9780429351495_C007_OA.pdf

Microplastics (MPs) are a prolific contaminant in aquatic ecosystems across the globe. Zooplankton (including holoplankton and meroplankton) play vital ecological roles in marine and freshwater ecosystems and have been shown to readily consume MPs. The present review uses 88 pieces of published lite...

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Γλώσσα:English[eng]
Έκδοση: Taylor & Francis 2020
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spelling oapen-20.500.12657-431492020-12-04T01:52:20Z Chapter 7 Review: Effects of Microplastic on Zooplankton Survival and Sublethal Responses Yu, Sing-Pei Yu Cole, Matthew Cole Chan, Benny K. K. Volume, Todd, Swearer, Smith, S, Russell, Review, P, OMBAR, Oceanography, Marine, L, I, Hawkins, Firth, Evans, Biology, Bates,B, Annual, Allcock bic Book Industry Communication::P Mathematics & science::PS Biology, life sciences::PSP Hydrobiology::PSPM Marine biology Microplastics (MPs) are a prolific contaminant in aquatic ecosystems across the globe. Zooplankton (including holoplankton and meroplankton) play vital ecological roles in marine and freshwater ecosystems and have been shown to readily consume MPs. The present review uses 88 pieces of published literature to examine and compare the effects of MPs on survival, growth, development, feeding rate, swimming speed, reproduction, organ damage and gene expression of different groups of zooplankton including copepods, daphnids, brine shrimp, euphausids, rotifers and the larvae of fishes, sea urchins, molluscs, barnacles, decapods and ascidians. Among the groups studied, daphnids and copepods are the most sensitive to MPs, with their feeding rate and fecundity significantly decreased at environmentally relevant MP concentrations. This might adversely affect daphnids and copepods populations in the long term. In contrast, molluscs, barnacles, brine shrimp and euphausids appear to be more tolerant to MPs. No clear impacts on survival, development time, growth or feeding rate can be observed in these zooplankton groups at any of the MP concentrations tested, suggesting that these groups might become more dominant with prolonged exposure to MP pollution. Leachates derived from MPs can induce severe abnormality in bivalve and sea urchin embryos. MPs have prominent effects on survival and fecundity of F1 offspring in bivalves, copepods and daphnids, indicating that MPs could incite transgenerational effects and drastically affect sustainability in zooplankton populations. 2020-12-03T13:52:51Z 2020-12-03T13:52:51Z 2020 chapter https://library.oapen.org/handle/20.500.12657/43149 English[eng] application/pdf Attribution-NonCommercial-NoDerivatives 4.0 International 9780429351495_C007_OA.pdf Taylor & Francis Oceanography and Marine Biology CRC Press 7b3c7b10-5b1e-40b3-860e-c6dd5197f0bb 0bf278da-435e-4b61-a3b2-a86d9bb2a5ae CRC Press open access
institution OAPEN
collection DSpace
language English[eng]
description Microplastics (MPs) are a prolific contaminant in aquatic ecosystems across the globe. Zooplankton (including holoplankton and meroplankton) play vital ecological roles in marine and freshwater ecosystems and have been shown to readily consume MPs. The present review uses 88 pieces of published literature to examine and compare the effects of MPs on survival, growth, development, feeding rate, swimming speed, reproduction, organ damage and gene expression of different groups of zooplankton including copepods, daphnids, brine shrimp, euphausids, rotifers and the larvae of fishes, sea urchins, molluscs, barnacles, decapods and ascidians. Among the groups studied, daphnids and copepods are the most sensitive to MPs, with their feeding rate and fecundity significantly decreased at environmentally relevant MP concentrations. This might adversely affect daphnids and copepods populations in the long term. In contrast, molluscs, barnacles, brine shrimp and euphausids appear to be more tolerant to MPs. No clear impacts on survival, development time, growth or feeding rate can be observed in these zooplankton groups at any of the MP concentrations tested, suggesting that these groups might become more dominant with prolonged exposure to MP pollution. Leachates derived from MPs can induce severe abnormality in bivalve and sea urchin embryos. MPs have prominent effects on survival and fecundity of F1 offspring in bivalves, copepods and daphnids, indicating that MPs could incite transgenerational effects and drastically affect sustainability in zooplankton populations.
title 9780429351495_C007_OA.pdf
spellingShingle 9780429351495_C007_OA.pdf
title_short 9780429351495_C007_OA.pdf
title_full 9780429351495_C007_OA.pdf
title_fullStr 9780429351495_C007_OA.pdf
title_full_unstemmed 9780429351495_C007_OA.pdf
title_sort 9780429351495_c007_oa.pdf
publisher Taylor & Francis
publishDate 2020
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