This work is licensed under the Creative Commons Attribution 4.0 International License.
Motew, M., Chen, X., Booth, E. G., Carpenter, S. R., Pinkas, P., Zipper, S. C., ... & Kucharik, C. J. (2017). The influence of legacy P on lake water quality in a midwestern agricultural watershed. Ecosystems, 20, 1468-1482.Search in Google Scholar
Yi, Q., Chen, Q., Hu, L., & Shi, W. (2017). Tracking nitrogen sources, transformation, and transport at a basin scale with complex plain river networks. Environmental science & technology, 51(10), 5396-5403.Search in Google Scholar
Ngatia, L., Grace III, J. M., Moriasi, D., & Taylor, R. (2019). Nitrogen and phosphorus eutrophication in marine ecosystems. Monitoring of marine pollution, 1, 1-17.Search in Google Scholar
Stackpoole, S. M., Stets, E. G., & Sprague, L. A. (2019). Variable impacts of contemporary versus legacy agricultural phosphorus on US river water quality. Proceedings of the National Academy of Sciences, 116(41), 20562-20567.Search in Google Scholar
Wu, T., Qin, B., Brookes, J. D., Yan, W., Ji, X., & Feng, J. (2019). Spatial distribution of sediment nitrogen and phosphorus in Lake Taihu from a hydrodynamics-induced transport perspective. Science of the Total Environment, 650, 1554-1565.Search in Google Scholar
Xia, Y., Zhang, M., Tsang, D. C., Geng, N., Lu, D., Zhu, L., ... & Ok, Y. S. (2020). Recent advances in control technologies for non-point source pollution with nitrogen and phosphorous from agricultural runoff: current practices and future prospects. Applied Biological Chemistry, 63, 1-13.Search in Google Scholar
Beusen, A. H. W., Doelman, J. C., Van Beek, L. P. H., Van Puijenbroek, P. J. T. M., Mogollon, J. M., Van Grinsven, H. J. M., ... & Bouwman, A. F. (2022). Exploring river nitrogen and phosphorus loading and export to global coastal waters in the Shared Socio-economic pathways. Global Environmental Change, 72, 102426.Search in Google Scholar
Macintosh, K. A., Mayer, B. K., McDowell, R. W., Powers, S. M., Baker, L. A., Boyer, T. H., & Rittmann, B. E. (2018). Managing diffuse phosphorus at the source versus at the sink. Environmental Science & Technology, 52(21), 11995-12009.Search in Google Scholar
Yang, Y., Gao, B., Hao, H., Zhou, H., & Lu, J. (2017). Nitrogen and phosphorus in sediments in China: A national-scale assessment and review. Science of the Total Environment, 576, 840-849.Search in Google Scholar
Fan, J., Zou, L., Duan, T., Qin, L., Qi, Z., & Sun, J. (2022). Occurrence and distribution of microplastics in surface water and sediments in China’s inland water systems: a critical review. Journal of Cleaner Production, 331, 129968.Search in Google Scholar
Shen, M., Song, B., Zhu, Y., Zeng, G., Zhang, Y., Yang, Y., ... & Yi, H. (2020). Removal of microplastics via drinking water treatment: Current knowledge and future directions. Chemosphere, 251, 126612.Search in Google Scholar
Chu, X., Zheng, B., Li, Z., Cai, C., Peng, Z., Zhao, P., & Tian, Y. (2022). Occurrence and distribution of microplastics in water supply systems: In water and pipe scales. Science of The Total Environment, 803, 150004.Search in Google Scholar
Li, J., Liu, H., & Chen, J. P. (2018). Microplastics in freshwater systems: A review on occurrence, environmental effects, and methods for microplastics detection. Water research, 137, 362-374.Search in Google Scholar
Rodrigues, M. O., Abrantes, N., Gonçalves, F. J. M., Nogueira, H., Marques, J. C., & Gonçalves, A. M. M. (2018). Spatial and temporal distribution of microplastics in water and sediments of a freshwater system (Antuã River, Portugal). Science of the total environment, 633, 1549-1559.Search in Google Scholar
Kye, H., Kim, J., Ju, S., Lee, J., Lim, C., & Yoon, Y. (2023). Microplastics in water systems: A review of their impacts on the environment and their potential hazards. Heliyon, 9(3).Search in Google Scholar
Bechmann, M., & Stalnacke, P. (2019). Agricultural nitrogen and phosphorus pollution in surface waters. In Oxford research encyclopedia of environmental science.Search in Google Scholar
Hobbie, S. E., Finlay, J. C., Janke, B. D., Nidzgorski, D. A., Millet, D. B., & Baker, L. A. (2017). Contrasting nitrogen and phosphorus budgets in urban watersheds and implications for managing urban water pollution. Proceedings of the National Academy of Sciences, 114(16), 4177-4182.Search in Google Scholar
Sharpley, A. N., & Halvorson, A. D. (2020). The management of soil phosphorus availability and its impact on surface water quality. In Soil processes and water quality (pp. 7-90). CRC Press.Search in Google Scholar
Gao, Y., Zhou, F., Ciais, P., Miao, C., Yang, T., Jia, Y., ... & Yu, G. (2020). Human activities aggravate nitrogen-deposition pollution to inland water over China. National Science Review, 7(2), 430-440.Search in Google Scholar
Maberly, S. C., Pitt, J. A., Davies, P. S., & Carvalho, L. (2020). Nitrogen and phosphorus limitation and the management of small productive lakes. Inland Waters, 10(2), 159-172.Search in Google Scholar
Daneshgar, S., Callegari, A., Capodaglio, A. G., & Vaccari, D. (2018). The potential phosphorus crisis: resource conservation and possible escape technologies: a review. Resources, 7(2), 37.Search in Google Scholar
Xia, X., Zhang, S., Li, S., Zhang, L., Wang, G., Zhang, L., ... & Li, Z. (2018). The cycle of nitrogen in river systems: sources, transformation, and flux. Environmental science: Processes & impacts, 20(6), 863-891.Search in Google Scholar
Issac, M. N., & Kandasubramanian, B. (2021). Effect of microplastics in water and aquatic systems. Environmental Science and Pollution Research, 28, 19544-19562.Search in Google Scholar
Cai, Y., Li, C., & Zhao, Y. (2021). A review of the migration and transformation of microplastics in inland water systems. International journal of environmental research and public health, 19(1), 148.Search in Google Scholar
Elkhatib, D., & Oyanedel-Craver, V. (2020). A critical review of extraction and identification methods of microplastics in wastewater and drinking water. Environmental Science & Technology, 54(12), 7037-7049.Search in Google Scholar
Aragaw, T. A. (2021). Microplastic pollution in African countries’ water systems: a review on findings, applied methods, characteristics, impacts, and managements. SN Applied Sciences, 3(6), 629.Search in Google Scholar
Gupta, D. K., Choudhary, D., Vishwakarma, A., Mudgal, M., Srivastava, A. K., & Singh, A. (2023). Microplastics in freshwater environment: occurrence, analysis, impact, control measures and challenges. International Journal of Environmental Science and Technology, 20(6), 6865-6896.Search in Google Scholar
Changyuan Wang,Xin Liu,Qianqian Ma,Shuyu Xing,Lubin Yuan & Yan Ma. (2024). Distribution and effects of microplastics as carriers of heavy metals in river surface sediments. Journal of Contaminant Hydrology104396-104396.Search in Google Scholar
Peng Zhao,Xiaodan Wang,Hongyou Jiang,Bin Zhang,Liang Chen,Jianmin Zhao... & Qing Wang. (2024). Vertical distribution of microplastics in sediment columns along the coastline of China. The Science of the total environment174685.Search in Google Scholar
Haesung Lee,Jungyeon Kim,Ayoung Choi,Gwangmin Kim,Sanghyeon Kim,Bineyam Mezgebe... & Changseok Han. (2024). Establishing freshwater sediment sample pretreatment methods for monitoring microplastics and its challenges. Chemical Engineering Journal152059-.Search in Google Scholar
Ermolin M. S. (2024). Assessment of the Microplastics Content in Natural Waters and Sediments: Sampling and Sample Preparation. Journal of Analytical Chemistry(5),500-519.Search in Google Scholar
