1. Z.M. Jia, T. Liu, X.X. Xia, N. Xia, Effect of particle size and composition of suspended sediment on denitrification in river water, Sci. Total Environ., 541 (2016) 934–940.
  2. F. Couceiro, G.R. Fones, C.E.L. Thompson, P.J. Statham, D.B. Sivyer, R. Parker, B.A. Kelly-Gerreyn, C.L. Amos, Impact of resuspension of cohesive sediments at the Oyster Grounds (North Sea) on nutrient exchange across the sediment–water interface, Biogeochemistry, 113 (2012) 37–52.
  3. O. Tammeorg, J. Horppila, R. Laugaste, M. Haldna, J. Niemistö, Importance of diffusion and resuspension for phosphorus cycling during the growing season in large, shallow Lake Peipsi, Hydrobiologia, 760 (2015) 133–144.
  4. C. Berretta, J. Sansalone, Hydrologic transport and partitioning of phosphorus fractions, J. Hydrol., 403 (2011) 25–36.
  5. T. Martelloni, P. Tomassetti, P. Gennaro, D. Vani, E. Persia, M. Persiano, R. Falchi, S. Porrello, M. Lenzi, Artificial soft sediment resuspension and high density opportunistic macroalgal mat fragmentation as method for increasing sediment zoobenthic assemblage diversity in a eutrophic lagoon, Marine Pollut. Bull., 110 (2016) 212–220.
  6. Q.T. Yi, Q.W. Chen, W.Q. Shi, L. Hu, Sieved transport and redistribution of bioavailable phosphorus from watershed with complex river networks to lake, Environ. Sci. Technol., 51 (2017) 10379–10386.
  7. H.P. Mort, C.P. Slomp, B.G. Gustafsson, T.J. Andersen, Phosphorus recycling and burial in Baltic Sea sediments with contrasting redox conditions, Geochim. Cosmochim. Acta, 74 (2010) 1350–1362.
  8. R. Kasper, H. Jonas, Ø.A. Frede, S.H. Kjeld, S.H. Jensen, Lake restoration by dosing aluminum relative to mobile phosphorus in the sediment, Environ. Sci. Technol., 39 (2005) 4134–4140.
  9. H. Cyr, S.K. Mccabe, G.K. Nürnberg, Phosphorus sorption experiments and the potential for internal phosphorus loading in littoral areas of a stratified lake, Water Res., 43 (2009) 1654–1666.
  10. APHA, AWWA and WPCF, Standard Methods for the Examination of Water and Wastewater, 16th ed., APHA, Washington, D.C., 1998.
  11. R.K. Lu, Chemical analysis methods of agricultural soils. China Agricultural Science Press, Beijing, 1999.
  12. L.H. Zhai, H.L. Liu, H.D. Xu, B.D. Xi, Property of ammonium adsorption on sediments in ditches and adjacent soils, Environ. Sci., 8 (2007) 1770–1773.
  13. X. Jiang, Q.J. Wang, S.H. Wang, X.C. Jin, Y.F. Li, Characteristic analysis of the adsorption/desorption of nitrogen and phosphorus in the sediments of Taihu Lake, Environ. Sci., 32 (2011) 0250–3301.
  14. H.X. Shi, H.J. Liu, J.H. Qu, R.H. Dai, M.H. Wang, Property of adsorption about ammonium on suspended mineral matters in eutrophic water, Environ. Sci., 5 (2005) 72–76.
  15. E.L. Wang, Y.D. Wang, S.Q. Wang, Sorption and desorption of ammonium nitrogen on sediments of different grain sizes in Western Liao River, Res. Environ. Sci., 25 (2012) 1016–1023.
  16. S.B. Den, G. Yu, Environmental Adsorption Materials and Application Principles, Science Press, 9 (2012) 24–25.
  17. State Environmental Protection Administration of China (SEPA), General Administration of Quality Supervision, Inspection and Quarantine (AQSIQ), Environmental Quality Standard for Surface Water (G3838B 2002).
  18. J.H. Zhang, J.L. Liu, J.B. Zhang, Y.N. Cheng, W.P. Wang, Nitratenitrogen dynamics and nitrogen budgets in rice-wheat rotations in Taihu Lake region, China, Pedosphere, 23 (2013) 59–69.
  19. Y. Liu, Q.T. Yi, Q.W. Chen, W. Huang, T. Zhang, The spatial distribution of nitrogen species in surface sediment in the west river networks of the Taihu Lake basin, China, Acta Sci. Circumstantiae, 35 (2015) 3890–3897.
  20. X.X. Xia, Z.M. Jia, T. Liu, S. Zhang, L. Zhang, Coupled nitrification-denitrification caused by suspended sediment (SPS) in rivers: importance of SPS size and composition, Environ. Sci. Technol., 51 (2017) 212–221.
  21. C. Wang, C. Wang, Z. Wang, Effects of submerged macrophytes on sediment suspension and NH4-N release under hydrodynamic conditions, J. Hydrodyn., Ser. B, 22 (2010) 810–815.
  22. X. Yang, P. Xie, Z.M. Ma, Q. Wang, H.H. Fan, H. Shen, Decrease of NH4+-N by bacterioplankton accelerated the removal of cyanobacterial blooms in aerated aquatic ecosystem, J. Environ. Sci., 25 (2013) 2223–2228.
  23. Y.C. Wang, G.J. Wan, R.G. Huang, C.Q. Yin, The distribution characteristics of total nitrogen, exchangeable nitrogen and fixed ammonium in Hongfeng Lake and Baihua Lake, Lake Sci., 4 (2002) 301–309.
  24. L.J. Hou, M. Liu, H.Y. Jiang, S.Y. Xu, D.N. Ou, Isothermal adsorption characteristics of sediments on estuarine, Environ. Chem., 6 (2003) 568–572.
  25. N. Holmboe, E. Kristensen, Ammonium adsorption in sediments of a tropical mangrove staforend a temperate Wadden Sea area, Wetlands Ecol. Manage., 10 (2002) 453–460.
  26. S.R. Wang, H.C. Zhao, J. Wang, S.W. Yang, L.X. Jiao, X.C. Jin, The effects of organic matter on the release kinetics of nitrogen with different forms in the lake sediments, Acta Sci. Circumstantiae, 2 (2012) 332–340.
  27. J.G. Cai, J.L. Xu, S.Y. Yang, Y.J. Bao, L.F. Lu, Difference of particle size classification and concentration of organic matter in muddy sediment, Geol. J. China Univ., 2 (2006) 234–241.
  28. H.Y. Han, Z.K. Li, Effects of macrophyte-associated nitrogen cycling bacteria on ANAMMOX and denitrification in river sediments in the Taihu Lake region of China, Ecol. Eng., 93 (2016) 82–90.