近五年已发表的代表性论著 |
1. Zhang, J.; Liu, X.; Zhang, J.; Zhou, Z.; Yi, Q.* The phosphorus sink–source processes of sediments and mechanisms controlling phosphorus dynamics during cyanobacterial decomposition and growth in shallow lakes. Journal of Soils and Sediments, 2025, 25, 1722–1736. 2. Jia, Q.; Yi, Q.*; Xu, Z.; Liu, X.; Zhou, Z.; Zhang, J. Quantifying the impact of damming on phosphorus reallocation: Finer particles offset the reduction in soluble reactive phosphorus (SRP) by decreasing suspended sediment concentration. Science of the Total Environment, 2024, 949, 175098. 3. Zhang, J.; Pei, Y.; Yi, Q.*; Chen, Y.; Zhang, T.; Shi, W. Particulate and water-mobilizable phosphorus from a watershed with a plain river network contributes equal amounts of algal available phosphorus to its downstream lake. Science of the Total Environment, 2024, 932, 173047. 4. Zhou, Z.; Yan, R., Liu, X.; Xu, Z., Zhang, J. Yi, Q.* Suspended particulate matter <2.5 μm (SPM2.5) in shallow lakes: Sedimentation resistance and bioavailable phosphorus enrichment after sediment resuspension. Science of the Total Environment, 2024, 912, 168780. 5. Chen, Y.; Pei, Y.; Yi, Q.*; Zhang, J.; Jia, Q.; Ding, Y.; Cui, H. Cyanobacterial availability of phosphorus adsorbed onto iron/aluminum (hydr)oxides and its dependence on phosphorus desorption: from particulate sources to pH regulation. Journal of Soils and Sediments, 2024, 24, 425–437. 6. Ding, Y.; Yi, Q.*; Jia, Q.; Zhang, J., Zhou, Z., Liu, X. Quantifying phosphorus levels in water columns equilibrated with sediment particles in shallow lakes: From algae/cyanobacteria–available phosphorus pools to pH response. Science of the Total Environment, 2023, 868, 161694. 7. Wang, C., Yi, Q.*, Wan, K.; Zhang, J. Partitioning pattern of metals onto sediment particles in shallow lakes: an exponential decrease with increased particle size and its environmental implications. Journal of Soils and Sediments, 2023, 483–495. 8. Deng, P., Yi, Q.*, Zhang, J., Wang, C., Chen, Y., Zhang, T., Zhang, T., Shi, W. Phosphorous partitioning in sediments by particle size distribution in shallow lakes: From its mechanisms and patterns to its ecological implications. Science of the Total Environment, 2022, 814, 152753. 9. Zhang, J.; Buyang, S.; Yi, Q.*; Deng, P.; Huang, W.; Chen, C.; Shi, W. Connecting sources, fractions and algal availability of sediment phosphorus in shallow lakes: An approach to the criteria for sediment phosphorus concentrations. Journal of Environmental Sciences, 2023, 125, 798–810. 10. Zhang, J., Wang, K., Yi, Q.*, Zhang, T., Zhang, T., Shi, W., Zhou, X. Transport and partitioning of metals in river networks of a plain area with sedimentary resuspension and implications for downstream lakes. Environmental Pollution, 2022, 294, 118668. 11. Yi Q., Zhang Y., Xie K., Chen Q.*, Zheng F., Tonina D., Shi W., Chen C. Tracking nitrogen pollution sources in plain watersheds by combining high–frequency water quality monitoring with tracing dual nitrate isotopes. Journal of Hydrology, 2020, 581, 124439. 12. Zhang S., Yi Q.*, Buyang S., Cui H., Zhang S. Enrichment of bioavailable phosphorus in fine particles when sediment resuspension hinders the ecological restoration of shallow eutrophic lakes. Science of the Total Environment, 2020, 710, 135672. |
