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61,005 resultsShowing papers similar to Microplastic ingestion by zooplankton in surf zone waters of sandy beaches: Are copepods potential reservoirs of these emerging pollutants?
ClearIs Zooplankton an Entry Point of Microplastics into the Marine Food Web?
Researchers investigated microplastic ingestion by zooplankton in natural marine environments, examining whether copepods and other zooplankton serve as an entry point for transferring microplastics from the water column into the marine food web.
Zooplankton exposure to microplastic contamination in a estuarine plume-influenced region, in Northeast Brazil
Researchers examined microplastic contamination in estuarine plume waters off the coast of northeastern Brazil and its relationship with zooplankton. The study found significantly higher microplastic abundance during the high rainfall season, with fibers and fragments being the dominant types, and elevated concentrations in river plume areas compared to reef-adjacent waters, indicating land-based sources as major contributors.
In situ microplastic ingestion by neritic zooplankton of the central Mexican Pacific
Researchers documented in situ microplastic ingestion by zooplankton in two bays of the central Mexican Pacific, finding that copepods, decapod larvae, and chaetognaths ingested microplastics, predominantly fibers, with higher rates during the rainy season.
Suspended microplastics in a highly polluted bay: Abundance, size, and availability for mesozooplankton
Researchers quantified suspended microplastics in Guanabara Bay, Brazil using different mesh size nets, finding high microplastic abundance and characterizing size distributions to assess the availability of plastic particles for ingestion by mesozooplankton as an entry point into the food web.
First assessment of anthropogenic particle ingestion in Pontellid copepods: Pontella mediterranea as a potential microplastic reservoir in the Neuston
This Mediterranean study found that the neustonic copepod Pontella mediterranea, which lives at the ocean surface, ingests anthropogenic particles including microplastics, and due to its very high abundance could collectively concentrate an average of 45 particles per square meter of sea surface. Most ingested particles were cellulose acetate and cotton fibers, not classic plastic polymers. Because these copepods are globally abundant and sit at the base of marine food webs, their role as a reservoir and vector of anthropogenic particles into ocean food chains deserves greater attention.
Evidence of microplastics in samples of zooplankton from Portuguese coastal waters
Researchers examined zooplankton samples collected from Portuguese coastal waters between 2002 and 2008 and found microplastics in a proportion of the samples, providing early retrospective evidence of microplastic contamination in Atlantic zooplankton. The study shows that plastic contamination of coastal zooplankton communities predates the recent surge of research attention.
Bioavailability and ingestion of microplastic by zooplankton in the natural environment
This study reviewed the bioavailability and ingestion of microplastics by marine zooplankton, which are particularly vulnerable because microplastic sizes overlap with their natural prey. Laboratory and field evidence shows zooplankton including copepods readily ingest microplastics, affecting energy budgets and potentially transferring particles up the food chain.
Microplastic ingestion by copepods in a coastal environment of the Gulf of California, Mexico
Copepods are tiny crustaceans that form a critical link in ocean food webs, and this study found that they were ingesting microplastics in Mexico's Gulf of California — even in samples collected as far back as 2003, before microplastic awareness was widespread. The presence of microplastics in archived zooplankton samples suggests contamination has been ongoing for decades in this region. Because copepods are eaten by fish and other marine animals, their microplastic ingestion represents an early entry point into the marine food chain.
Ingestion of Microplastics in the Planktonic Copepod from the Indonesian Throughflow Pathways
Researchers documented microplastic ingestion by three size classes of marine copepods — tiny crustaceans that form the base of ocean food webs — along the Indonesian Throughflow, one of the world's major ocean current systems. Fiber microplastics dominated ingested particles (87%), and seven polymer types were identified in copepod bodies. Because copepods are eaten by virtually everything in the ocean, their ingestion of microplastics creates a direct pathway for plastic particles and associated chemicals to move up the food chain toward fish and ultimately humans.
Occurrence and ingestion of microplastics by zooplankton in Kenya's marine environment: first documented evidence
Researchers documented the first evidence of microplastic ingestion by zooplankton in Kenyan coastal waters, finding an average of 110 microplastic particles per cubic metre at the sea surface, with 129 particles recovered from zooplankton including chaetognaths, copepods, amphipods, and fish larvae. Filaments dominated both water and ingested microplastics, comprising 76% and 97% of their respective compositions.
Pervasive occurrence of microplastics in Hudson-Raritan estuary zooplankton
Researchers found microplastics in the majority of zooplankton samples collected across the Hudson-Raritan estuary, with fibers being the most prevalent particle type, indicating that estuarine zooplankton are extensively exposed to microplastic contamination and represent a pathway for plastic entry into the food web.
The Behavior of Planktonic Copepods Minimizes the Entry of Microplastics in Marine Food Webs
Researchers found that planktonic copepods across all major feeding behaviors ingested microplastics at rates up to ten times lower than similar-sized microalgae, suggesting that copepod feeding strategies naturally limit the entry of microplastics into marine food webs.
Global Meta-Analysis and Review of Microplastic in Marine Copepods
This global meta-analysis examines how copepods — tiny crustaceans at the base of the ocean food chain — interact with microplastics. It finds that despite individually low ingestion rates, the sheer abundance of copepods makes them significant microplastic reservoirs, with potential consequences that ripple up the food chain to fish and ultimately humans.
Ingestion of Microplastics by Zooplankton in the Northeast Pacific Ocean
Researchers collected zooplankton from the northeast Pacific Ocean and found microplastics ingested by multiple species, demonstrating that microplastic uptake occurs throughout the open ocean zooplankton community far from coastlines.
Impact of anthropogenic activities on the abundance of microplastics in copepods sampled from the southeast coast of India
Researchers measured microplastic contamination in tiny crustaceans called copepods along the southeast coast of India and found that areas with more human activity had higher concentrations. Microplastics were present in both the surface water and inside the copepods themselves, with fibers being the most common type. The findings suggest that human activities along coastlines are directly contributing to microplastic ingestion by marine organisms at the base of the food chain.
Assessing Microplastic Contamination in Zooplanktonic Organisms from Two River Estuaries
Researchers assessed microplastic contamination in zooplankton sampled from two river estuaries, finding microplastics in a significant proportion of individual organisms from both sites. Fibre shapes dominated ingested plastics, and contamination levels were higher in the more urbanized estuary, indicating that land-based pollution inputs drive microplastic exposure in estuarine zooplankton.
Microplastic ingestion in zooplankton from the Fram Strait in the Arctic
Researchers found that all five zooplankton species examined in the Arctic Fram Strait had ingested microplastics, with polyester and polyamide fibers being the most common types, confirming widespread microplastic contamination at the base of the Arctic food web.
Zooplankton assemblage and microplastics associated with a coastal sandspit (Tubará, Atlántico)
Researchers surveyed zooplankton communities and microplastic presence in surface waters of the Colombian Caribbean coast near a sandspit and found microplastics in 100% of tow net samples. Microplastic abundance correlated with proximity to population centers, and the dominant zooplankton taxa overlap in size with microplastic particles, indicating high potential for inadvertent ingestion.
Microplastics in the menu of Mediterranean zooplankton: Insights from the feeding response of the calanoid copepod Centropages typicus
Researchers investigated how the Mediterranean copepod Centropages typicus responds to microplastics, finding that these zooplankton ingest plastic particles whose size overlaps with their natural nano-microplankton prey, potentially threatening marine food web functioning.
Microplastics in zooplankton in the eastern Arabian Sea: The threats they pose to fish and corals favoured by coastal currents
Researchers found that zooplankton including copepods, chaetognaths, decapods, and fish larvae across six zones along India's western coast in the Eastern Arabian Sea accumulated microplastics predominantly as pellets (52%), with coastal currents implicated in dispersing contamination to fish and coral reef ecosystems.
Contaminação e toxicidade de microplásticos em uma área de proteção marinha costeira
This Brazilian study assessed microplastic contamination and toxicity in a coastal marine protected area, finding that sandy beaches accumulate plastic particles carried in by the ocean. The research highlights that even protected coastal zones are not immune to microplastic pollution, which can be ingested by marine wildlife and enter food webs.
Abundant plankton-sized microplastic particles in shelf waters of the northern Gulf of Mexico
Researchers found abundant microplastic particles of plankton-like size in the waters of the northern Gulf of Mexico shelf, raising concerns about their potential to be ingested by zooplankton and higher trophic level species. The study highlights how semi-enclosed coastal seas can accumulate high concentrations of small plastic fragments.
Microplastics Residence Time in Marine Copepods: An Experimental Study
Laboratory experiments measured how long microplastics remain in marine copepods after ingestion, finding that residence times vary by particle type and size, with some particles persisting longer than others and informing estimates of microplastic transfer through marine food webs.
Microplastics contamination and toxicity in a coastal marine protected area
This study examined microplastic contamination and toxicity in a Brazilian coastal marine protected area, finding plastic particles accumulating on beaches and posing risks to filter-feeding organisms and marine food webs. Even protected coastal areas are not shielded from microplastic pollution.