Spatiotemporal distribution and multi-source characteristics of microplastics in the soil and water environment of Poyang Lake Wetland, China

doi:10.13287/j.1001-9332.202210.034

Abstract

Abstract: The increasing microplastics (MPs) pollution in freshwater wetlands has received global concerns. To investigate the spatiotemporal dynamics of MPs in the wetlands of Poyang Lake, surface water and sediment samples were collected from five rivers entering the lake as well as the confluence of Poyang Lake into the Yangtze River, in both dry and wet seasons. The MPs in water and sediment were extracted by the digestion-filtration method and flotation-separation-digestion-filtration method, respectively. Light microscope, Fourier transform infrared spectroscopy, and scanning electron microscope were used for microplastic characterization. The results showed that the abundance of MPs ranged from 32.1 to 127.3 n·L^-1 in water samples, and from 533.3 to 1286.6 n·kg^-1 in sediment samples during the wet season. In the dry season, the abundance of MPs ranged from 87.1 to 295.5 n·L^-1 in water and from 460.0 to 1368.0 n·kg^-1 in sediment. Compared with other freshwater wetlands, Poyang Lake had higher abundance of MPs. There were temporal and spatial differences among regions. The main forms of MPs included beads, fragment, film and fiber, and the corresponding polymer components were mainly polystyrene, polypropy-lene and polyethylene. Beads (35.7% in wet season and 52.0% in dry season) were the main form of MPs in water, while fragment (45.8% in wet season and 69.7% in dry season) was the main form of MPs in sediment. Small size (<0.1 mm) MPs were dominant (>50%) in water and sediment in both seasons. The abundance of MPs with different sizes decreased with the increases of size. The potential main sources of MPs in the wetlands of Poyang Lake included the discharge of industrial wastewater, discharge from urban and rural domestic sewage treatment plants, agricultural and fishing activities, and improper disposal of domestic wastes.

Key words: Poyang Lake, water body, sediment, microplastics (MPs), spatiotemporal dynamic, source

LI Wen-gang, JIAN Min-fei, NIE Jia-min, WU Xi-en, YANG Wen-jing, LIU Shu-li, WU Yu-bing, CHU Zhong-ren. Spatiotemporal distribution and multi-source characteristics of microplastics in the soil and water environment of Poyang Lake Wetland, China[J]. Chinese Journal of Applied Ecology, 2022, 33(10): 2862-2870.

References

[1] Claessens M, Meester SD, Landuyt LV, et al. Occurrence and distribution of microplastics in marine sediments along the Belgian coast. Marine Pollution Bulletin, 2011, 62: 2199-2204
[2] Biginagwa FJ, Mayoma BS, Shashoua Y, et al. First evidence of microplastics in the African Great Lakes: Recovery from Lake Victoria Nile perch and Nile tilapia. Journal of Great Lakes Research, 2015, 42: 146-149
[3] Lusher AL, Mchugh M, Thompson RC. Occurrence of microplastics in the gastrointestinal tract of pelagic and demersal fish from the English Channel. Marine Pollution Bulletin, 2013, 67: 94-99
[4] 薛银浩, 刘卓苗, 王昊, 等. 海洋酸化对微藻关键生理过程的调控机制及环境因素的影响. 应用生态学报, 2021, 32(7): 2633-2643
[5] 惠进, 龙遥跃, 李紫莹, 等. 微塑料污染对浮游生物影响研究进展. 应用生态学报, 2020, 31(11): 3969-3978
[6] Waring RH, Harris RM, Mitchell SC. Plastic contamination of the food chain: A threat to human health. Maturitas, 2018, 115: 64-68
[7] Zhang L, Xie Y, Zhong S, et al. Microplastics in freshwater and wild fishes from Lijiang River in Guangxi, Southwest China. Science of the Total Environment, 2020, 755: 142428
[8] Chen FH, Fu BJ, Xia J, et al. Major advances in stu-dies of the physical geography and living environment of China during the past 70 years and future prospects. Science China Earth Sciences, 2019, 62: 1665-1701
[9] Yaranal NA, Subbiah S, Mohanty K. Distribution and characterization of microplastics in beach sediments from Karnataka (India) coastal environments. Marine Pollution Bulletin, 2021, 169: 112550
[10] Kukulka T, Proskurowski G, Morét-Ferguson S, et al. The effect of wind mixing on the vertical distribution of buoyant plastic debris. Geophysical Research Letters, 2012, 39: 601-606
[11] Aragaw TA. Microplastic pollution in African countries' water systems: A review on findings, applied methods, characteristics, impacts, and managements. SN Applied Sciences, 2021, 3: 1-30
[12] 谢花林, 姚干, 何亚芬, 等. 基于GIS的关键性生态空间辨识——以鄱阳湖生态经济区为例. 生态学报, 2018, 38(16): 5926-5937
[13] 陈炼钢, 陈黎明, 徐祎凡, 等. 基于越冬水鸟生境模拟的拟建鄱阳湖水利枢纽生态控制水位探讨. 湖泊科学, 2020, 32(5): 1519-1528
[14] Jia HB, Ji HC, Yu JF, et al. Spatial and temporal varia-tions in coastline morphology along Ganjiang-Poyang Lake: Sediment supply as a cause of variability. Environmental Earth Sciences, 2019, 78: 1-12
[15] 周隆胤, 简敏菲, 余厚平, 等. 乐安河-鄱阳湖段底泥微塑料的分布特征及其来源. 土壤学报, 2018, 55(5): 1222-1232
[16] 曹宇贤, 徐力刚, 范宏翔, 等. 1960年以来气候变化与人类活动对鄱阳湖流域生态径流改变的影响. 湖泊科学, 2022, 34(1): 232-246
[17] 叶许春, 吴娟, 李相虎. 鄱阳湖水位变化的复合驱动机制. 地理科学, 2022, 42(2): 352-361
[18] Jiang X, Wang JS, Liu XG, et al. Landsat observations of two decades of wetland changes in the estuary of Po-yang Lake during 2000-2019. Water, 2022, 14: 8
[19] Hidalgo RV, Gutow L, Thompson RC, et al. Microplastics in the marine environment: A review of the methods used for identification and quantification. Environmental Science & Technology, 2012, 46: 3060-3075
[20] 尹诗琪, 贾芳丽, 刘筱因, 等. 青岛近岸表层海水和潮滩沉积物中微塑料的分布及其影响因素. 环境科学学报, 2021, 41(4): 1410-1418
[21] Jian MF, Zhang Y, Yang WJ, et al. Occurrence and distribution of microplastics in China's largest freshwater lake system. Chemosphere, 2020, 261: 128186
[22] Nuelle MT, Dekiff JH, Remy D, et al. A new analytical approach for monitoring microplastics in marine sediments. Environmental Pollution, 2014, 184: 161-169
[23] 周倩, 章海波, 周阳, 等. 滨海潮滩土壤中微塑料的分离及其表面微观特征. 科学通报, 2016, 61(14): 1604-1611
[24] 周倩, 章海波, 李远, 等. 海岸环境中微塑料污染及其生态效应研究进展. 科学通报, 2015, 60(33): 3210-3220
[25] Park TJ, Lee SH, Lee MS, et al. Occurrence of microplastics in the Han River and riverine fish in South Korea. Science of the Total Environment, 2020, 708: 134535
[26] Zhang Q, Liu T, Liu L, et al. Distribution and sedimentation of microplastics in Taihu Lake. Science of the Total Environment, 2021, 795: 148745
[27] 李文华, 简敏菲, 刘淑丽, 等. 鄱阳湖湖口-长江段沉积物中微塑料与重金属污染物的赋存关系. 环境科学, 2020, 41(1): 242-252
[28] Karaolu K, Gül S. Characterization of microplastic pollution in tadpoles living in small water-bodies from Rize, the northeast of Turkey. Chemosphere, 2020, 255: 126915
[29] He B, Goonetilleke A, Ayoko GA, et al. Abundance, distribution patterns, and identification of microplastics in Brisbane River sediments, Australia. Science of the Total Environment, 2020, 700: 134467
[30] Wang W, Yuan W, Chen Y, et al. Microplastics in surface waters of Dongting Lake and Hong Lake, China. Science of the Total Environment, 2018, 633: 539-545
[31] Yin L, Wen X, Du C, et al. Comparison of the abundance of microplastics between rural and urban areas: A case study from East Dongting Lake. Chemosphere, 2019, 244: 125486
[32] Di MX, Wang J. Microplastics in surface waters and sediments of the Three Gorges Reservoir, China. Science of the Total Environment, 2017, 616: 1620-1627
[33] 余厚平, 廖远鑫, 简敏菲, 等. 鄱阳湖五河流域入湖口沉积物中微塑料的赋存特征. 环境化学, 2019, 38(8): 1842-1849
[34] Dris R, Gasperi J, Rocher V, et al. Synthetic and non-synthetic anthropogenic ﬁbers in a river under the impact of Paris Megacity: Sampling methodological aspects and flux estimations. Science of the Total Environment, 2018, 618: 157-164
[35] Di M, Liu X, Wang W, et al. Manuscript prepared for submission to environmental toxicology and pharmacology pollution in drinking water source areas: Microplastics in the Danjiangkou Reservoir, China. Environmental Toxicology and Pharmacology, 2019, 65: 82-89
[36] 潘雄, 林莉, 张胜, 等. 丹江口水库及其入库支流水体中微塑料组成与分布特征. 环境科学, 2021, 42(3): 1372-1379
[37] 孙芳蒂, 马荣华. 鄱阳湖水文特征动态变化遥感监测. 地理学报, 2020, 75(3): 544-557
[38] 刘淑丽, 简敏菲, 周隆胤, 等. 鄱阳湖-赣江各支入湖段沉积物中微塑料分布及其组成特征. 土壤学报, 2020, 57(4): 908-916
[39] Barrows APW, Christiansen KS, Bode ET, et al. A watershed-scale, citizen science approach to quantifying microplastic concentration in a mixed land-use river. Water Research, 2018, 147: 382-392
[40] Hendrickson E, Minor EC, Schreiner K. Microplastic abundance and composition in western lake superior as determined via microscopy, Pyr-GC/MS, and FTIR. Environmental Science & Technology, 2018, 52: 1787-1796
[41] Browne MA, Galloway TS, Thompson RC. Spatial patterns of plastic debris along estuarine shorelines. Environmental Science & Technology, 2010, 44: 3404-3409
[42] 温玉玲, 李红波, 张小林, 等. 近30年来鄱阳湖环湖区土地利用与景观格局变化研究. 环境科学学报, 2022, 42(7): 501-510
[43] Huang Y, Liu Q, Jia W, et al. Agricultural plastic mulching as a source of microplastics in the terrestrial environment. Environmental Pollution, 2020, 260: 114096
[44] Yan M, Nie H, Xu K, et al. Microplastic abundance, distribution and composition in the Pearl River along Guangzhou City and Pearl River estuary, China. Chemosphere, 2019, 217: 879-886
[45] Zhao JM, Ran W, Teng J, et al. Microplastic pollution in sediments from the Bohai Sea and the Yellow Sea, China. Science of the Total Environment, 2018, 640-641: 637-645
[46] Mason SA, Garneau D, Sutton R, et al. Microplastic pollution is widely detected in US municipal wastewater treatment plant effluent. Environmental Pollution, 2016, 218: 1045-1054
[47] 刘淑丽, 简敏菲, 周隆胤, 等. 鄱阳湖湿地候鸟栖息地微塑料污染特征. 环境科学, 2019, 40(6): 2639-2646
[48] Provencher JF, Vermaire JC, Avery GS, et al. Garbage in guano? Microplastic debris found in faecal precursors of seabirds known to ingest plastics. Science of the Total Environment, 2018, 644: 1477-1484
[49] Tsang YY, Mak CW, Liebich C, et al. Microplastic pollution in the marine waters and sediments of Hong Kong. Marine Pollution Bulletin, 2016, 115: 20-28
[50] Fendall LS, Sewell MA. Contributing to marine pollution by washing your face: Microplastics in facial cleansers. Marine Pollution Bulletin, 2009, 58: 1225-1228
[51] 刘聚涛, 钟家有, 付敏, 等. 鄱阳湖流域农村生活区面源污染特征及其影响. 长江流域资源与环境, 2014, 23(7): 1012-1018
[52] Osorio E, Tanchuling M, Diola M. Microplastics occurrence in surface waters and sediments in five river mouths of Manila Bay. Frontiers in Environmental Science, 2021, 9: 719274
[53] 周倩, 涂晨, 张晨捷, 等. 滨海湿地环境中微塑料表面性质及形貌变化. 科学通报, 2021, 66(13): 1580-1591
[54] Wang J, Peng J, Tan Z, et al. Microplastics in the surface sediments from the Beijiang River littoral zone: Composition, abundance, surface textures and interaction with heavy metals. Chemosphere, 2016, 171: 248-258
[55] Vianello A, Boldrin A, Guerriero P, et al. Microplastic particles in sediments of Lagoon of Venice, Italy: First observations on occurrence, spatial patterns and identification. Estuarine, Coastal and Shelf Science, 2013, 130: 54-61
[56] Yu L, Zhang JD, Liu Y, et al. Distribution characteristics of microplastics in agricultural soils from the largest vegetable production base in China. Science of the Total Environment, 2021, 756: 143860
[57] Ali MU, Lin SY, Yousaf B, et al. Environmental emission, fate and transformation of microplastics in biotic and abiotic compartments: Global status, recent advances and future perspectives. Science of the Total Environment, 2021, 791: 148422