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20 resultsShowing papers similar to Quantifying microplastic mass in deep-sea sediment along a transect in the north pacific
ClearQuantifying microplastic mass in deep-sea sediment along a transect in the north pacific
Researchers collected sediment cores at six sites along an 800-km east-west transect offshore from San Diego and used pyrolysis-GC/MS targeting ten polymers to quantify microplastic mass fractions, finding higher polymer detection rates and concentrations at sites closer to shore compared to offshore locations.
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.
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.
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.
Plastics from Surfaceto Seabed: Vertical Distributionof (Micro)plastic Particles in the North Pacific Ocean
Researchers investigated the vertical distribution of microplastics from surface waters to deep-sea sediments (>5 km) in the North Pacific Ocean, documenting concentrations of 8-2600 items/m3 in the water column and 1100-3200 items/kg in sediments across the North Pacific Subtropical Gyre, Papahanaumokuakea Monument, and a less-polluted reference site.
Diving into the deep: unveiling small microplastics in Norwegian coastal sediment cores
Researchers examined the vertical distribution of small microplastics in five sediment cores from the Norwegian Coastal Current, using advanced analytical methods down to 11 micrometers combined with radiometric dating, finding widespread microplastic presence across sediment layers up to 19 cm depth and providing insights into historical deposition rates.
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.
Towards a North Pacific Ocean Long-term Monitoring Program for Plastic Pollution: a Review of Global Occurrence of Microplastics in the Sea and Deep-sea Sediments
This systematic review summarizes research on microplastic contamination in sea sediments around the world, with a focus on the North Pacific Ocean. The findings highlight the need for standardized monitoring methods and long-term tracking programs, since understanding where microplastics accumulate in ocean sediments helps predict how they enter marine food chains and eventually reach our plates.
The role of oceanographic processes and sedimentological settings on the deposition of microplastics in marine sediment: Icelandic waters
Researchers analyzed microplastics from marine sediment cores collected at eight sites on the Iceland continental shelf, examining how oceanographic processes and sedimentological settings influence the deposition and distribution of microplastic debris on the seafloor.
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.
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.
Unveiling the deep-sea microplastic Odyssey: Characteristics, distribution, and ecological implications in Pacific Ocean sediments
Researchers investigated microplastic contamination in deep-sea sediments from the Pacific Ocean at depths reaching nearly 7,000 meters. They found microplastics at every sampling site, predominantly polyester and rayon fibers, with the highest concentrations in the Western Pacific. The study highlights that microplastic pollution has reached some of the most remote deep-sea environments on Earth, raising concerns about its ecological impact.
Distribution of microplastics in bathyal- to hadal-depth sediments and transport process along the deep-sea canyon and the Kuroshio Extension in the Northwest Pacific
Researchers mapped microplastic distribution from shallow to ultra-deep ocean sediments in the Northwest Pacific, including Sagami Bay and areas beneath the Kuroshio Extension current. The study found the highest microplastic concentrations in abyssal stations and suggests two distinct transport pathways: land-sourced microplastics move to hadal depths via turbidity currents along submarine canyons, while ocean-surface microplastics sink directly to the abyssal plains below.
First evidence of plastic fallout from the North Pacific Garbage Patch
Researchers provided the first direct evidence that plastic debris from the North Pacific Garbage Patch sinks into the deep ocean, with plastic concentrations declining in a predictable pattern as depth increases. The polymer types found in the deep water matched those floating at the surface, confirming that surface garbage patches are a source of deep-sea plastic contamination.
Exploring Microplastic Concentrations and the Sedimentology of San Diego's Offshore Benthic Environments
Researchers analyzed microplastic concentrations in conjunction with sedimentary characteristics from three deep-sea environments in Southern California's Continental Borderland, representing the first study of its kind in the region. The study examined how microplastic morphology, color, size, and concentration vary across coastal, deep ocean, and offshore terrace settings, linking distribution patterns to sedimentological factors.
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.
Consistent microplastic ingestion by deep-sea invertebrates over the last four decades (1976–2015), a study from the North East Atlantic
Researchers found consistent microplastic ingestion by deep-sea invertebrates in the North East Atlantic over a 40-year period from 1976 to 2015, demonstrating that microplastic contamination of remote deep-sea habitats is a long-standing and persistent problem.
The fate of microplastic in marine sedimentary environments: A review and synthesis
A systematic review of 80 papers on microplastics in marine sediments found median concentrations varied widely by sediment environment, with fibers dominating many locations, and showed that sediment grain size and organic carbon content influence microplastic accumulation.
Global mapping for the occurrence of all-sized microplastics in seafloor sediments
Researchers compiled global seafloor microplastic data from 155 marine sediment samples including detailed sampling metadata and abundance measurements for 20 microplastic categories, providing foundational data for understanding the distribution and uncertainty of microplastic contamination on the seafloor.