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A growing plastic smog, now estimated to be over 170 trillion plastic particles afloat in the world’s oceans—Urgent solutions required
by
Thiel, Martin
, Villarrubia-Gómez, Patricia
, Erdle, Lisa M.
, Cowger, Win
, Eriksen, Marcus
, Day, Robert H.
, Wilcox, Chris
, Coffin, Scott
, Carpenter, Edward J.
, Moore, Charles J.
in
Basins
/ Bias
/ Biology and Life Sciences
/ Control
/ Datasets
/ Earth Sciences
/ Ecology and Environmental Sciences
/ Environmental aspects
/ Environmental Monitoring
/ Estimates
/ International aspects
/ International policy
/ Ocean
/ Ocean surface
/ Oceans
/ Oceans and Seas
/ Outdoor air quality
/ Physical Sciences
/ Plastic pollution
/ Plastics
/ Production processes
/ Smog
/ Social Sciences
/ Surface boundary layer
/ Surface layers
/ Time series
/ Trends
/ Waste Products - analysis
/ Water Pollutants, Chemical - analysis
/ Wind
2023
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A growing plastic smog, now estimated to be over 170 trillion plastic particles afloat in the world’s oceans—Urgent solutions required
by
Thiel, Martin
, Villarrubia-Gómez, Patricia
, Erdle, Lisa M.
, Cowger, Win
, Eriksen, Marcus
, Day, Robert H.
, Wilcox, Chris
, Coffin, Scott
, Carpenter, Edward J.
, Moore, Charles J.
in
Basins
/ Bias
/ Biology and Life Sciences
/ Control
/ Datasets
/ Earth Sciences
/ Ecology and Environmental Sciences
/ Environmental aspects
/ Environmental Monitoring
/ Estimates
/ International aspects
/ International policy
/ Ocean
/ Ocean surface
/ Oceans
/ Oceans and Seas
/ Outdoor air quality
/ Physical Sciences
/ Plastic pollution
/ Plastics
/ Production processes
/ Smog
/ Social Sciences
/ Surface boundary layer
/ Surface layers
/ Time series
/ Trends
/ Waste Products - analysis
/ Water Pollutants, Chemical - analysis
/ Wind
2023
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A growing plastic smog, now estimated to be over 170 trillion plastic particles afloat in the world’s oceans—Urgent solutions required
by
Thiel, Martin
, Villarrubia-Gómez, Patricia
, Erdle, Lisa M.
, Cowger, Win
, Eriksen, Marcus
, Day, Robert H.
, Wilcox, Chris
, Coffin, Scott
, Carpenter, Edward J.
, Moore, Charles J.
in
Basins
/ Bias
/ Biology and Life Sciences
/ Control
/ Datasets
/ Earth Sciences
/ Ecology and Environmental Sciences
/ Environmental aspects
/ Environmental Monitoring
/ Estimates
/ International aspects
/ International policy
/ Ocean
/ Ocean surface
/ Oceans
/ Oceans and Seas
/ Outdoor air quality
/ Physical Sciences
/ Plastic pollution
/ Plastics
/ Production processes
/ Smog
/ Social Sciences
/ Surface boundary layer
/ Surface layers
/ Time series
/ Trends
/ Waste Products - analysis
/ Water Pollutants, Chemical - analysis
/ Wind
2023
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A growing plastic smog, now estimated to be over 170 trillion plastic particles afloat in the world’s oceans—Urgent solutions required
Journal Article
A growing plastic smog, now estimated to be over 170 trillion plastic particles afloat in the world’s oceans—Urgent solutions required
2023
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Overview
As global awareness, science, and policy interventions for plastic escalate, institutions around the world are seeking preventative strategies. Central to this is the need for precise global time series of plastic pollution with which we can assess whether implemented policies are effective, but at present we lack these data. To address this need, we used previously published and new data on floating ocean plastics (n = 11,777 stations) to create a global time-series that estimates the average counts and mass of small plastics in the ocean surface layer from 1979 to 2019. Today’s global abundance is estimated at approximately 82–358 trillion plastic particles weighing 1.1–4.9 million tonnes. We observed no clear detectable trend until 1990, a fluctuating but stagnant trend from then until 2005, and a rapid increase until the present. This observed acceleration of plastic densities in the world’s oceans, also reported for beaches around the globe, demands urgent international policy interventions.
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