[1] Cai YJ, Zhang M, Xu J, Jani H. Geographical gradients in the biodiversity of Chinese freshwater molluscs: Implications for conservation. Diversity and Distributions, 2018, 24(4): 485-496.
[2] Cai YJ, Xu J, Zhang M, Wang JJ Jani H. Different roles for geography, energy and environment in determining three facets of freshwater molluscan beta diversity at broad spatial scales. Science of the Total Environment, 2019, 659: 451-462.
[3] Cai YJ, Zhang Y, Hu ZX, Deng JM, Qin BQ, Yin HB, Wang XL, Gong ZJ, Jani H. Metacommunity ecology meets bioassessment: Assessing spatio-temporal variation in multiple facets of macroinvertebrate diversity in human-influenced large lakes. Ecological Indicators, 2019, 103: 713-721.
[4] Cai YJ, Xu H, Annika V, Kimmo T. T., Tang XM, Qin BQ, Gong ZJ, Jani H. Relative roles of spatial processes, natural factors and anthropogenic stressors in structuring a lake macroinvertebrate metacommunity. Science of the Total Environment, 2017, 601: 1702-1711.
[5] Cai YJ, Zhang Y, Wu ZS, Chen YW, Xu J, Gong ZJ. Composition, diversity, and environmental correlates of benthic macroinvertebrate communities in the five largest freshwater lakes of China. Hydrobiologia, 2017, 788(1): 85-98.
[6] Cai YJ, Dong R, Kattel G, Zhang Y, Peng K, Gong ZJ. Macroinvertebrate diversity and ecosystem functioning across the eutrophication gradients of the middle and lower reaches of Yangtze River lakes (China). Ecology and Evolution, 2023;13: e9751
[7] Cai YJ, Wei JH, Zhang SY, Wang XL, Zhang ZM, and Gao JF. Spatial Risk Assessment and Source Identi?cation of Heavy Metals in Riverine Sediments of Lake Chaohu Basin, China. Ecosystem Health and Sustainability. 2023; 9: Article 0040
[8] Peng K, Qin BQ, Cai YJ*, Gong ZJ, Erik J. Water column nutrient concentrations are related to excretion by benthic invertebrates in Lake Taihu, China. Environmental Pollution, 2020, 261: 114161.
[9] Zhang Y, Cheng L, Li K, Zhang L, Cai YJ*, Wang XL*, Jani H. Nutrient enrichment homogenizes taxonomic and functional diversity of benthic macroinvertebrate assemblages in shallow lakes. Limnology and Oceanography, 2019, 64(3): 1047-1058.
[10] Li C, Ding SM*, Cai YJ*, Chen MS, Zhong ZL, Fan XF, 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, 119193
[11] Zhang QJ, Xu WB, Peng K, Zou LH, Li Y, Chen Y, Cai YJ*, Gong ZJ. The complete mitochondrial genome of Propsilocerus akamusi (Diptera, Chironomidae). Mitochondrial DNA Part B, 2019, 4(2): 3983-3984.
[12] Zhang Y, Cheng L, Kong M, Li W, Gong ZJ, Zhang L, Wang XL, Cai YJ*, Li KY*. Utility of a macroinvertebrate-based multimetric index in subtropical shallow lakes. Ecological Indicators, 2019, 106: 105527.
[13] Zou W. Kimmo T. T., Zhu GW, Qin BQ, Zhang YL, Cao ZG, Peng K, Cai YJ*, Gong ZJ*. Catastrophic effects of sand mining on macroinvertebrates in a large shallow lake with implications for management. Science of the Total Environment, 2019, 695: 133706.
[14] Wang XL, Xu JY, Wu ZS, Shen YC, Cai YJ*. Effect of annual prescribed burning of wetlands on soil organic carbon fractions: A 5-year study in Poyang, China. Ecological Engineering, 2019, 138: 219-226.
[15] Zhang Y, Cheng L, Katri E. T., Yin HB, Gao JF, Zhang ZM, Li KY, Cai YJ*. Substrate degradation and nutrient enrichment structuring macroinvertebrate assemblages in agriculturally dominated Lake Chaohu Basins, China. Science of the Total environment, 2018, 627: 57-66.
[16] Wang XL, Zhang L, Zhao ZH, Cai YJ*. Heavy metal pollution in reservoirs in the hilly area of southern China: Distribution, source apportionment and health risk assessment. Science of the Total Environment, 2018, 634: 158-169.
[17] Wu ZS*, Wang XL, Chen YW, Cai YJ*, Deng JC. Assessing river water quality using water quality index in Lake Taihu Basin, China. Science of the Total Environment, 2018, 612: 914-922.
[18] Wang XL, Zhang L, Zhao ZH, Cai YJ*. Heavy metal contamination in surface sediments of representative reservoirs in the hilly area of southern China. Environmental Science and Pollution Research, 2017, 24(34): 26574-26585.
[19] 温舒珂, 彭凯, 龚志军, 秦伯强, 蔡永久*. 近40年来太湖梅梁湾底栖动物群落演变特征及驱动因素. 湖泊科学, 2023, 35(2): 599-609.
[20] 黄雪滢, 高鸣远, 王金东, 王明明, 陈思恩, 龚志军, 王腊春, 蔡永久*. 过水性湖泊水质长期演变趋势及驱动因素: 以骆马湖为例. 环境科学, 2023, 44(1): 219-230.
[21] 邹亮华, 邹伟, 张庆吉, 李颖, 龚志军, 张艳杰, 鲁顺保*, 蔡永久*.鄱阳湖大型底栖动物时空演变特征及驱动因素.中国环境科学. 2021,41(6):2881-892.
[22] 李颖, 张祯, 程建华, 邹亮华, 张庆吉, 张敏, 龚志军, 谢世友*, 蔡永久*. 2012-2018年洪泽湖水质时空变化与原因分析. 湖泊科学, 2021, 33(3): 715-726.
[23] 薛庆举, 汤祥明, 龚志军, 高光, 蔡永久*. 典型城市湖泊五里湖底栖动物群落演变特征及其生态修复应用建议. 湖泊科学, 2020, 32(3): 762-771.
[24] 张又, 程龙, 尹洪斌, 高俊峰, 张志明, 蔡永久*. 巢湖流域不同水系大型底栖动物群落结构及影响因素. 湖泊科学, 2017, 29(1): 200-215.
[25] 温玉玲,李红波,张小林,王晓龙,黄琪,蔡永久*. 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(5):1-10.
[26] 蔡永久*, 张祯,唐荣桂,陈业,黄蔚,龚志军. 洪泽湖生态系统健康状况评价和保护. 江苏水利,2020,7:1-7+13.
