Abstract
Approximately 5.25 trillion plastic pieces are floating at the sea surface. The impact of plastic pollution on the lowest trophic levels of the food web, however, remains unknown. Here we show that plastics release dissolved organic carbon (DOC) into the ambient seawater stimulating the activity of heterotrophic microbes. Our estimates indicate that globally up to 23,600 metric tons of DOC are leaching from marine plastics annually. About 60% of it is available to microbial utilization in less than 5 days. If exposed to solar radiation, however, this DOC becomes less labile. Thus, plastic pollution of marine surface waters likely alters the composition and activity of the base of the marine food webs. It is predicted that plastic waste entering the ocean will increase by a factor of ten within the next decade, resulting in an increase in plastic-derived DOC that might have unaccounted consequences for marine microbes and for the ocean system.
Highlights
5.25 trillion plastic pieces are floating at the sea surface
The plastics were added to autoclaved artificial seawater (ASW) and exposed to artificial solar radiation over a period of 6 days and/or 30 days
In this study dissolved organic carbon (DOC) includes all the organic carbon compounds released by plastic, from truly dissolved substances to any polymeric nano-plastic that might have been fragmented from the plastic surface
Summary
5.25 trillion plastic pieces are floating at the sea surface. The impact of plastic pollution on the lowest trophic levels of the food web, remains unknown. We hypothesize that the estimated 250,000 MT of plastics currently floating in the ocean[12, 13] contribute to the oceanic DOC pool via leaching. If bioavailable these plasticleachates might stimulate microbial carbon flux in the ocean, especially in the surface layer. The potential contribution of DOC leaching from microplastics to the surface oceanic DOC pool is estimated and the bioavailability of the plastic-derived DOC determined. We conclude that increasing plastic waste entering the oceans will have consequences for the marine microbial food web and for the carbon cycling
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