Fisheries and Aquatic Sciences

한국수산과학회 (The Korean Society of Fisheries and Aquatic Science)
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Microplastic pollution in two industrial locations of the Karnaphuli River, Bangladesh: insights on abundance, types, and characteristics

  • Shahida Arfine Shimul (Department of Fisheries Resource Management, Faculty of Fisheries, Chattogram Veterinary & Animal Sciences University Chattogram) ;
  • Zannatul Bakeya (Department of Fisheries Resource Management, Faculty of Fisheries, Chattogram Veterinary & Animal Sciences University Chattogram) ;
  • Jannatun Naeem Ananna (Department of Fisheries Resource Management, Faculty of Fisheries, Chattogram Veterinary & Animal Sciences University Chattogram) ;
  • Antar Sarker (Department of Fisheries Resource Management, Faculty of Fisheries, Chattogram Veterinary & Animal Sciences University Chattogram) ;
  • Saifuddin Rana (Department of Fisheries Resource Management, Faculty of Fisheries, Chattogram Veterinary & Animal Sciences University Chattogram) ;
  • Sk. Ahmad Al Nahid (Department of Fisheries Resource Management, Faculty of Fisheries, Chattogram Veterinary & Animal Sciences University Chattogram)
  • 투고 : 2023.07.09
  • 심사 : 2023.09.20
  • 발행 : 2023.12.31
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초록

Microplastic (MP) pollution in aquatic environments is a growing concern worldwide. This study investigated the abundance, types, and attributes of MPs in the surface water at two industrial sites (Avoimitro Ghat and Kalurghat) along the Karnaphuli River in Chattogram, Bangladesh. Sampling was conducted over eight months across three transects encompassing a total area of 500 m at each site. A manta net of 200 ㎛ mesh size was used to sample MPs. The obtained samples were subsequently filtered, enumerated, and characterized using a stereo microscope and imaging software. The mean abundance of MP particles (per km2 ) was found higher in Avoimitro Ghat (94,861 ± 57,126) than in Kalurghat (31,343 ± 23,183). A significant statistical difference (p < 0.05) was observed in the mean abundance of MP particles between the wet and dry seasons. The fragment group of MP exhibited the most abundant category, whereas the pellet category displayed the lowest. MPs with an elongated shape prevailed at both locations throughout all seasons. At Avoimitro Ghat, blue-colored MPs demonstrated the highest mean count, while in Kalurghat, the highest mean count belonged to brown-colored MPs. The size distribution of MPs differed between the two sites, with 1-2 mm MPs being plentiful in both seasons and Avoimitro Ghat, whereas MPs ranging from 500 ㎛ to less than 1 mm were abundant in Kalurghat. Ten (10) polymer types were found from Fourier-transform infrared spectroscopy (FTIR) analysis with high levels of polypropylene atactic in both Avoimitro Ghat (32%) and Kalurghat (17%). The findings provide important insights into MP pollution in the Karnaphuli River, which may aid in developing effective strategies to mitigate the impacts of MP pollution on the aquatic ecosystem and human health.

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참고문헌

  1. Al Nahian S, Rakib MRJ, Kumar R, Haider SMB, Sharma P, Idris AM. Distribution, characteristics, and risk assessments analysis of microplastics in shore sediments and surface water of Moheshkhali channel of Bay of Bengal, Bangladesh. Sci Total Environ. 2023;855:158892. 
  2. Bellasi A, Binda G, Pozzi A, Galafassi S, Volta P, Bettinetti R. Microplastic contamination in freshwater environments: a review, focusing on interactions with sediments and benthic organisms. Environments. 2020;7:30. 
  3. Bhuyan MS. Effects of microplastics on fish and in human health. Front Environ Sci. 2022;10:827289. 
  4. Blettler MCM, Abrial E, Khan FR, Sivri N, Espinola LA. Freshwater plastic pollution: recognizing research biases and identifying knowledge gaps. Water Res. 2018;143:416-24. 
  5. Carpenter EJ, Anderson SJ, Harvey GR, Miklas HP, Peck BB. Polystyrene spherules in coastal waters. Science. 1972;178:749-50. 
  6. Coppock RL, Cole M, Lindeque PK, Queiros AM, Galloway TS. A small-scale, portable method for extracting microplastics from marine sediments. Environ Pollut. 2017;230:829-37. 
  7. Cunningham EM, Rico Seijo N, Altieri KE, Audh RR, Burger JM, Bornman TG, et al. The transport and fate of microplastic fibres in the Antarctic: the role of multiple global processes. Front Mar Sci. 2022;9:1056081. 
  8. de Sa LC, Oliveira M, Ribeiro F, Rocha TL, Futter MN. Studies of the effects of microplastics on aquatic organisms: what do we know and where should we focus our efforts in the future? Sci Total Environ. 2018;645:1029-39. 
  9. Dris R, Imhof H, Sanchez W, Gasperi J, Galgani F, Tassin B, et al. Beyond the ocean: contamination of freshwater ecosystems with (micro-)plastic particles. Environ Chem. 2015;12:539-50. 
  10. Eerkes-Medrano D, Thompson RC, Aldridge DC. Microplastics in freshwater systems: a review of the emerging threats, identification of knowledge gaps and prioritisation of research needs. Water Res. 2015;75:63-82. 
  11. Eo S, Hong SH, Song YK, Han GM, Shim WJ. Spatiotemporal distribution and annual load of microplastics in the Nakdong River, South Korea. Water Res. 2019;160:228-37. 
  12. Fatema K, Rahman T, Islam MJ, Sumon KA, Uddin M, Hasan SJ, et al. Microplastics pollution in the river Karnaphuli: a preliminary study on a tidal confluence river in the southeast coast of Bangladesh. Environ Sci Pollut Res. 2023;30:38853-68. 
  13. Henny C, Rohaningsih D, Suryono T, Santoso AB, Waluyo A. Microplastic pollution in the surface water of Lake Singkarak, Indonesia. IOP Conf Ser Earth Environ Sci. 2022;1118:012050. 
  14. Hossain MB, Banik P, Nur AAU, Rahman T. Abundance and characteristics of microplastics in sediments from the world's longest natural beach, Cox's Bazar, Bangladesh. Mar Pollut Bull. 2021;163:111956. 
  15. Hossain MB, Yu J, Nur AAU, Banik P, Jolly YN, Al-Mamun M, et al. Microplastics in surface water from a mighty subtropical estuary: first observations on occurrence, characterization, and contamination assessment. Environ Res. 2023;226:115594. 
  16. Hossain MJ, AftabUddin S, Akhter F, Nusrat N, Rahaman A, Sikder MNA, et al. Surface water, sediment, and biota: the first multi-compartment analysis of microplastics in the Karnafully river, Bangladesh. Mar Pollut Bull. 2022;180:113820. 
  17. Hossain MS, Islam MS, Chowdhury MAT. Shore based pollution sources of the Karnafully river and the effects of oil-grease on the riverine environment. J Geo-Environ. 2005;5:55-66. 
  18. International Organization for Standardization. ISO 21872-1:2017 water quality - determination of microplastics in water - part 1: guidance for sampling. Geneva: ISO; 2017. 
  19. Islam MS, Islam Z, Hasan MR. Pervasiveness and characteristics of microplastics in surface water and sediment of the Buriganga River, Bangladesh. Chemosphere. 2022;307:135945. 
  20. Issac MN, Kandasubramanian B. Effect of microplastics in water and aquatic systems. Environ Sci Pollut Res. 2021;28:19544-62. 
  21. Jambeck JR, Geyer R, Wilcox C, Siegler TR, Perryman M, Andrady A, et al. Plastic waste inputs from land into the ocean. Science. 2015;347:768-71. 
  22. Laermanns H, Reifferscheid G, Kruse J, Foldi C, Dierkes G, Schaefer D, et al. Microplastic in water and sediments at the confluence of the Elbe and Mulde Rivers in Germany. Front Environ Sci. 2021;9:794895. 
  23. Lee Y, Cho J, Sohn J, Kim C. Health effects of microplastic exposures: current issues and perspectives in South Korea. Yonsei Med J. 2023;64:301-8. 
  24. Leslie HA, Brandsma SH, van Velzen MJM, Vethaak AD. Microplastics en route: field measurements in the Dutch river delta and Amsterdam canals, wastewater treatment plants, North Sea sediments and biota. Environ Int. 2017;101:133-42. 
  25. Li S, Wang Y, Liu L, Lai H, Zeng X, Chen J, et al. Temporal and spatial distribution of microplastics in a coastal region of the Pearl River estuary, China. Water. 2021;13:1618. 
  26. Malla-Pradhan R, Suwunwong T, Phoungthong K, Joshi TP, Pradhan BL. Microplastic pollution in urban Lake Phewa, Nepal: the first report on abundance and composition in surface water of lake in different seasons. Environ Sci Pollut Res. 2022;29:39928-36. 
  27. Masura J, Baker J, Foster G, Arthur C. Laboratory methods for the analysis of microplastics in the marine environment: recommendations for quantifying synthetic particles in waters and sediments. Silver Spring, MD: NOAA Marine Debris Divison. 2015. 
  28. Matjasic T, Mori N, Hostnik I, Bajt O, Virsek MK. Microplastic pollution in small rivers along rural-urban gradients: variations across catchments and between water column and sediments. Sci Total Environ. 2023;858:160043. 
  29. Nawar N, Rahman MM, Chowdhury FN, Marzia S, Ali MM, Akbor MA, et al. Characterization of microplastic pollution in the Pasur river of the Sundarbans ecosystem (Bangladesh) with emphasis on water, sediments, and fish. Sci Total Environ. 2023;868:161704. 
  30. Nor NHM, Obbard JP. Microplastics in Singapore's coastal mangrove ecosystems. Mar Pollut Bull. 2014;79:278-83. 
  31. Prabhu PP, Pan K, Krishnan JN. Microplastics: global occurrence, impact, characteristics and sorting. Front Mar Sci. 2022;9:893641. 
  32. Qi H, Fu D, Wang Z, Gao M, Peng L. Microplastics occurrence and spatial distribution in seawater and sediment of Haikou Bay in the northern South China Sea. Estuar Coast Shelf Sci. 2020;239:106757. 
  33. Rakib MRJ, Hossain MB, Kumar R, Ullah MA, Al Nahian S, Rima NN, et al. Spatial distribution and risk assessments due to the microplastics pollution in sediments of Karnaphuli River Estuary, Bangladesh. Sci Rep. 2022;12:8581. 
  34. Rezania S, Park J, Din MFM, Taib SM, Talaiekhozani A, Yadav KK, et al. Microplastics pollution in different aquatic environments and biota: a review of recent studies. Mar Pollut Bull. 2018;133:191-208. 
  35. Sarker A, Deepo DM, Nandi R, Rana J, Islam S, Rahman S, et al. A review of microplastics pollution in the soil and terrestrial ecosystems: a global and Bangladesh perspective. Sci Total Environ. 2020;733:139296. 
  36. Siddique MAM, Aktar M. Heavy metals in salt marsh sediments of porteresia bed along the Karnafully River coast, Chittagong. Soil Water Res. 2012;7:117-23. 
  37. Song YK, Hong SH, Jang M, Han GM, Jung SW, Shim WJ. Combined effects of UV exposure duration and mechanical abrasion on microplastic fragmentation by polymer type. Environ Sci Technol. 2017;51:4368-76. 
  38. Takarina ND, Purwiyanto AIS, Rasud AA, Arifin AA, Suteja Y. Microplastic abundance and distribution in surface water and sediment collected from the coastal area. Glob J Environ Sci Manag. 2022;8:183-96. 
  39. Talbot R, Granek E, Chang H, Wood R, Brander S. Spatial and temporal variations of microplastic concentrations in Portland's freshwater ecosystems. Sci Total Environ. 2022;833:155143. 
  40. Villegas L, Cabrera M, Capparelli MV. Assessment of microplastic and organophosphate pesticides contamination in fiddler crabs from a Ramsar site in the estuary of Guayas River, Ecuador. Bull Environ Contam Toxicol. 2021;107:20-8. 
  41. Waldschlager K, Schuttrumpf H. Erosion behavior of different microplastic particles in comparison to natural sediments. Environ Sci Technol. 2019;53:13219-27. 
  42. Wardrop P, Shimeta J, Nugegoda D, Morrison PD, Miranda A, Tang M, et al. Chemical pollutants sorbed to ingested microbeads from personal care products accumulate in fish. Environ Sci Technol. 2016;50:4037-44. 
  43. Warrier AK, Kulkarni B, Amrutha K, Jayaram D, Valsan G, Agarwal P. Seasonal variations in the abundance and distribution of microplastic particles in the surface waters of a Southern Indian Lake. Chemosphere. 2022;300:134556. 
  44. Wei Y, Ma W, Xu Q, Sun C, Wang X, Gao F. Microplastic distribution and influence factor analysis of seawater and surface sediments in a typical bay with diverse functional areas: a case study in Xincun Lagoon, China. Front Environ Sci. 2022;10:829942. 
  45. Willis KA, Eriksen R, Wilcox C, Hardesty BD. Microplastic distribution at different sediment depths in an urban estuary. Front Mar Sci. 2017;4:419. 
  46. Wright SL, Thompson RC, Galloway TS. The physical impacts of microplastics on marine organisms: a review. Environ Pollut. 2013;178:483-92. 
  47. Ziccardi LM, Edgington A, Hentz K, Kulacki KJ, Kane Driscoll S. Microplastics as vectors for bioaccumulation of hydrophobic organic chemicals in the marine environment: a state-of-the-science review. Environ Toxicol Chem. 2016;35:1667-76.