Plastic pollution is a planetary threat, affecting nearly every marine and freshwater ecosystem globally. In response, multilevel mitigation strategies are being adopted but with a lack of quantitative assessment of how such strategies reduce plastic emissions. We assessed the impact of three broad management strategies, plastic waste reduction, waste management, and environmental recovery, at different levels of effort to estimate plastic emissions to 2030 for 173 countries. We estimate that 19 to 23 million metric tons, or 11%, of plastic waste generated globally in 2016 entered aquatic ecosystems. Considering the ambitious commitments currently set by governments, annual emissions may reach up to 53 million metric tons per year by 2030. To reduce emissions to a level well below this prediction, extraordinary efforts to transform the global plastics economy are needed.
Plastic waste affects environmental quality and ecosystem health. In 2010, an estimated 5 to 13 million metric tons (Mt) of plastic waste entered the ocean from both developing countries with insufficient solid waste infrastructure and high-income countries with very high waste generation. We demonstrate that, in 2016, the United States generated the largest amount of plastic waste of any country in the world (42.0 Mt). Between 0.14 and 0.41 Mt of this waste was illegally dumped in the United States, and 0.15 to 0.99 Mt was inadequately managed in countries that imported materials collected in the United States for recycling. Accounting for these contributions, the amount of plastic waste generated in the United States estimated to enter the coastal environment in 2016 was up to five times larger than that estimated for 2010, rendering the United States’ contribution among the highest in the world.
The surge of research on marine litter is generating important information on its inputs, distribution and impacts, but data on the nature and origin of the litter remain scattered. Here, we harmonize worldwide litter-type inventories across seven major aquatic environments and find that a set of plastic items from take-out food and beverages largely dominates global litter, followed by those resulting from fishing activities. Compositional differences between environments point to a trend for litter to be trapped in nearshore areas so that land-sourced plastic is released to the open ocean, predominantly as small plastic fragments. The world differences in the composition of the nearshore litter sink reflected socioeconomic drivers, with a reduced relative weight of single-use items in high-income countries. Overall, this study helps inform urgently needed actions to manage the production, use and fate of the most polluting human-made items on our planet, but the challenge remains substantial.
Floating
and stranded marine debris is widespread. Increasing sea
levels and altered rainfall, solar radiation, wind speed, waves, and
oceanic currents associated with climatic change are likely to transfer
more debris from coastal cities into marine and coastal habitats.
Marine debris causes economic and ecological impacts, but understanding
the scope of these requires quantitative information on spatial patterns
and trends in the amounts and types of debris at a global scale. There
are very few large-scale programs to measure debris, but many peer-reviewed
and published scientific studies of marine debris describe local patterns.
Unfortunately, methods of defining debris, sampling, and interpreting
patterns in space or time vary considerably among studies, yet if
data could be synthesized across studies, a global picture of the
problem may be avaliable. We analyzed 104 published scientific papers
on marine debris in order to determine how to evaluate this. Although
many studies were well designed to answer specific questions, definitions
of what constitutes marine debris, the methods used to measure, and
the scale of the scope of the studies means that no general picture
can emerge from this wealth of data. These problems are detailed to
guide future studies and guidelines provided to enable the collection
of more comparable data to better manage this growing problem.
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