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61,005 resultsShowing papers similar to Falling into the darkness – microplastics sinking fluxes in the deep sea
ClearFalling into the darkness – microplastics sinking fluxes in the deep sea
Researchers quantified the seasonal sinking flux of microplastics over a 12-month period using a sediment trap deployed at 230 metres depth on the Condor seamount in the Azores, collecting 18 samples each representing 20 days of particle accumulation. The study aimed to clarify the mechanisms — including biofouling and incorporation into particulate organic matter — by which surface microplastics are transported to deep-sea environments.
Sinking microplastics at a deep-sea seamount in the North Atlantic: a year-long flux study
Sinking microplastics were collected from sediment traps deployed at a deep-sea seamount in the North Atlantic, providing direct evidence of how plastic particles travel from the surface to the deep ocean floor. The study quantifies the deep-sea plastic flux at an ecologically significant seafloor feature.
First long-term evidence of microplastic pollution in the deep subtropical Northeast Atlantic
Researchers found microplastic particles in all 110 sediment trap samples collected over a 12-year period from 2,000-meter depths in the Northeast Atlantic, establishing the deep ocean as a long-term sink for microplastics with fluxes increasing over time.
Vertical flux of microplastic, a case study in the Southern Ocean, South Georgia
Researchers deployed floating sediment traps in the Southern Ocean near South Georgia to measure the vertical flux of microplastics, finding that sinking of microplastics represents a significant and understudied pathway for removing plastic from the ocean surface into deep water.
Vertical Flux of Microplastics in the Deep Subtropical Pacific Ocean: Moored Sediment-Trap Observations within the Kuroshio Extension Recirculation Gyre
Researchers used deep-ocean sediment traps to measure the downward flux of microplastics in the western North Pacific Ocean over a two-year period. They found that microplastics, primarily fibers, were sinking to depths of nearly 5,000 meters, with seasonal variations linked to biological processes at the surface. The study provides some of the first direct evidence that microplastics are actively being transported to the deep ocean floor.
A novel method enabling the accurate quantification of microplastics in the water column of deep ocean
A new sampling method was developed to accurately measure microplastics in the deep ocean water column, addressing gaps left by traditional net trawls that miss very small particles. Reliable deep-sea sampling is critical since the deep ocean is thought to be a major sink for global microplastic pollution.
Fate of microplastics in deep-sea sediments and its influencing factors: Evidence from the Eastern Indian Ocean
Surface sediments from 26 sites in the deep basin of the Eastern Indian Ocean were analyzed for microplastics, finding concentrations ranging widely and influenced by water depth, distance from land, and ocean current patterns. The study extends deep-sea microplastic monitoring to the Indian Ocean and identifies oceanographic transport as a key control on plastic distribution.
Microplastic pollution in deep-sea sediments and organisms of the Western Pacific Ocean
Researchers collected deep-sea sediment and organism samples from multiple sites in the western Pacific Ocean and found microplastics at all locations sampled, with depth, distance from land, and current patterns influencing accumulation, confirming the western Pacific deep sea as a significant microplastic sink.
Dispersion, accumulation and the ultimate fate of microplastics in deep-marine environments: A review and future directions
This review synthesized existing knowledge on microplastic distribution in deep-marine environments, integrating process-based sedimentological transport models with field data to outline how microplastics disperse, accumulate, and become buried in seafloor sediments, and identifying key gaps for future research.
Prevalence of small high-density microplastics in the continental shelf and deep sea waters of East Asia
Researchers collected water samples at multiple depth layers across the continental shelf and deep sea of East Asia and found that small, high-density microplastics were more abundant in deeper waters, suggesting vertical sinking pathways concentrate certain particle types in the deep ocean.
Deep-sea microplastics aging and migration exerted by seamount topography and biotopes in the subtropic Northwest Pacific Ocean
This study investigated how seamount topography influences the aging and vertical migration of microplastics in the deep sea, finding that seamount-induced flow patterns promote particle sinking and accumulation of aged microplastics in benthic zones. The work highlights deep-sea seamounts as hotspots for microplastic deposition.
Microplastic pollution in deep-sea sediments
Researchers analyzed deep-sea sediment cores and found microplastics present at depth, providing early evidence that deep-sea sediments globally accumulate microplastic pollution far from coastlines and at the seafloor.
The vertical distribution and biological transport of marine microplastics across the epipelagic and mesopelagic water column
Remotely operated vehicles and custom samplers were used to collect microplastics from depths of 5–1000 m in Monterey Bay, finding that microplastic concentrations in mesopelagic waters (200–600 m depth) were comparable to or higher than surface concentrations. The study demonstrates that the deep ocean is not merely a sink but an active reservoir of microplastics vertically transported by biological organisms.
Tying up Loose Ends of Microplastic Pollution in the Arctic: Distribution from the Sea Surface through the Water Column to Deep-Sea Sediments at the HAUSGARTEN Observatory
Scientists sampled the water column at multiple depths and deep-sea sediments at the HAUSGARTEN Arctic observatory, finding microplastics at all depths from surface to seafloor, with concentrations indicating that the Arctic deep sea is a significant long-term sink for microplastic pollution.
The deep sea is a major sink for microplastic debris
Researchers analyzed deep-sea sediments from the Atlantic, Mediterranean, and Indian Ocean and found microplastic fibers up to 4 orders of magnitude more concentrated than at the contaminated sea surface, identifying the deep seafloor as a vast and previously unknown repository of the world's 'missing' plastic.
Dispersion, Accumulation, and the Ultimate Fate of Microplastics in Deep-Marine Environments: A Review and Future Directions
This review synthesizes knowledge about how microplastics are transported to and accumulate in deep-marine environments, which may serve as the ultimate sink for ocean plastic pollution. Researchers integrated sedimentological models to explain how ocean currents, density flows, and settling processes deliver microplastics to the seafloor. The study highlights that deep-sea environments, often considered pristine, are increasingly contaminated with microplastic particles.
Micropoluentes no mar profundo: influência do modo alimentar na ingestão de microplásticos em organismos bentônicos e detecção de poluentes orgânicos persistentes em amostras biológicas e de sedimento
This Portuguese-language study examined micropollutant exposure including microplastics in deep-sea organisms from the Southern Atlantic, analyzing how feeding mode determines microplastic ingestion across different species. The research found that even the most remote marine habitats on Earth harbor plastic contamination detectable in deep-sea fauna.
Microplastic sedimentation in the northern Gulf of Mexico
Researchers collected deep-sea sediment samples over six years in the northern Gulf of Mexico to understand how microplastics travel through the water column. They found that microplastic sedimentation appears to be driven by sinking marine particles such as fecal pellets and marine snow. The study provides insights into the pathways by which microplastics reach the deep ocean floor in regions influenced by major river systems like the Mississippi.
Abundance and characteristics of microfibers detected in sediment trap material from the deep subtropical North Atlantic Ocean
Researchers analyzed microfibers collected in sediment traps from the deep subtropical North Atlantic Ocean to characterize their abundance and composition, finding that synthetic fibers are transported through the water column and deposited in deep-sea sediments. The study helps quantify the role of atmospheric and surface inputs in delivering fibrous microplastics to deep marine environments.
Seasonal variations in the sinking fluxes of microplastics and textile fibers in an Arctic fjord (Kongsfjorden, Svalbard)
Researchers measured seasonal variations in microplastic and microfiber sinking fluxes in Kongsfjorden fjord, Svalbard, using a moored sediment trap rotating monthly over one year from September 2021 to September 2022. By capturing sinking particles at 61 m depth where Atlantic water masses interact with glacial melt fronts, they documented temporal variability in vertical microplastic export and identified seasonal drivers affecting particle flux to the Arctic seafloor.
Microplastics in turbidity currents: transport and sedimentation
Researchers investigated the transport and sedimentation behavior of microplastics within turbidity currents, examining how these high-density submarine sediment gravity flows carry MP particles from continental shelves to deep-sea environments and what controls where MPs ultimately deposit.
Microplastics Baseline Surveys at the Water Surface and in Sediments of the North-East Atlantic
Researchers measured microplastic concentrations at the sea surface and in sediments across the southern North Sea and northwestern Europe, finding highly variable but widespread contamination. Sediments contained far higher concentrations than surface waters, confirming that the seafloor acts as a major sink for microplastic pollution.
Plastics from Surface to Seabed: Vertical Distribution of (Micro)plastic Particles in the North Pacific Ocean
Researchers investigated the vertical distribution of microplastics across the water column and deep-sea sediments (>5 km) in the North Pacific Ocean, finding concentrations of 8-2600 items/m3 in the water column and 1100-3200 items/kg in sediments, with distinct patterns across the North Pacific Subtropical Gyre, Papahanaumokuakea Monument, and a less-polluted open ocean site.
Stratification and deposition pathways of microplastics in the abyssal sediments of the Philippine Sea
Scientists analyzed sediment cores drilled from the deep Philippine Sea to understand how microplastics sink and accumulate in the ocean's most remote depths. They found microplastics at every layer studied, with concentrations peaking near both the surface and the deepest layers, and discovered that the sediment's chemistry and mineral composition help govern how particles migrate downward. This research reveals that even the abyssal ocean — far from human activity — is accumulating plastic debris, with geological and chemical forces influencing where it ends up.