تعداد نشریات | 161 |
تعداد شمارهها | 6,532 |
تعداد مقالات | 70,501 |
تعداد مشاهده مقاله | 124,094,822 |
تعداد دریافت فایل اصل مقاله | 97,200,613 |
Distribution Features of Microplastic Particles in the Bolshiye Koty Bay (Lake Baikal, Russia) in Winter | ||
Pollution | ||
دوره 8، شماره 2، تیر 2022، صفحه 435-446 اصل مقاله (829.66 K) | ||
نوع مقاله: Original Research Paper | ||
شناسه دیجیتال (DOI): 10.22059/poll.2021.328762.1159 | ||
نویسندگان | ||
Dmitry Karnaukhov* ؛ Sofya Biritskaya؛ Ekaterina Dolinskaya؛ Maria Teplykh؛ Yana Ermolaeva؛ Victoria Pushnica؛ Lidiya Bukhaeva؛ Iya Kuznetsova؛ Anastasia Okholina؛ Eugene Silow | ||
Institute of Biology, Irkutsk State University, Lenina 3, 664025 Irkutsk, Russia | ||
چکیده | ||
The problem of pollution of aquatic ecosystems with microplastics has been actively studied by the world scientific community. Most of this research has been devoted to marine ecosystems, whereas scant research has been conducted on fresh water bodies. Lake Baikal (Russia) is a unique natural reservoir. Previous studies devoted to the amount of microplastics in the waters of Lake Baikal were carried out singularly and were not of a systemic character; therefore, previously obtained data does not reflect a complete picture of the state of the lake. Within the framework of this study, our goal was to study the composition and morphological structure of microplastic particles in the ice of Lake Baikal at different distances from the coastline. To do this, a number of ice samples were taken from the upper and lower sides at five different points in South Baikal opposite the village of Bolshiye Koty. Later these samples were analyzed for the types of microplastics and their amount. In the samples taken, two types of microplastics were found—fragments and fibers—with fibers being predominant. The median values of the number of microplastics particles are higher in samples taken at the interface between water and ice, compared to samples taken from the ice surface. Presumably, main part of microplastic fibers found opposite the village of Bolshiye Koty were brought in by a constant circular current from the opposite east coast. In turn, the low number of fragments in the samples may be due to the freezing of the coastline. | ||
کلیدواژهها | ||
Lake Baikal؛ microplastics؛ plastic pollution؛ microplastics in ice | ||
مراجع | ||
Akdogan, Z. and Guven, B. (2019, August 5). Microplastics in the environment: A critical review of current understanding and identification of future research needs. Environ. Pollut., 254, Article 113011. Retrieved January 11, 2019, from
Allen, S., Allen, D., Phoenix, V. R., Le Roux, G., Jiménez, P. D., Simonneau, A., Binet, S. and Galop, D. (2019). Atmospheric transport and deposition of microplastics in a remote mountain catchment. Nat. Geosci., 12 (5), 339-344.
Avio, C. G., Gorbi, S. and Regoli, F. (2017). Plastics and microplastics in the oceans: From emerging pollutants to emerged threat. Mar. Environ. Res., 128, 2-11.
Battulga, B., Kawahigashi, M. and Oyuntsetseg, B. (2019). Distribution and composition of plastic debris along the river shore in the Selenga River basin in Mongolia. Environ. Sci. Pollut. Res., 26 (14), 14059-14072.
Biritskaya, S. A., Dolinskaya, E. M., Teplykh, M. A., Ermolaeva, Ya. K., Pushnica, V. A., Bukhaeva, L. B., Kuznetsova, I. V., Okholina, A. I., Karnaukhov, D. Yu. and Silow, E. A. (2020). Water pollution by microplastics over the littoral zone in the southern basin of Lake Baikal. Baikal Zoological Journal, 2 (28), 29-32.
Brahney, J., Hallerud, M., Heim, E., Hahnenberger, M. and Sukumaran, S. (2020). Plastic rain in protected areas of the United States. Science, 368 (6496), 1257-1260.
Carpenter, E. J. and Smith, K. L. (1972). Plastics on the Sargasso Sea surface. Science, 175 (4027), 1240-1241.
Carpenter, E. J., Anderson, S. J., Harvey, G. R., Miklas, H. P. and Peck, B. B. (1972). Polystyrene spherules in coastal waters. Science, 178 (4062), 749-750.
Cedro, A. and Cleary, J. (2015, September). Microplastics in Irish freshwaters: a preliminary study. (Paper presented at the 14th International Conference on Environmental Science and Technology, Rhodes, Greece)
Chubarenko, I., Esiukova, E., Bagaev, A., Isachenko, I., Demchenko, N., Zobkov, M., Efimova, I., Bagaeva, M. and Khatmullina, L. (2018). “Chapter 6. Behaviour of Microplastics in Sea Coastal Zone,” in Microplastic Contamination in Aquatic Environments, 1st Edn., ed E. Zeng (Amsterdam: Elsevier), 175–223.
Courtene-Jones, W., Quinn, B., Gary, S. F., Mogg, A. O.M. and Narayanaswamy, B. E. (2017). Microplastic pollution identified in deep-sea water and ingested by benthic invertebrates in the Rockall Trough, North Atlantic Ocean. Environ. Pollut., 231 (1), 271-280.
Free, C.M., Jensen, O.P., Mason, S.A., Eriksen, M., Williamson, N.J. and Boldgiv, B. (2014). High-levels of microplastic pollution in a large, remote, mountain lake. Mar. Pollut. Bull., 85, 156-163.
Friesen, L. W., Granberg, M. E., Pavlova, O., Magnusson, K., Hassellöv, M. and Gabrielsen, G. W. (2020, January 19). Summer sea ice melt and wastewater are important local sources of microlitter to Svalbard waters. Environ. Int., 139, Article 105511. Retrieved July 31, 2019, from https://www.sciencedirect.com/science/article/pii/S0160412019327369
Geilfus, N.-X., Munson, K. M., Sousa, J., Germanov, Y., Bhugaloo, S., Babb, D. and Wang F. (2019). Distribution and impacts of microplastic incorporation within sea ice. Mar. Pollut. Bull., 145, 463-473.
Il’ina, O. V., Kolobov, M. Y. and Il’inskii V. V. (2021). Plastic pollution of the coastal surface water in the middle and Southern Baikal. Water Resources, 48 (1), 56-64.
Ilyicheva, E. A., Korytny, L. M. and Pavlov, M.V. (2014). River delta channel network Selenga at the present stage. (E. A. Ilyicheva, L. M. Korytny, & M. V. Pavlov, (pp. 190-194) Tomsk State University Bulletin)
Itoh, M., Takemon, Y., Makabe, A., Yoshimizu, C., Kohzu, A., Ohte, N., Tumurskh, D., Tayasu, I., Yoshida, N. and Nagata, T. (2011). Evaluation of wastewater nitrogen transformation in a natural wetland (Ulaanbaatar, Mongolia) using dual-isotope analysis of nitrate. Sci. Total. Environ., 409, 1530-1538.
Kane, I. A. and Clare, M. A. (2019, April 30). Dispersion, Accumulation, and the Ultimate Fate of Microplastics in Deep-Marine Environments: A Review and Future Directions. Front. Earth Sci., 7, Article 80. Retrieved March 2, 2019, from
Karnaukhov, D. Yu., Biritskaya, S. A., Dolinskaya, E. M., Teplykh, M. A., Silenko, N. N., Ermolaeva, Ya. K. and Silow, E. A. (2020). Pollution by macro- and microplastic of large lacustrine ecosystems in Eastern Asia. Poll. Res., 36 (2), 440-442.
Kelly, A., Lannuzel, D., Rodemann, T., Meiners, K. M. and Auman, H. J. (2020, March 30) Microplastic contamination in east Antarctic sea ice. Mar. Pollut. Bull., 154, Article 111130. Retrieved January 25, 2020, from
Klein, S., Worch, E. and Knepper, T. P. (2015). Occurrence and spatial distribution of microplastics in river shore sediments of the Rhine-Main Area in Germany. Environ. Sci. Technol., 49 (10), 6070-6076.
Ma, H., Pu, S., Liu, S., Bai, Y., Mandal, S. and Xing, B. (2020, January 27). Microplastics in aquatic environments: Toxicity to trigger ecological consequences. Environ. Pollut., 261, Article 114089. Retrieved September 18, 2019, from https://pubmed.ncbi.nlm.nih.gov/32062100/
Masura, J., Baker, J., Foster, G., Arthur, C. and Herring, C. (2015). Laboratory Methods for the Analysis of Microplastics in the Marine Environment. NOAA Technical Memorandum NOS-OR&R-48.
Mechanikova, I. V., Poberezhnaya, A. E. and Sitnikova, T.Ya. (2009). About freezing of littoral invertebrates into the ice of Lake Baikal. Zoological journal, 88(3), 259-262.
Obbard, R.W. (2018). Microplastics in Polar Regions: The role of long range transport. Environ. Sci. Health, 1, 24-29.
Obbard, R. W., Sadri, S., Wong, Y. Q., Khitun, A. A., Baker, I. and Thompson, R. C. (2014). Global warming releases microplastic legacy frozen in Arctic Sea ice. Earth’s Future, 2, 315-320.
Peeken, I., Primpke, S., Beyer, B., Gütermann, J., Katlein, C., Krumpen, T., Bergmann, M., Hehemann, L. and Gerdts, G. (2018, April 24). Arctic sea ice is an important temporal sink and means of transport for microplastic. Nat. Commun, 9, Article 1505. Retrieved May 12, 2017, from https://www.nature.com/articles/s41467-018-03825-5#citeas
Sarah, Y. Au., Bruce, T. F., Bridges, W. C. and Klaine, S. J. (2015). Responses of Hyalella azteca to acute and chronic microplastic exposures. Environ. Toxicol. Chem., 34, 2564-2572.
Scherer, C., Brennholt, N., Reifferscheid, G. and Wagner, M. (2017, December 5). Feeding type and development drive the ingestion of microplastics by freshwater invertebrates. Sci. Rep., 7, Article 170006. Retrieved March 20, 2017, from https://www.nature.com/articles/s41598-017-17191-7
Sokolnikov V. M. (1964). Currents and water exchange in Baikal. (V. M. Sokolnikov. Elements of the hydrometeorological regime of Lake Baikal: Tr. Limnol. Institute of the Siberian Branch of the USSR Academy of Sciences. (pp. 5-21). M., L., Science)
Zhang, H. (2017). Transport of microplastics in coastal seas. Estuar. Coast Shelf Sci., 199, 74-86. | ||
آمار تعداد مشاهده مقاله: 1,129 تعداد دریافت فایل اصل مقاله: 945 |