Effects of PET microplastics on the freshwater crustacean Daphnia similis Claus, 1976
Efeitos dos microplásticos de PET no crustáceo de água doce Daphnia similis Claus, 1976
Daniela Grijó de Castro; Ana Luiza Fonseca Destro; Eder Carlos Lopes Coimbra; Aurea Luiza Lemes da Silva; Ann Honor Mounteer
Abstract
Keywords
Resumo
Resumo::
Palavras-chave
Referências
Allen, S., Allen, D., Phoenix, V.R., Le Roux, G., Durántez Jiménez, P., Simonneau, A., Binet, S., & Galop, D., 2019. Atmospheric transport and deposition of microplastics in a remote mountain catchment. Nat. Geosci. 12(5), 339-344.
Associação Brasileira de Normas Técnicas – ABNT, 2016. NBR 12713: Ecotoxicologia aquática – Toxicidade aguda – Método de ensaio com
Barnes, D.K.A., Galgani, F., Thompson, R.C., & Barlaz, M., 2009. Accumulation and fragmentation of plastic debris in global environments. Philos. Trans. R. Soc. Lond. B Biol. Sci. 364(1526), 1985-1998. PMid:19528051.
Brahney, J., Mahowald, N., Prank, M., Cornwell, G., Klimont, Z., Matsui, H., & Prather, K.A., 2021. Constraining the atmospheric limb of the plastic cycle. Proc. Natl. Acad. Sci. USA 118(16), e2020719118. PMid:33846251.
Canniff, P.M., & Hoang, T.C., 2018. Microplastic ingestion by
Chew, L.L., Chong, V.C., Tanaka, K., & Sasekumar, A., 2012. Phytoplankton fuel the energy flow from zooplankton to small nekton in turbid mangrove waters. Mar. Ecol. Prog. Ser. 469, 7-24.
Cole, M., Lindeque, P., Fileman, E., Halsband, C., & Galloway, T.S., 2015. The impact of polystyrene microplastics on feeding, function and fecundity in the marine copepod
Cui, R., Kim, S.W., & An, Y.J., 2017. Polystyrene nanoplastics inhibit reproduction and induce abnormal embryonic development in the freshwater crustacean
Dieterich, S., Bieligk, U., Beulich, K., Hasenfuss, G., & Prestle, J., 2000. Gene expression of antioxidative enzymes in the human heart: increased expression of catalase in the end-stage failing heart. Circulation 101(1), 33-39. PMid:10618301.
Ebert, D., 2022.
Eltemsah, Y.S., & Bøhn, T., 2019. Acute and chronic effects of polystyrene microplastics on juvenile and adult
Fahrenfeld, N.L., Arbuckle-Keil, G., Naderi Beni, N., & Bartelt-Hunt, S.L., 2019. Source tracking microplastics in the freshwater environment. TrAC - Trends Analyt. Chem. 112, 248-254.
Figueiredo, G.M., & Vianna, T.M.P., 2018. Suspended microplastics in a highly polluted bay: abundance, size, and availability for mesozooplankton. Mar. Pollut. Bull. 135, 256-265. PMid:30301037.
Free, C.M., Jensen, O.P., Mason, S.A., Eriksen, M., Williamson, N.J., & Boldgiv, B., 2014. High-levels of microplastic pollution in a large, remote, mountain lake. Mar. Pollut. Bull. 85(1), 156-163. PMid:24973278.
Fu, Z., & Wang, J., 2019. Current practices and future perspectives of microplastic pollution in freshwater ecosystems in China. Sci. Total Environ. 691, 697-712. PMid:31325868.
Galgani, F., Oosterbaan, L., Poitou, I., Hanke, G., Thompson, R., Amato, E., Janssen, C., Galgani, F., Fleet, D., Van Franeker, J., Katsanevakis, S., & Maes, T., 2010. Marine strategy framework directive: Task Group 10 Report. Marine Litter. Italy: JRC European Commission, 1-37, Joint Report, no. 31210. http://dx.doi.org/10.2788/86941.
Habig, W.H., Pabst, M.J., & Jakoby, W.B., 1974. Glutathione S transferases. The first enzymatic step in mercapturic acid formation. J. Biol. Chem. 249(22), 7130-7139. PMid:4436300.
Hadwan, M.H., & Abed, H.N., 2015. Data supporting the spectrophotometric method for the estimation of catalase activity. Data Brief 6, 194-199. PMid:26862558.
Hahladakis, J.N., Velis, C.A., Weber, R., Iacovidou, E., & Purnell, P., 2018. An overview of chemical additives present in plastics: Migration, release, fate and environmental impact during their use, disposal and recycling. J. Hazard. Mater. 344, 179-199. PMid:29035713.
Hale, R.C., Seeley, M.E., La Guardia, M.J., Mai, L., & Zeng, E.Y., 2020. A global perspective on microplastics. J. Geophys. Res. Oceans 125(1),
Heindler, F.M., Alajmi, F., Huerlimann, R., Zeng, C., Newman, S.J., Vamvounis, G., & van Herwerden, L., 2017. Toxic effects of polyethylene terephthalate microparticles and Di(2-ethylhexyl)phthalate on the calanoid copepod,
Heskett, M., Takada, H., Yamashita, R., Yuyama, M., Ito, M., Geok, Y.B., Ogata, Y., Kwan, C., Heckhausen, A., Taylor, H., Powell, T., Morishige, C., Young, D., Patterson, H., Robertson, B., Bailey, E., & Mermoz, J., 2012. Measurement of persistent organic pollutants (POPs) in plastic resin pellets from remote islands: toward establishment of background concentrations for International Pellet Watch. Mar. Pollut. Bull. 64(2), 445-448. PMid:22137935.
Jaikumar, G., Baas, J., Brun, N.R., Vijver, M.G., & Bosker, T., 2018. Acute sensitivity of three Cladoceran species to different types of microplastics in combination with thermal stress. Environ. Pollut. 239, 733-740. PMid:29723823.
Jemec, A., Horvat, P., Kunej, U., Bele, M., & Kržan, A., 2016. Uptake and effects of microplastic textile fibers on freshwater crustacean
Jeong, C.B., Kang, H.M., Lee, M.C., Kim, D.H., Han, J., Hwang, D.S., Souissi, S., Lee, S.J., Shin, K.H., Park, H.G., & Lee, J.S., 2017. Adverse effects of microplastics and oxidative stress-induced MAPK/Nrf2 pathway-mediated defense mechanisms in the marine copepod
Jeong, C.B., Won, E.J., Kang, H.M., Lee, M.C., Hwang, D.S., Hwang, U.K., Zhou, B., Souissi, S., Lee, S.J., & Lee, J.S., 2016. Microplastic size-dependent toxicity, oxidative stress induction, and p-JNK and p-p38 activation in the monogonont Rotifer (
Jeong, J., & Choi, J., 2019. Adverse outcome pathways potentially related to hazard identification of microplastics based on toxicity mechanisms. Chemosphere 231, 249-255. PMid:31129406.
Jeyavani, J., Sibiya, A., Gopi, N., Mahboob, S., Al-Ghanim, K.A., Al-Misned, F., Ahmed, Z., Riaz, M.N., Palaniappan, B., Govindarajan, M., & Vaseeharan, B., 2023. Ingestion and impacts of water-borne polypropylene microplastics on
Jones-Williams, K., Galloway, T., Cole, M., Stowasser, G., Waluda, C., & Manno, C., 2020. Close encounters - microplastic availability to pelagic amphipods in sub-antarctic and antarctic surface waters. Environ. Int., 140, 105792.
Khatmullina, L., & Isachenko, I., 2017. Settling velocity of microplastic particles of regular shapes. Mar. Pollut. Bull. 114(2), 871-880. PMid:27863879.
Kokalj, A.J., Kunej, U., & Skalar, T., 2018. Screening study of four environmentally relevant microplastic pollutants: Uptake and effects on
Kosore, C., Ojwang, L., Maghanga, J., Kamau, J., Kimeli, A., Omukoto, J., Ngisiag’e, N., Mwaluma, J., Ong’ada, H., Magori, C., & Ndirui, E., 2018. Occurrence and ingestion of microplastics by zooplankton in Kenya’s marine environment: first documented evidence. Afr. J. Mar. Sci. 40(3), 225-234.
Li, B., Wang, Z.W., Lin, Q.B., & Hu, C.Y., 2016. Study of the migration of stabilizer and plasticizer from polyethylene terephthalate into food simulants. J. Chromatogr. Sci. 54(6), 939-951. PMid:26941413.
Liu, Z., Huang, Y., Jiao, Y., Chen, Q., Wu, D., Yu, P., Li, Y., Cai, M., & Zhao, Y., 2020. Polystyrene nanoplastic induces ROS production and affects the MAPK-HIF-1/NFkB-mediated antioxidant system in
Ma, H., Pu, S., Liu, S., Bai, Y., Mandal, S., & Xing, B., 2020. Microplastics in aquatic environments: toxicity to trigger ecological consequences. Environ. Pollut. 261, 114089. PMid:32062100.
Maar, M., Nielsen, T.G., Gooding, S., Tönnesson, K., Tiselius, P., Zervoudaki, S., Christou, E., Sell, A., & Richardson, K., 2004. Trophodynamic function of copepods, appendicularians and protozooplankton in the late summer zooplankton community in the Skagerrak. Mar. Biol. 144(5), 917-933.
Materić, D., Holzinger, R., & Niemann, H., 2022. Nanoplastics and ultrafine microplastic in the Dutch Wadden Sea – The hidden plastics debris? Sci. Total Environ. 846, 157371. PMid:35863583.
Ogonowski, M., Schür, C., Jarsén, Å., & Gorokhova, E., 2016. The effects of natural and anthropogenic microparticles on individual fitness in
Organisation for Economic Co-operation and Development – OECD, 2012. Test No. 211:
Parolini, M., De Felice, B., Gazzotti, S., Annunziata, L., Sugni, M., Bacchetta, R., & Ortenzi, M.A., 2020. Oxidative stress-related effects induced by micronized polyethylene terephthalate microparticles in the Manila clam. J. Toxicol. Environ. Health A 83(4), 168-179. PMid:32141411.
Peeken, I., Primpke, S., Beyer, B., Gütermann, J., Katlein, C., Krumpen, T., Bergmann, M., Hehemann, L., & Gerdts, G., 2018. Arctic sea ice is an important temporal sink and means of transport for microplastic. Nat. Commun. 9(1), 1505. PMid:29692405.
Piccardo, M., Provenza, F., Grazioli, E., Cavallo, A., Terlizzi, A., & Renzi, M., 2020. PET microplastics toxicity on marine key species is influenced by pH, particle size and food variations. Sci. Total Environ. 715, 136947. PMid:32014774.
Plastics Europe. (2019). Plastics - The Facts 2019. Retrieved in 2021, July 19, from
Provenza, F., Piccardo, M., Terlizzi, A., & Renzi, M., 2020. Exposure to pet-made microplastics: particle size and pH effects on biomolecular responses in mussels. Mar. Pollut. Bull., 156, 111228.
Tang, J., Wang, X., Yin, J., Han, Y., Yang, J., Lu, X., Xie, T., Akbar, S., Lyu, K., & Yang, Z., 2019. Molecular characterization of thioredoxin reductase in waterflea
Vaz, V.P., Nogueira, D.J., Vicentini, D.S., & Matias, W.G., 2021. Can the sonication of polystyrene nanoparticles alter the acute toxicity and swimming behavior results for
Wagner, M., Scherer, C., Alvarez-Muñoz, D., Brennholt, N., Bourrain, X., Buchinger, S., Fries, E., Grosbois, C., Klasmeier, J., Marti, T., Rodriguez-Mozaz, S., Urbatzka, R., Vethaak, A.D., Winther-Nielsen, M., & Reifferscheid, G., 2014. Microplastics in freshwater ecosystems: what we know and what we need to know. Environ. Sci. Eur. 26(1), 12. PMid:28936382.
Weber, A., Scherer, C., Brennholt, N., Reifferscheid, G., & Wagner, M., 2018. PET microplastics do not negatively affect the survival, development, metabolism and feeding activity of the freshwater invertebrate
Weston, J. N. J., Carrillo-barragan, P., Linley, T. D., William, D. K., & Jamieson, A. J. (2020). New species of
Wright, S.L., Thompson, R.C., & Galloway, T.S., 2013. The physical impacts of microplastics on marine organisms: a review. Environ. Pollut. 178, 483-492. PMid:23545014.
Wu, D., Wang, T., Wang, J., Jiang, L., Yin, Y., & Guo, H., 2021. Size-dependent toxic effects of polystyrene microplastic exposure on
Wu, P., Huang, J., Zheng, Y., Yang, Y., Zhang, Y., He, F., Chen, H., Quan, G., Yan, J., Li, T., & Gao, B., 2019. Environmental occurrences, fate, and impacts of microplastics. Ecotoxicol. Environ. Saf. 184, 109612. PMid:31476450.
Xu, E.G., Cheong, R.S., Liu, L., Hernandez, L.M., Azimzada, A., Bayen, S., & Tufenkji, N., 2020. Primary and secondary plastic particles exhibit limited acute toxicity but chronic effects on
Yang, C.Z., Yaniger, S.I., Jordan, V.C., Klein, D.J., & Bittner, G.D., 2011. Most plastic products release estrogenic chemicals: a potential health problem that can be solved. Environ. Health Perspect. 119(7), 989-996. PMid:21367689.
Zhang, C., Pan, Z., Wang, S., Xu, G., & Zou, J., 2022. Size and concentration effects of microplastics on digestion and immunity of hybrid snakehead in developmental stages. Aquacult. Rep. 22, 100974.
Ziajahromi, S., Kumar, A., Neale, P.A., & Leusch, F.D.L., 2017. Impact of microplastic beads and fibers on waterflea (
Zimmermann, L., Dierkes, G., Ternes, T.A., Völker, C., & Wagner, M., 2019. Benchmarking the
Submetido em:
08/06/2022
Aceito em:
13/03/2023
Publicado em:
10/04/2023