s research also indicated that microfibers seem to be getting stuck inside fish in ways that other microplastics aren’t. Microbeads and fragments that fish eat typically pass through their bodies and are excreted. But microfibers were enmeshed in the gastrointestinal tracts of some fish Mason and her students examined. Their study helped confirm the bioaccumulative ability of these fibers to move up the food chain by finding fibers inside a double-crested cormorant, a fish-eating bird.

Solutions

When it comes to clothing and microfibers, one way to begin to address the problem is to try to make clothes that shed less plastic fibers when washed. In 2013, Browne launched a new project “Benign by Design,” to help reduce the number of microfibers released into the oceans. Working collaboratively with designers to create fabrics that were more durable and released less plastic waste during wash cycles, this project could help stop the problem of microfiber pollution at the source.

Another way to address the problem is to reduce the amount of times synthetic clothing gets washed, and when need be, use washing machines with filters installed that catch the microfibers in the wastewater and use less water in general (a 2019 study found that its water volume, not spin cycle/agitation that drives the amount of microfiber shedding). Although filters are not a common feature in washing machines, some manufacturers do include them and filters are commercially available (see Filtrol 160 and Lint LUV-R). There are also filters that can just be thrown in with your laundry to help reduce the amount of shedding (see Guppyfriend) or catch plastic microfibers and other debris (see Coral Ball). It is also recommended to use front-loading, high efficiency washing machines instead of top-loading washing machines. The Bren School researchers found that top-loading washing machines released 7X more microfibers than front-loading washing machines; and the more you wash it, the worse it gets (aged jackets released almost 2X the amount as new jackets). When possible, avoid powder detergents and wash clothing at a low temperature.

The final place to catch microfibers before they are flushed to the ocean is at wastewater treatment plants. Although a typical secondary treatment plant will not do an effective job removing microfibers, plants that employ tertiary treatment to produce reclaimed water for non-potable uses typically use filtration which would remove microfibers. Wastewater treatment plants that use advanced treatment to produce potable water use microfiltration (as well as other technologies) which will also effectively remove microfibers. If wastewater is recycled and does not reach the ocean, the microfibers won’t get there either.

Industry has responded to the microfiber problem in a variety of ways. Many different devices for the home laundry machine are on the market. Some apparel companies, such as Patagonia, are researching alternative fabrics and construction technologies. The Outdoor Industry Alliance and the European Outdoor Group, collectively which represents over 1500 outdoor apparel companies, has a working group on the issue. [2]

The Policy Approach, State by State

Connecticut
In 2018, the CT General Assembly passed HB 5360 An Act Concerning Revisions to Certain Environmental Quality and Conservation Programs.[3] Section 6 of that bill established a working group of representatives from both the retail and apparel industry and the environmental community to focus on synthetic microfiber pollution. The working group submitted its final report in January 2020. The report did not include major policy recommendations, and new microfiber legislation has not been introduced in Connecticut.

California
In 2021, the California legislature proposed AB 622 and AB 802, bills looking at microfiber screens. AB 622 was reintroduced from the previous year and would require all new washing machines to have microfiber screens. AB 802 was also reintroduced from 2020 and would require microfiber screens on washing machines at state facilities and commercial washing machines.[4] [5]

New York
New York State Assembly Bill A10599 was introduced in 2018. [6] This bill proposed labeling for garments containing more than 50% synthetic fiber, indicating that they will contribute to microfiber waste. The purpose of this labeling is to encourage hand washing of certain materials. The labeling for customers would read, "This garment sheds plastic microfibers when washed. Hand washing recommended to reduce shedding." This bill did not pass, but there is interest in a similar bill being introduced in 2021.

Visit Surfrider's Bills and Best Practices for Microfiber Pollution Solutions Coastal blog to learn about ways to reduce your microplastic and plastic microfiber release, and check out this video from The Story of Stuff that discusses the microfiber issue.




Additional Information

A Human-scale Solution to the Biggest Plastic Pollution Problem Facing our Ocean:Synthetic Microfibers, Rozalia Project, 2014.

Accumulation of Microplastic on Shorelines Worldwide: Sources and Sinks, Environmental Science and Technology, 2011.

Anthropogenic debris in seafood: Plastic debris and fibers from textiles in fish and bivalves sold for human consumption, Scientific Reports, 2015.

Small Plastic Debris Changes Water Movement and Heat Transfer through Beach Sediments, Marine Pollution Bulletin, 2011.

Contaminants in Marine Plastic Pollution: the new toxic time-bomb’, National Toxics Network, 2016.

Dirty Laundry: Scientists Warn of Microfiber Pollution in Great Lakes, NBC News, 2015.

Fleeced again: How microplastic causes macro problems for the ocean, Grist, 2011.

From Spin to Sea: Polyester Microfibers Clog Our Beaches, Triple Pundit, 2014.

Great Lakes struggling with invisible threat of plastic microfibre pollution, The Guardian, 2015.

How much may German beers be contaminated by microplastics?, Science Daily, 2014.

Ingested plastic transfers hazardous chemicals to fish and induces hepatic stress, Scientific Reports, 2013.

Inside the lonely fight against the biggest environmental problem you've never heard of, The Guardian, 2014.

Laundry Lint Pollutes the World's Oceans, Science Magazine, 2011.

Microfibers: How the Tiny Threads in Our Clothes Are Polluting the Bay, KQED Science, 2016.

Microfiber Pollution and the Apparel Industry, Bren School of Environmental Science and Management, Patagonia, 2016.

Microplastic fibers in the intertidal ecosystem surrounding Halifax Harbor, Nova Scotia, PubMed, 2014.

Microplastics in bivalves cultured for human consumption, PubMed, 2014.

Mitigation of microplastics impact caused by textile washing processes, MERMAID project, 2016.

Oceans Teem with Tiny Plastic Particles, Scientific American, 2011.

Oyster Reproduction Is Affected by Exposure to Polystyrene Microplastics, Proceedings of the National Academy of Sciences, 2016.

Persistent, Bioaccumulative, and Toxic Chemicals, Safer Chemicals Healthy Families, 2016.

Single clothes wash may release 700,000 microplastic fibres, study finds, The Guardian, 2016.

Small Plastic Debris Changes Water Movement and Heat Transfer through Beach Sediments, Marine Pollution Bulletin, 2011.

Oyster Reproduction Is Affected by Exposure to Polystyrene Microplastics, Proceedings of the National Academy of Sciences, 2016.

The Company Turning 4 Billion Plastic Bottles into Clothes, CNN Tech, 2016.

The Invisible Nightmare in Your Fleece, OutsideOnline, 2015.

Your clothes are polluting the ocean every time you do laundry, Treehugger, 2014.

References

  1. Mishra et al. 2019. Marine microfiber pollution: A review on present status and future challenges. Marine Pollution Bulletin. Volume 140, p188-197
  2. Outdoor Industry Association. 2018. Microfibers.
  3. 5360, An Act Concerning Revisions to Certain Environmental Quality and Conservation Programs has since been codified into Connecticut state law, see Pub. L. 115–405, §301, 132 Stat. 536. 2018. https://www.cga.ct.gov/2018/ACT/pa/pdf/2018PA-00181-R00HB-05360-PA.pdf
  4. Ordinance No. AB 622, An act to add Chapter 10 (commencing with Section 119410) to Part 15 of Division 104 of [California’s Health and Safety Code, relating to environmental health]. 2021.
  5. Ordinance No. AB 802, [ https://leginfo.legislature.ca.gov/faces/billNavClient.xhtml?bill_id=202120220AB802 An act to add Section 116376.5 to, and to add Chapter 10 (commencing with Section 119450) to Part 15 of Division 104 of [California’s] Health and Safety Code, relating to environmental protection]. 2021.
  6. Ordinance No. A10599, An act to amend the environmental conservation law, in relation to requiring additional labels on certain microfiber clothing in the state of New York, to add Art 37 Title 9 §§37-0901 - 37-0907, En Con L, 2018. https://www.nysenate.gov/legislation/bills/2017/a10599. See also: Ordinance No. A1549