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Su Ortamından Mikroplastik Giderimine Genel Bakış

Yıl 2021, Sayı: 28, 1404 - 1409, 30.11.2021
https://doi.org/10.31590/ejosat.1015586

Öz

Plastik ürünler dünya çapında çoğu toplum tarafından kullanılmaktadır ve bunların üretimi, ilk ticari gelişmelerinden bu yana önemli ölçüde artmıştır. 5 mm'den küçük partiküller mikroplastik olarak tanımlanır. Son yılların en önemli kirleticisi haline gelen mikroplastikler, ekosistemin tüm kompartımanlarında ciddi birikim ve tehlikeye neden olmaktadır. Bu çalışma ile mikroplastiklerin yapısı ve bugüne kadar su ortamından giderimi üzerine yapılmış çalışmaların sonuçları ve karşılaştırılması yapılmıştır.

Kaynakça

  • Zhang K, Shi H, Peng J, Wang Y, Xiong X, Wu C, Lam PK (2018) Microplastic pollution in China’s inland water systems: a review of findings, methods, characteristics, effects, and management. Sci Total Environ 630:1641–1653.
  • Van Cauwenberghe L, Vanreusel A, Mees J, Janssen CR (2013) Micro- plastic pollution in deep-sea sediments. Environ Pollut 182:495–499.
  • Faure F, Demars C, Wieser O, Kunz M, De Alencastro LF (2015) Plastic pollution in Swiss surface waters: nature and concentrations,interaction with pollutants. Environ Chem 12(5):582–591
  • Law KL, Morét-Ferguson SE, Goodwin DS, Zettler ER, DeForce E, Kukulka T, Proskurowski G (2014) Distribution of surface plastic debris in the eastern Pacific Ocean from an 11-year data set Environ Sci Technol 48(9):4732–4738.
  • Sun J, Dai X, Wang Q, van Loosdrecht MC, Ni B-J (2019) Microplastics in wastewater treatment plants: detection, occurrence and removal. Water Res 152:21–37
  • Galgani F, Hanke G, Werner S, De Vrees L (2013) Marine litter within the European marine strategy framework directive. ICES J Mar Sci 70(6):1055–1064.
  • Güler Ç., Çobanoglu Z. PLASTİKLER. TC.Sağlık Bakanlığı, Ankara 1997
  • Liu P, Qian L, Wang H, Zhan X, Lu K, Gu C, Gao S (2019) New insights into the aging behavior of microplastics accelerated by advanced oxidation processes. Environ Sci Technol 53:3579– 3588.
  • Jiang J-Q (2018) Occurrence of microplastics and its pollution in the environment: a review. Sustain Prod Consum 13:16–23.
  • Thompson RC, Olsen Y, Mitchell RP, Davis A, Rowland SJ, John AW, McGonigle D, Russell AE (2004) Lost at sea: where is all the plastic Science 304(5672):838
  • Anbumani, S.ve Kakkar, P. (2018). Ecotoxicological effects of microplastics on biota: a review, Environmental Science and Pollutution Research, 25(15), 14373-14396.
  • Browne MA, Crump P, Niven SJ, Teuten E, Tonkin A, Galloway T, Thompson R (2011) Accumulation of microplastic on shorelines worldwide: sources and sinks. Environ Sci Technol 45(21):9175– 9179.
  • Long Z, Pan Z, Wang W, Ren J, Yu X, Lin L, Lin H, Chen H, Jin X (2019) Microplastic abundance, characteristics, and removal in wastewater treatment plants in a coastal city of China. Water Res 155:255–265.
  • Beljanski A (2016) Efficiency and effectiveness of a low-cost, self- cleaning microplastic filtering system for wastewater treatment plants. 2016 NCUR
  • Carr SA, Liu J, Tesoro AG (2016) Transport and fate of microplastic particles in wastewater treatment plants. Water Res 91:174–182.
  • Horton AA, Svendsen C, Williams RJ, Spurgeon DJ, Lahive E (2017) Large microplastic particles in sediments of tributaries of the River Thames, UK–Abundance, sources and methods for effective quantification. Mar Pollut Bull 114(1):218–226.
  • Nizzetto L, Futter M, Langaas S (2016) Are agricultural soils dumps for microplastics of urban origin. Environ Sci Technol 50(20):10777–10779
  • Zubris KAV, Richards BK (2005) Synthetic fibers as an indicator of land application of sludge. Environ Pollut 138(2):201–211.
  • Lwanga EH, Gertsen H, Gooren H, Peters P, Salánki T, van der Ploeg M, Besseling E, Koelmans AA, Geissen V (2017) Incorporation of microplastics from litter into burrows of Lumbricus terrestris. Environ Pollut 220:523–531
  • Corcoran PL, Norris T, Ceccanese T, Walzak MJ, Helm PA, Marvin CH (2015) Hidden plastics of Lake Ontario, Canada and their potential preservation in the sediment record. Environ Pollut 204:17–25.
  • Horton AA, Dixon SJ (2018) Microplastics: an introduction to environmental transport processes. Wiley Interdiscip Rev Water 5(2):1268–1283.
  • Lagarde F, Olivier O, Zanella M, Daniel P, Hiard S, Caruso A (2016) Microplastic interactions with freshwater microalgae: hetero aggregation and changes in plastic density appear strongly dependent on polymer type. Environ Pollut 215:331–339.
  • Rios LM, Moore C, Jones PR (2007) Persistent organic pollutants carried by synthetic polymers in the ocean environment. Mar Pollut Bull 54(8):1230–1237.
  • Sundbæk KB, Koch IDW, Villaro CG, Rasmussen NS, Holdt SL, Hartmann NB (2018) Sorption of fluorescent polystyrene microplastic particles to edible seaweed Fucus vesiculosus. J Appl Phycol 30(5):2923–2927
  • Nolte TM, Hartmann NB, Kleijn JM, Garnæs J, van de Meent D, Hendriks AJ, Baun A (2017) The toxicity of plastic nanopar- ticles to green algae as influenced by surface modification, medium hardness and cellular adsorption. Aquat Toxicol 183:11–20.
  • Li L, Xu G, Yu H, Xing J (2018b) Dynamic membrane for microparticle removal in wastewater treatment: performance and influencing factors. Sci Total Environ 627:332–340.
  • Lares M, Ncibi MC, Sillanpää M, Sillanpää M (2018) Occurrence, identification and removal of microplastic particles and fibers in conventional activated sludge process and advanced MBR technology. Water Res 133:236–246.
  • Talvitie J, Mikola A, Koistinen A, Setälä O (2017a) Solutions to microplastic pollution removal of microplastics from wastewater effluent with advanced wastewater treatment technologies. Water Res 123:401–407
  • Gurung K, Ncibi MC, Fontmorin J-M, Särkkä H, Sillanpää M (2016) Incorporating submerged MBR in conventional activated sludgeprocess for municipal wastewater treatment: a fea
  • Ma B, Xue W, Ding Y, Hu C, Liu H, Qu J (2019) Removal characteristics of microplastics by Fe-based coagulants during drinking water treatment. J Environ Sci 78:267–275.
  • Shirasaki N, Matsushita T, Matsui Y, Marubayashi T (2016) Effect of aluminum hydrolyte species on human enterovirus removal from water during the coagulation process. Chem Eng J 284:786–793
  • Chorghe D, Sari MA, Chellam S (2017) Boron removal from hydraulic fracturing wastewater by aluminum and iron coagulation: mechanisms and limitations. Water Res 126:481–487.
  • Ariza-Tarazona MC, Villarreal-Chiu JF, Barbieri V, Siligardi C, Cedillo-González EI (2019) New strategy for microplastic degradation: green photocatalysis using a protein-based porous N-TiO 2 semiconductor. Ceram Int 45(7):9618–9624.
  • Perren W, Wojtasik A, Cai Q (2018) Removal of microbeads from wastewater using electrocoagulation. ACS Omega 3(3):3357–3364.
  • Akbal F, Camcı S (2011) Copper, chromium and nickel removal from metal plating wastewater by electrocoagulation. Desalination 269(1–3):214–222
  • Brandon J, Goldstein M, Ohman MD (2016) Long-term aging and degradation of microplastic particles: comparing in situ oceanic and experimental weathering patterns. Mar Pollut Bull 110(1):299–308.
  • Ahmed T, Shahid M, Azeem F, Rasul I, Shah AA, Noman M, Hameed A, Manzoor N, Manzoor I, Muhammad S (2018) Biodegradation of plastics: current scenario and future prospects for environmental safety. Environ Sci Pollut Res 25(8):7287–7298.
  • Dawson AL, Kawaguchi S, King CK, Townsend KA, King R, Huston WM, Nash SMB (2018) Turning microplastics into nanoplastics through digestive fragmentation by Antarctic krill. Nat Commun 9(1):1001.
  • Ter Halle A, Ladirat L, Gendre X, Goudounèche D, Pusineri C, Routaboul C, Tenailleau C, Duployer B, Perez E (2016) Understanding the fragmentation pattern of marine plastic debris. EnvironSci Technol 50(11):5668–5675.
  • Cocca M, Di Pace E, Errico ME, Gentile G, Montarsolo A, Mossotti R (2017) Proceedings of the international conference on microplastic pollution in the mediterranean sea. Springer, Berlin
  • Paço A, Duarte K, da Costa JP, Santos PS, Pereira R, Pereira M,Freitas AC, Duarte AC, Rocha-Santos TA (2017) Biodegradation of polyethylene microplastics by the marine fungus Zalerion maritimum. Sci Total Environ 586:10–15.
  • Auta H, Emenike C, Fauziah S (2017) Screening of Bacillus strains isolated from mangrove ecosystems in Peninsular Malaysia for microplastic degradation. Environ Pollut 231:1552–1559.

Overview of Microplastic Removal From the Aquatic Environment

Yıl 2021, Sayı: 28, 1404 - 1409, 30.11.2021
https://doi.org/10.31590/ejosat.1015586

Öz

Plastic products are used by most societies worldwide and their production has increased dramatically since their initial commercial development. Particles smaller than 5 mm are defined as microplastic. Microplastics, which have become the most important pollutant in recent years, cause serious accumulation and danger in all compartments of the ecosystem. In this study, the results and comparisons of the studies on the structure of microplastics and their removal from the aquatic environment until today were made.

Kaynakça

  • Zhang K, Shi H, Peng J, Wang Y, Xiong X, Wu C, Lam PK (2018) Microplastic pollution in China’s inland water systems: a review of findings, methods, characteristics, effects, and management. Sci Total Environ 630:1641–1653.
  • Van Cauwenberghe L, Vanreusel A, Mees J, Janssen CR (2013) Micro- plastic pollution in deep-sea sediments. Environ Pollut 182:495–499.
  • Faure F, Demars C, Wieser O, Kunz M, De Alencastro LF (2015) Plastic pollution in Swiss surface waters: nature and concentrations,interaction with pollutants. Environ Chem 12(5):582–591
  • Law KL, Morét-Ferguson SE, Goodwin DS, Zettler ER, DeForce E, Kukulka T, Proskurowski G (2014) Distribution of surface plastic debris in the eastern Pacific Ocean from an 11-year data set Environ Sci Technol 48(9):4732–4738.
  • Sun J, Dai X, Wang Q, van Loosdrecht MC, Ni B-J (2019) Microplastics in wastewater treatment plants: detection, occurrence and removal. Water Res 152:21–37
  • Galgani F, Hanke G, Werner S, De Vrees L (2013) Marine litter within the European marine strategy framework directive. ICES J Mar Sci 70(6):1055–1064.
  • Güler Ç., Çobanoglu Z. PLASTİKLER. TC.Sağlık Bakanlığı, Ankara 1997
  • Liu P, Qian L, Wang H, Zhan X, Lu K, Gu C, Gao S (2019) New insights into the aging behavior of microplastics accelerated by advanced oxidation processes. Environ Sci Technol 53:3579– 3588.
  • Jiang J-Q (2018) Occurrence of microplastics and its pollution in the environment: a review. Sustain Prod Consum 13:16–23.
  • Thompson RC, Olsen Y, Mitchell RP, Davis A, Rowland SJ, John AW, McGonigle D, Russell AE (2004) Lost at sea: where is all the plastic Science 304(5672):838
  • Anbumani, S.ve Kakkar, P. (2018). Ecotoxicological effects of microplastics on biota: a review, Environmental Science and Pollutution Research, 25(15), 14373-14396.
  • Browne MA, Crump P, Niven SJ, Teuten E, Tonkin A, Galloway T, Thompson R (2011) Accumulation of microplastic on shorelines worldwide: sources and sinks. Environ Sci Technol 45(21):9175– 9179.
  • Long Z, Pan Z, Wang W, Ren J, Yu X, Lin L, Lin H, Chen H, Jin X (2019) Microplastic abundance, characteristics, and removal in wastewater treatment plants in a coastal city of China. Water Res 155:255–265.
  • Beljanski A (2016) Efficiency and effectiveness of a low-cost, self- cleaning microplastic filtering system for wastewater treatment plants. 2016 NCUR
  • Carr SA, Liu J, Tesoro AG (2016) Transport and fate of microplastic particles in wastewater treatment plants. Water Res 91:174–182.
  • Horton AA, Svendsen C, Williams RJ, Spurgeon DJ, Lahive E (2017) Large microplastic particles in sediments of tributaries of the River Thames, UK–Abundance, sources and methods for effective quantification. Mar Pollut Bull 114(1):218–226.
  • Nizzetto L, Futter M, Langaas S (2016) Are agricultural soils dumps for microplastics of urban origin. Environ Sci Technol 50(20):10777–10779
  • Zubris KAV, Richards BK (2005) Synthetic fibers as an indicator of land application of sludge. Environ Pollut 138(2):201–211.
  • Lwanga EH, Gertsen H, Gooren H, Peters P, Salánki T, van der Ploeg M, Besseling E, Koelmans AA, Geissen V (2017) Incorporation of microplastics from litter into burrows of Lumbricus terrestris. Environ Pollut 220:523–531
  • Corcoran PL, Norris T, Ceccanese T, Walzak MJ, Helm PA, Marvin CH (2015) Hidden plastics of Lake Ontario, Canada and their potential preservation in the sediment record. Environ Pollut 204:17–25.
  • Horton AA, Dixon SJ (2018) Microplastics: an introduction to environmental transport processes. Wiley Interdiscip Rev Water 5(2):1268–1283.
  • Lagarde F, Olivier O, Zanella M, Daniel P, Hiard S, Caruso A (2016) Microplastic interactions with freshwater microalgae: hetero aggregation and changes in plastic density appear strongly dependent on polymer type. Environ Pollut 215:331–339.
  • Rios LM, Moore C, Jones PR (2007) Persistent organic pollutants carried by synthetic polymers in the ocean environment. Mar Pollut Bull 54(8):1230–1237.
  • Sundbæk KB, Koch IDW, Villaro CG, Rasmussen NS, Holdt SL, Hartmann NB (2018) Sorption of fluorescent polystyrene microplastic particles to edible seaweed Fucus vesiculosus. J Appl Phycol 30(5):2923–2927
  • Nolte TM, Hartmann NB, Kleijn JM, Garnæs J, van de Meent D, Hendriks AJ, Baun A (2017) The toxicity of plastic nanopar- ticles to green algae as influenced by surface modification, medium hardness and cellular adsorption. Aquat Toxicol 183:11–20.
  • Li L, Xu G, Yu H, Xing J (2018b) Dynamic membrane for microparticle removal in wastewater treatment: performance and influencing factors. Sci Total Environ 627:332–340.
  • Lares M, Ncibi MC, Sillanpää M, Sillanpää M (2018) Occurrence, identification and removal of microplastic particles and fibers in conventional activated sludge process and advanced MBR technology. Water Res 133:236–246.
  • Talvitie J, Mikola A, Koistinen A, Setälä O (2017a) Solutions to microplastic pollution removal of microplastics from wastewater effluent with advanced wastewater treatment technologies. Water Res 123:401–407
  • Gurung K, Ncibi MC, Fontmorin J-M, Särkkä H, Sillanpää M (2016) Incorporating submerged MBR in conventional activated sludgeprocess for municipal wastewater treatment: a fea
  • Ma B, Xue W, Ding Y, Hu C, Liu H, Qu J (2019) Removal characteristics of microplastics by Fe-based coagulants during drinking water treatment. J Environ Sci 78:267–275.
  • Shirasaki N, Matsushita T, Matsui Y, Marubayashi T (2016) Effect of aluminum hydrolyte species on human enterovirus removal from water during the coagulation process. Chem Eng J 284:786–793
  • Chorghe D, Sari MA, Chellam S (2017) Boron removal from hydraulic fracturing wastewater by aluminum and iron coagulation: mechanisms and limitations. Water Res 126:481–487.
  • Ariza-Tarazona MC, Villarreal-Chiu JF, Barbieri V, Siligardi C, Cedillo-González EI (2019) New strategy for microplastic degradation: green photocatalysis using a protein-based porous N-TiO 2 semiconductor. Ceram Int 45(7):9618–9624.
  • Perren W, Wojtasik A, Cai Q (2018) Removal of microbeads from wastewater using electrocoagulation. ACS Omega 3(3):3357–3364.
  • Akbal F, Camcı S (2011) Copper, chromium and nickel removal from metal plating wastewater by electrocoagulation. Desalination 269(1–3):214–222
  • Brandon J, Goldstein M, Ohman MD (2016) Long-term aging and degradation of microplastic particles: comparing in situ oceanic and experimental weathering patterns. Mar Pollut Bull 110(1):299–308.
  • Ahmed T, Shahid M, Azeem F, Rasul I, Shah AA, Noman M, Hameed A, Manzoor N, Manzoor I, Muhammad S (2018) Biodegradation of plastics: current scenario and future prospects for environmental safety. Environ Sci Pollut Res 25(8):7287–7298.
  • Dawson AL, Kawaguchi S, King CK, Townsend KA, King R, Huston WM, Nash SMB (2018) Turning microplastics into nanoplastics through digestive fragmentation by Antarctic krill. Nat Commun 9(1):1001.
  • Ter Halle A, Ladirat L, Gendre X, Goudounèche D, Pusineri C, Routaboul C, Tenailleau C, Duployer B, Perez E (2016) Understanding the fragmentation pattern of marine plastic debris. EnvironSci Technol 50(11):5668–5675.
  • Cocca M, Di Pace E, Errico ME, Gentile G, Montarsolo A, Mossotti R (2017) Proceedings of the international conference on microplastic pollution in the mediterranean sea. Springer, Berlin
  • Paço A, Duarte K, da Costa JP, Santos PS, Pereira R, Pereira M,Freitas AC, Duarte AC, Rocha-Santos TA (2017) Biodegradation of polyethylene microplastics by the marine fungus Zalerion maritimum. Sci Total Environ 586:10–15.
  • Auta H, Emenike C, Fauziah S (2017) Screening of Bacillus strains isolated from mangrove ecosystems in Peninsular Malaysia for microplastic degradation. Environ Pollut 231:1552–1559.
Toplam 42 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Konular Mühendislik
Bölüm Makaleler
Yazarlar

Olcay Gülçiçek Uysal 0000-0001-9032-4241

Yayımlanma Tarihi 30 Kasım 2021
Yayımlandığı Sayı Yıl 2021 Sayı: 28

Kaynak Göster

APA Gülçiçek Uysal, O. (2021). Su Ortamından Mikroplastik Giderimine Genel Bakış. Avrupa Bilim Ve Teknoloji Dergisi(28), 1404-1409. https://doi.org/10.31590/ejosat.1015586