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时间:2024-11-05浏览:692

1.    Li C., Ma X., Wang Y., Sun Q., Chen M.S., Zhang C.S., Ding S.M.*, Dai Z.H.* Root-mediated acidification, phosphatase activity and the phosphorus-cycling microbial community enhance phosphorus mobilization in the rhizosphere of wetland plants. Water Research, 2024, 255(6):121548.

2.    Wang, Y., Zhu, D.D., Li, C., You, X.H., Zhou, L., Zhang, L., Xiao, J., Chen, M.S., Ding, S.M.*, Hang, X.S.* Cyanobacterial blooms increase the release of vanadium through iron reduction and dissolved organic matter complexation in the sediment of eutrophic lakes. Water Research, 2023, 120377.

3.    Zhong, Z., Li, C., Chen, M., Zhao, H., Fan, X., He, X. and Ding, S.* The Root Tip of Submerged Plants: An Efficient Engine for Carbon Mineralization. Environmental Science & Technology Letters, 2023, 10(4): 385-390.

4.    Li, C., Ding, S.*, Ma, X., Wang, Y., Sun, Q., Zhong, Z., Chen, M. and Fan, X. Sediment arsenic remediation by submerged macrophytes via root-released O2 and microbe-mediated arsenic biotransformation. Journal of Hazardous Materials, 2023, 449.

5.    Li, C., Ding, S.*, Chen, M., Zhong, Z., Sun, Q. and Wang, Y. Visualizing biogeochemical heterogeneity in soils and sediments: A review of advanced micro-scale sampling and imaging methods. Critical Reviews in Environmental Science and Technology, 2023, 53(12): 1229-1253.

6.    Li, C., Ding, S.*, Cai, Y.*, Chen, M., Zhong, Z., Fan, X. and Wang, Y. Decrease in macrofauna density increases the sediment phosphorus release and maintains the high phosphorus level of water column in Lake Taihu: A case study on Grandidierella taihuensis. Water Research, 2022, 225.

7.    Ren, M., Ding, S.*, Dai, Z.*, Wang, J., Li, C., Zhong, Z., Cao, J., Yang, L., Tsang, D.C.W., Xu, S., Yang, C. and Wang, Y. A new DGT technique comprising a hybrid sensor for the simultaneous high resolution 2-D imaging of sulfides, metallic cations, oxyanions and dissolved oxygen. Journal of Hazardous Materials, 2021, 403.

8.    Chen, M., Ding, S.*, Li, C., Tang, Y., Fan, X., Xu, H., Tsang, D.C.W. and Zhang, C. High cadmium pollution from sediments in a eutrophic lake caused by dissolved organic matter complexation and reduction of manganese oxide. Water Research, 2021, 190.

9.    Cao, J., Sun, Q., Zhao, D., Xu, M., Shen, Q., Wang, D., Wang, Y. and Ding, S.* A critical review of the appearance of black-odorous waterbodies in China and treatment methods. Journal of Hazardous Materials, 2020, 385.

10.  Fan, X., Ding, S.*, Chen, M., Gao, S., Fu, Z., Gong, M., Tsang, D.C.W., Wang, Y. and Zhang, C. Peak Chromium Pollution in Summer and Winter Caused by High Mobility of Chromium in Sediment of a Eutrophic Lake: In Situ Evidence from High Spatiotemporal Sampling. Environmental Science & Technology, 2019, 53(9): 4755-4764.