Toxicity of microplastics and nanoplastics to Daphnia magna: Current status, knowledge gaps and future directions

[1]  Süleyman Köytepe,et al.  Chronic and Acute Water-Soluble Microplastics Uptake and Effects on Growth and Reproduction of Daphnia magna , 2022, Water, Air, & Soil Pollution.

[2]  H. Sundh,et al.  Microplastic exposure in aquatic invertebrates can cause significant negative effects compared to natural particles - A meta-analysis. , 2022, Environmental pollution.

[3]  Bingsheng Zhou,et al.  Short- and long-term single and combined effects of microplastics and chromium on the freshwater water flea Daphnia magna. , 2022, Aquatic toxicology.

[4]  A. Chaumot,et al.  Acute toxicity of nanoplastics on Daphnia and Gammarus neonates: Effects of surface charge, heteroaggregation, and water properties. , 2022, The Science of the total environment.

[5]  Jinho Jung,et al.  Transgenerational effects of polyethylene microplastic fragments containing benzophenone-3 additive in Daphnia magna. , 2022, Journal of hazardous materials.

[6]  D. Ebert Daphnia as a versatile model system in ecology and evolution , 2022, EvoDevo.

[7]  Qianqian Xiang,et al.  Metabolomics reveals the mechanism of polyethylene microplastic toxicity to Daphnia magna. , 2022, Chemosphere.

[8]  N. Tufenkji,et al.  Sub-lethal Effects of Nanoplastics upon Chronic Exposure to Daphnia magna , 2022, Journal of Hazardous Materials Advances.

[9]  A. Samadi,et al.  Review on the ecotoxicological impacts of plastic pollution on the freshwater invertebrate Daphnia , 2022, Environmental toxicology.

[10]  Yu‐Yun Chen,et al.  Effects of Microplastics on Reproduction and Growth of Freshwater Live Feeds Daphnia magna , 2022, Fishes.

[11]  Da Li,et al.  Increased food availability reducing the harmful effects of microplastics strongly depends on the size of microplastics. , 2022, Journal of hazardous materials.

[12]  A. Kahru,et al.  Virgin and UV-weathered polyamide microplastics posed no effect on the survival and reproduction of Daphnia magna , 2022, PeerJ.

[13]  R. Svanbäck,et al.  The Stressful Effects of Microplastics Associated With Chromium (VI) on the Microbiota of Daphnia Magna , 2022, Frontiers in Environmental Science.

[14]  Hairui Yu,et al.  Concurrent water- and foodborne exposure to microplastics leads to differential microplastic ingestion and neurotoxic effects in zebrafish. , 2022, Water research.

[15]  G. Kalčíková,et al.  The first plastic produced, but the latest studied in microplastics research: The assessment of leaching, ecotoxicity and bioadhesion of Bakelite microplastics. , 2022, Environmental pollution.

[16]  Yuelu Jiang,et al.  Combined toxicity of polystyrene microplastics and ammonium perfluorooctanoate to Daphnia magna: Mediation of intestinal blockage. , 2022, Water research.

[17]  Qing-jun Meng,et al.  Intergenerational and biological effects of roxithromycin and polystyrene microplastics to Daphnia magna. , 2022, Aquatic toxicology.

[18]  M. Sugni,et al.  Molecular, biochemical and behavioral responses of Daphnia magna under long-term exposure to polystyrene nanoplastics. , 2022, Environment international.

[19]  Hairui Yu,et al.  A battery of baseline toxicity bioassays directed evaluation of plastic leachates-Towards the establishment of bioanalytical monitoring tools for plastics. , 2022, Science of the Total Environment.

[20]  Weicheng Zhang,et al.  Zinc oxide nanoparticle dissolution and toxicity enhancement by polystyrene microplastics under sunlight irradiation. , 2022, Chemosphere.

[21]  T. Cedervall,et al.  Size fractionation of high-density polyethylene breakdown nanoplastics reveals different toxic response in Daphnia magna , 2022, Scientific Reports.

[22]  Bingsheng Zhou,et al.  New evidence for neurobehavioral toxicity of deltamethrin at environmentally relevant levels in zebrafish. , 2022, Science of the Total Environment.

[23]  M. Marinšek,et al.  Environmental hazard of polypropylene microplastics from disposable medical masks: acute toxicity towards Daphnia magna and current knowledge on other polypropylene microplastics , 2022, Microplastics and Nanoplastics.

[24]  Haoyang Zhao,et al.  Effects of polyvinyl chloride microplastics on reproduction, oxidative stress and reproduction and detoxification-related genes in Daphnia magna. , 2022, Comparative biochemistry and physiology. Toxicology & pharmacology : CBP.

[25]  R. Rosal,et al.  Polystyrene nanoplastics and wastewater displayed antagonistic toxic effects due to the sorption of wastewater micropollutants. , 2022, The Science of the total environment.

[26]  J. Kekäläinen,et al.  Chemical composition and particle size influence the toxicity of nanoscale plastic debris and their co-occurring benzo(α)pyrene in the model aquatic organisms Daphnia magna and Danio rerio. , 2022, NanoImpact.

[27]  Y. Hwang,et al.  Adsorption of benzalkonium chlorides onto polyethylene microplastics: Mechanism and toxicity evaluation. , 2021, Journal of hazardous materials.

[28]  Hairui Yu,et al.  Effects of microplastics and food particles on organic pollutants bioaccumulation in equi-fugacity and above-fugacity scenarios. , 2021, The Science of the total environment.

[29]  R. Rosal,et al.  Negative food dilution and positive biofilm carrier effects of microplastic ingestion by D. magna cause tipping points at the population level. , 2021, Environmental pollution.

[30]  C. Laforsch,et al.  Shape, size, and polymer dependent effects of microplastics on Daphnia magna. , 2021, Journal of hazardous materials.

[31]  M. Sepúlveda,et al.  Emerging trends in nanoparticle toxicity and the significance of using Daphnia as a model organism. , 2021, Chemosphere.

[32]  W. G. Matias,et al.  Individual and combined multigenerational effects induced by polystyrene nanoplastic and glyphosate in Daphnia magna (Strauss, 1820). , 2021, The Science of the total environment.

[33]  V. Slaveykova,et al.  Polystyrene Nanoplastic Behavior and Toxicity on Crustacean Daphnia magna: Media Composition, Size, and Surface Charge Effects , 2021, Environments.

[34]  Jinho Jung,et al.  Role of benzophenone-3 additive in chronic toxicity of polyethylene microplastic fragments to Daphnia magna. , 2021, The Science of the total environment.

[35]  F. Leusch,et al.  Converting mg/L to Particles/L: Reconciling the Occurrence and Toxicity Literature on Microplastics. , 2021, Environmental science & technology.

[36]  Dokyung Kim,et al.  Are your shoes safe for the environment? - Toxicity screening of leachates from microplastic fragments of shoe soles using freshwater organisms. , 2021, Journal of Hazardous Materials.

[37]  X. Xia,et al.  Bioavailability quantification and uptake mechanisms of pyrene associated with different-sized microplastics to Daphnia magna. , 2021, The Science of the total environment.

[38]  Jun Chul Park,et al.  Combined exposure to microplastics and zinc produces sex-specific responses in the water flea Daphnia magna. , 2021, Journal of hazardous materials.

[39]  C. Laforsch,et al.  Long-term exposure of Daphnia magna to polystyrene microplastic (PS-MP) leads to alterations of the proteome, morphology and life-history. , 2021, The Science of the total environment.

[40]  Cátia S. A. Santos,et al.  Microplastic Fibers Increase Sublethal Effects of AgNP and AgNO3 in Daphnia magna by Changing Cellular Energy Allocation , 2021, Environmental toxicology and chemistry.

[41]  M. Wiesner,et al.  Nanoplastics are neither microplastics nor engineered nanoparticles , 2021, Nature Nanotechnology.

[42]  S. Cunha,et al.  Long-term adverse effects of microplastics on Daphnia magna reproduction and population growth rate at increased water temperature and light intensity: Combined effects of stressors and interactions. , 2021, The Science of the total environment.

[43]  D. Drobne,et al.  Long Term Exposure to Virgin and Recycled LDPE Microplastics Induced Minor Effects in the Freshwater and Terrestrial Crustaceans Daphnia magna and Porcellio scaber , 2021, Polymers.

[44]  J. Oehlmann,et al.  Incubation in Wastewater Reduces the Multigenerational Effects of Microplastics in Daphnia magna , 2021, Environmental science & technology.

[45]  Jinho Jung,et al.  Synergistic effect of microplastic fragments and benzophenone-3 additives on lethal and sublethal Daphnia magna toxicity. , 2021, Journal of hazardous materials.

[46]  Jinho Jung,et al.  Size-dependent chronic toxicity of fragmented polyethylene microplastics to Daphnia magna. , 2021, Chemosphere.

[47]  J. Dudka,et al.  Daphnia magna model in the toxicity assessment of pharmaceuticals: A review. , 2020, The Science of the total environment.

[48]  J. Kukkonen,et al.  Interacting effects of simulated eutrophication, temperature increase, and microplastic exposure on Daphnia. , 2020, Environmental research.

[49]  Stephanie B. Borrelle,et al.  Predicted growth in plastic waste exceeds efforts to mitigate plastic pollution , 2020, Science.

[50]  G. Darbha,et al.  Metal sorption onto nanoscale plastic debris and trojan horse effects in Daphnia magna: Role of dissolved organic matter. , 2020, Water research.

[51]  J. Oehlmann,et al.  What are the drivers of microplastic toxicity? Comparing the toxicity of plastic chemicals and particles to Daphnia magna. , 2020, Environmental pollution.

[52]  Wenke Yuan,et al.  Toxicological effects of microplastics and heavy metals on the Daphnia magna. , 2020, The Science of the total environment.

[53]  Liang-Hong Guo,et al.  Eco-corona vs protein corona: effects of humic substances on corona formation and nanoplastic particle toxicity in Daphnia magna. , 2020, Environmental science & technology.

[54]  L. Hansson,et al.  Controlled protein mediated aggregation of polystyrene nanoplastics does not reduce toxicity towards Daphnia magna , 2020, Environmental Science: Nano.

[55]  S. Bayen,et al.  Primary and Secondary Plastic Particles Exhibit Limited Acute Toxicity but Chronic Effects on Daphnia magna. , 2020, Environmental science & technology.

[56]  L. Burgoon,et al.  Assessment of Transcriptomic and Apical Responses of Daphnia magna Exposed to a Polyethylene Microplastic in a 21‐d Chronic Study , 2020, Environmental toxicology and chemistry.

[57]  J. Corbi,et al.  Is the development of Daphnia magna neonates affected by short-term exposure to polyethylene microplastics? , 2020, Journal of environmental science and health. Part A, Toxic/hazardous substances & environmental engineering.

[58]  M. Wagner,et al.  Microplastics but not natural particles induce multigenerational effects in Daphnia magna. , 2020, Environmental pollution.

[59]  Feifei Yang,et al.  Changes of the acute and chronic toxicity of three antimicrobial agents to Daphnia magna in the presence/absence of micro-polystyrene. , 2020, Environmental pollution.

[60]  A. Bownik,et al.  Ketoprofen affects swimming behavior and impairs physiological endpoints of Daphnia magna. , 2020, The Science of the total environment.

[61]  L. Hansson,et al.  Long-term exposure to nanoplastics reduces life-time in Daphnia magna , 2020, Scientific Reports.

[62]  G. Kalčíková,et al.  An environmental concentration of aged microplastics with adsorbed silver significantly affects aquatic organisms. , 2020, Water research.

[63]  A. Callaghan,et al.  Impacts of polystyrene microplastics on Daphnia magna: A laboratory and a mesocosm study. , 2020, The Science of the total environment.

[64]  A. Bownik Physiological endpoints in daphnid acute toxicity tests. , 2020, The Science of the total environment.

[65]  E. Billoir,et al.  Microplastics enhance Daphnia magna sensitivity to the pyrethroid insecticide deltamethrin: Effects on life history traits. , 2020, The Science of the total environment.

[66]  R. Sommaruga,et al.  Microplastics modify the toxicity of glyphosate on Daphnia magna. , 2019, The Science of the total environment.

[67]  W. G. Matias,et al.  Crystalline phase-dependent toxicity of aluminum oxide nanoparticles toward Daphnia magna and ecological risk assessment. , 2019, Environmental research.

[68]  C. Laforsch,et al.  Effects of microplastic particles and leaching additive on the life history and morphology of Daphnia magna. , 2019, Environmental pollution.

[69]  G. Kalčíková,et al.  An exploratory ecotoxicity study of primary microplastics versus aged in natural waters and wastewaters. , 2019, Environmental pollution.

[70]  Degao Wang,et al.  Aquatic toxicity of iron-oxide-doped microplastics to Chlorella pyrenoidosa and Daphnia magna. , 2019, Environmental pollution.

[71]  Gangfeng Ouyang,et al.  Investigating the toxicities of different functionalized polystyrene nanoplastics on Daphnia magna. , 2019, Ecotoxicology and environmental safety.

[72]  S. Plaistow,et al.  Temperature and clone-dependent effects of microplastics on immunity and life history in Daphnia magna. , 2019, Environmental pollution.

[73]  M. Ortenzi,et al.  Polystyrene microplastics ingestion induced behavioral effects to the cladoceran Daphnia magna. , 2019, Chemosphere.

[74]  V. Slaveykova,et al.  Influence of nanoplastic surface charge on eco-corona formation, aggregation and toxicity to freshwater zooplankton. , 2019, Environmental pollution.

[75]  T. Bøhn,et al.  Acute and chronic effects of polystyrene microplastics on juvenile and adult Daphnia magna. , 2019, Environmental pollution.

[76]  M. Renzi,et al.  Effects of Different Microplastic Types and Surfactant-Microplastic Mixtures Under Fasting and Feeding Conditions: A Case Study on Daphnia magna , 2019, Bulletin of Environmental Contamination and Toxicology.

[77]  M. Vijver,et al.  Significant decline of Daphnia magna population biomass due to microplastic exposure. , 2019, Environmental pollution.

[78]  M. Vijver,et al.  Reproductive toxicity of primary and secondary microplastics to three cladocerans during chronic exposure. , 2019, Environmental pollution.

[79]  Jae Bem You,et al.  Fluorescent Dyes for Visualizing Microplastic Particles and Fibers in Laboratory-Based Studies , 2019, Environmental Science & Technology Letters.

[80]  Liang-Hong Guo,et al.  Humic acid alleviates the toxicity of polystyrene nanoplastic particles to Daphnia magna , 2019, Environmental Science: Nano.

[81]  Degao Wang,et al.  Aquatic behavior and toxicity of polystyrene nanoplastic particles with different functional groups: Complex roles of pH, dissolved organic carbon and divalent cations. , 2019, Chemosphere.

[82]  G. Lu,et al.  Single and combined effects of microplastics and roxithromycin on Daphnia magna , 2019, Environmental Science and Pollution Research.

[83]  N. Tufenkji,et al.  Separation and Analysis of Microplastics and Nanoplastics in Complex Environmental Samples. , 2019, Accounts of chemical research.

[84]  Juan Zheng,et al.  Quantification of the combined toxic effect of polychlorinated biphenyls and nano-sized polystyrene on Daphnia magna. , 2019, Journal of hazardous materials.

[85]  Cátia S. A. Santos,et al.  Multigenerational effects of carbendazim in Daphnia magna: From a subcellular to a population level , 2019, Environmental toxicology and chemistry.

[86]  Zhiquan Liu,et al.  Polystyrene nanoplastic exposure induces immobilization, reproduction, and stress defense in the freshwater cladoceran Daphnia pulex. , 2019, Chemosphere.

[87]  J. Xia,et al.  Research on ecotoxicology of microplastics on freshwater aquatic organisms , 2019, Environmental Pollutants and Bioavailability.

[88]  E. Foekema,et al.  Quantifying ecological risks of aquatic micro- and nanoplastic , 2018, Critical Reviews in Environmental Science and Technology.

[89]  P. V. van Bodegom,et al.  Acute toxicity of organic pesticides to Daphnia magna is unchanged by co-exposure to polystyrene microplastics. , 2018, Ecotoxicology and environmental safety.

[90]  A. Beckerman,et al.  Predictability of the impact of multiple stressors on the keystone species Daphnia , 2018, Scientific Reports.

[91]  N. Tufenkji,et al.  Toxicity Assessments of Micro- and Nanoplastics Can Be Confounded by Preservatives in Commercial Formulations , 2018, Environmental Science & Technology Letters.

[92]  Anita Jemec Kokalj,et al.  Screening study of four environmentally relevant microplastic pollutants: Uptake and effects on Daphnia magna and Artemia franciscana. , 2018, Chemosphere.

[93]  C. U. Emenike,et al.  Feasting on microplastics: ingestion by and effects on marine organisms , 2018, Aquatic Biology.

[94]  R. Neff,et al.  Microplastics in Seafood and the Implications for Human Health , 2018, Current Environmental Health Reports.

[95]  A. Martins,et al.  Transgenerational effects and recovery of microplastics exposure in model populations of the freshwater cladoceran Daphnia magna Straus. , 2018, The Science of the total environment.

[96]  T. Hoang,et al.  Microplastic ingestion by Daphnia magna and its enhancement on algal growth. , 2018, The Science of the total environment.

[97]  A. Martins,et al.  Toxicological interactions induced by chronic exposure to gold nanoparticles and microplastics mixtures in Daphnia magna. , 2018, The Science of the total environment.

[98]  A. Callaghan,et al.  Impact of polystyrene microplastics on Daphnia magna mortality and reproduction in relation to food availability , 2018, PeerJ.

[99]  W. Kloas,et al.  Microplastics Reduce Short-Term Effects of Environmental Contaminants. Part I: Effects of Bisphenol A on Freshwater Zooplankton Are Lower in Presence of Polyamide Particles , 2018, International journal of environmental research and public health.

[100]  A. Koelmans,et al.  Pollutants in Plastics within the North Pacific Subtropical Gyre. , 2018, Environmental science & technology.

[101]  Dokyung Kim,et al.  Trophic transfer and individual impact of nano-sized polystyrene in a four-species freshwater food chain , 2018, Scientific Reports.

[102]  Jeffrey Farner Budarz,et al.  Microplastics and Nanoplastics in Aquatic Environments: Aggregation, Deposition, and Enhanced Contaminant Transport. , 2017, Environmental science & technology.

[103]  Adam Bownik,et al.  Daphnia swimming behaviour as a biomarker in toxicity assessment: A review. , 2017, The Science of the total environment.

[104]  Dokyung Kim,et al.  Mixture Toxicity of Nickel and Microplastics with Different Functional Groups on Daphnia magna. , 2017, Environmental science & technology.

[105]  N. Iversen,et al.  Ingestion and Egestion of Microplastics by the Cladoceran Daphnia magna: Effects of Regular and Irregular Shaped Plastic and Sorbed Phenanthrene , 2017, Bulletin of Environmental Contamination and Toxicology.

[106]  L. Hansson,et al.  Brain damage and behavioural disorders in fish induced by plastic nanoparticles delivered through the food chain , 2017, Scientific Reports.

[107]  P. Soudant,et al.  Occurrence and effects of plastic additives on marine environments and organisms: A review. , 2017, Chemosphere.

[108]  Nanna B. Hartmann,et al.  Ingestion of micro- and nanoplastics in Daphnia magna - Quantification of body burdens and assessment of feeding rates and reproduction. , 2017, Environmental pollution.

[109]  R. Geyer,et al.  Production, use, and fate of all plastics ever made , 2017, Science Advances.

[110]  Martin Wagner,et al.  Ecotoxicity testing of microplastics: Considering the heterogeneity of physicochemical properties , 2017, Integrated environmental assessment and management.

[111]  B. Jovanović Ingestion of microplastics by fish and its potential consequences from a physical perspective , 2017, Integrated environmental assessment and management.

[112]  C. Lewis,et al.  Interactions of microplastic debris throughout the marine ecosystem , 2017, Nature Ecology &Evolution.

[113]  M. Bele,et al.  Uptake and effects of microplastic textile fibers on freshwater crustacean Daphnia magna. , 2016, Environmental pollution.

[114]  Hongyan Guo,et al.  Effects of nanoplastics and microplastics on toxicity, bioaccumulation, and environmental fate of phenanthrene in fresh water. , 2016, Environmental pollution.

[115]  W. Kloas,et al.  Short-term exposure with high concentrations of pristine microplastic particles leads to immobilisation of Daphnia magna. , 2016, Chemosphere.

[116]  E. Gorokhova,et al.  The Effects of Natural and Anthropogenic Microparticles on Individual Fitness in Daphnia magna , 2016, PloS one.

[117]  Fatima Nasser,et al.  Secreted protein eco-corona mediates uptake and impacts of polystyrene nanoparticles on Daphnia magna. , 2016, Journal of proteomics.

[118]  H. Ren,et al.  Uptake and Accumulation of Polystyrene Microplastics in Zebrafish (Danio rerio) and Toxic Effects in Liver. , 2016, Environmental science & technology.

[119]  Colin R. Janssen,et al.  Microplastic as a Vector for Chemicals in the Aquatic Environment: Critical Review and Model-Supported Reinterpretation of Empirical Studies , 2016, Environmental science & technology.

[120]  Jennifer G. Laird,et al.  Sublethal effects of multiwalled carbon nanotube exposure in the invertebrate Daphnia magna , 2016, Environmental toxicology and chemistry.

[121]  Chelsea M. Rochman,et al.  Anthropogenic debris in seafood: Plastic debris and fibers from textiles in fish and bivalves sold for human consumption , 2015, Scientific Reports.

[122]  Richard C. Thompson,et al.  Microplastics in freshwater systems: a review of the emerging threats, identification of knowledge gaps and prioritisation of research needs. , 2015, Water research.

[123]  D. Ramler,et al.  The discharge of certain amounts of industrial microplastic from a production plant into the River Danube is permitted by the Austrian legislation. , 2015, Environmental pollution.

[124]  Z. Stępniewska,et al.  Protective effects of ectoine on behavioral, physiological and biochemical parameters of Daphnia magna subjected to hydrogen peroxide. , 2015, Comparative biochemistry and physiology. Toxicology & pharmacology : CBP.

[125]  Julia Reisser,et al.  Plastic Pollution in the World's Oceans: More than 5 Trillion Plastic Pieces Weighing over 250,000 Tons Afloat at Sea , 2014, PloS one.

[126]  M. Lürling,et al.  Nanoplastic Affects Growth of S. obliquus and Reproduction of D. magna , 2014, Environmental science & technology.

[127]  Nordiske Arbejdspapirer,et al.  Plastics in the marine environment , 2014, Environmental toxicology and chemistry.

[128]  Richard C. Thompson,et al.  Microplastic Moves Pollutants and Additives to Worms, Reducing Functions Linked to Health and Biodiversity , 2013, Current Biology.

[129]  C. Rochman,et al.  Ingested plastic transfers hazardous chemicals to fish and induces hepatic stress , 2013, Scientific Reports.

[130]  Ralf Schulz,et al.  Three-Dimensional Analysis of the Swimming Behavior of Daphnia magna Exposed to Nanosized Titanium Dioxide , 2013, PloS one.

[131]  Richard C. Thompson,et al.  The physical impacts of microplastics on marine organisms: a review. , 2013, Environmental pollution.

[132]  Y. Watanuki,et al.  Accumulation of plastic-derived chemicals in tissues of seabirds ingesting marine plastics. , 2013, Marine pollution bulletin.

[133]  S. Brasseur,et al.  Plastic ingestion by harbour seals (Phoca vitulina) in The Netherlands. , 2013, Marine pollution bulletin.

[134]  M. McHugh,et al.  Occurrence of microplastics in the gastrointestinal tract of pelagic and demersal fish from the English Channel. , 2013, Marine pollution bulletin.

[135]  N. V. von Moos,et al.  Uptake and effects of microplastics on cells and tissue of the blue mussel Mytilus edulis L. after an experimental exposure. , 2012, Environmental science & technology.

[136]  G. Dave,et al.  Comparative acute toxicity of leachates from plastic products made of polypropylene, polyethylene, PVC, acrylonitrile–butadiene–styrene, and epoxy to Daphnia magna , 2012, Environmental Science and Pollution Research.

[137]  T. Galloway,et al.  Microplastics as contaminants in the marine environment: a review. , 2011, Marine pollution bulletin.

[138]  T. Galloway,et al.  Accumulation of microplastic on shorelines woldwide: sources and sinks. , 2011, Environmental science & technology.

[139]  Anthony L Andrady,et al.  Microplastics in the marine environment. , 2011, Marine pollution bulletin.

[140]  Evan S. Beach,et al.  Plastics additives and green chemistry , 2010 .

[141]  Anthony L Andrady,et al.  Applications and societal benefits of plastics , 2009, Philosophical Transactions of the Royal Society B: Biological Sciences.

[142]  Richard C. Thompson,et al.  Plastics, the environment and human health: current consensus and future trends , 2009, Philosophical Transactions of the Royal Society B: Biological Sciences.

[143]  Elijah J Petersen,et al.  Biological uptake and depuration of carbon nanotubes by Daphnia magna. , 2009, Environmental science & technology.

[144]  Richard C. Thompson,et al.  New Directions in Plastic Debris , 2005, Science.

[145]  Richard C. Thompson,et al.  Lost at Sea: Where Is All the Plastic? , 2004, Science.

[146]  C. Wood,et al.  Mechanisms of acute and chronic waterborne nickel toxicity in the freshwater cladoceran, Daphnia magna. , 2003, Environmental science & technology.

[147]  E. Nikunen,et al.  Daphnia magna as an indicator of the acute toxicity of waste waters , 1985, Bulletin of environmental contamination and toxicology.

[148]  L. Behie,et al.  Foam fractionation of spent sulphite liquor: Part II: Separation of toxic components , 1979 .

[149]  R. Geyer A Brief History of Plastics , 2020 .

[150]  C. Simioni,et al.  Environmental Toxicology and Chemistry , 2019 .

[151]  M. Frenzel,et al.  Plastic Debris in the Aquatic Environment UPTAKE AND TOXICITY OF METHYLMETHACRYLATE-BASED NANOPLASTIC PARTICLES IN AQUATIC ORGANISMS , 2016 .

[152]  M. Simpson,et al.  Metabolomics reveals energetic impairments in Daphnia magna exposed to diazinon, malathion and bisphenol-A. , 2016, Aquatic toxicology.

[153]  Amy Lusher,et al.  Microplastics in the Marine Environment: Distribution, Interactions and Effects , 2015 .

[154]  M. Guida,et al.  How Daphnia (Cladocera) Assays may be used as Bioindicators of Health Effects , 2013 .

[155]  R. Sibly,et al.  Daphnia as an emerging model for toxicological genomics , 2008 .