(1)Yufeng Mao*, Ruixu He, Shengfa Yang, Wenshu Guo, Yue Liang, Weiwei Yu, Bingran Tang, Aoguang Yang, Chenhui Yu, Tong Lin,Hong Li*and Qiang He*. Microplastics in cyanobacterial harmful algal blooms: facilitators of CO2and CH4emission hotspots.Environmental Science & Technology, 2026, https://doi.org/10.1021/acs.est.5c14804. (2)Muhammad Salam, Bingran Tang, Yuxin Sun, Shan Zhao, Lixue Zhang, Xianhuai Yu,Hong Li*. Long-term exposure to biodegradable polylactic acid microplastics promotesMicrocystis aeruginosaproliferation.Water Research, 2026, 291:125223. (3)Yufeng Mao*, Kailai Ye, Shengfa Yang, Muhammad Salam, Weiwei Yu, Qiang He, Ruixu He,Hong Li*. Repeated Exposure Enhanced Toxicity of Clarithromycin on Microcystis aeruginosa Versus Single Exposure through Photosynthesis, Oxidative Stress, and Energy Metabolism Shift.Environmental Science & Technology, 2024, 58(9): 4070-4082. (4)Bingran Tang, Wei Hung, Muhammad Salam, Lixue Zhang, Yongchuan Yang, Junfeng Niu,Hong Li*, Lilan Zhang*. Suspended particulate matter-biofilm aggregates benefit microcystin removal in turbulent water but trigger toxicity toward Daphnia magna.Water Research, 2024, 263:122150. (5)Yixin He, Ai Shen, Muhammad Salam, Mengzi Liu, Yanyan Wei, Yongchuan Yang,Hong Li*. Microcystins-Loaded Aged Nanoplastics Provoke a Metabolic Shift in Human Liver Cells.Environmental Science & Technology, 2023, 57(29): 10521-10531. (6)Li Kang, Yixin He, Lichun Dai, Qiang He, Hainan Ai, Guofeng Yang, Ming Liu, Wei Jiang,Hong Li*. Interactions between suspended particulate matter and algal cells contributed to the reconstruction of phytoplankton communities in turbulent waters.Water Research, 2019, 149: 251-262 (7)Ming Liu, Yan Ran, Xinxin Peng, Zhiqiang Zhu, Jialiang Liang, Hainan Ai,Hong Li*, Qiang He Sustainable modulation of anaerobic malodorous black water: The interactive effect of oxygen-loaded porous material and submerged macrophyte.Water Research, 2019, 160: 70-80. (8)Hong Li*, Hainan Ai, Li Kang, Xingfu Sun, Qiang He*. Simultaneous Microcystis Algicidal and Microcystin Degrading Capability by a Single Acinetobacter Bacterial Strain.Environmental Science & Technology, 2016, 50(21): 11903-11911. (9)Hong Li*, Gang Pan*. Simultaneous Removal of Harmful Algal Blooms and Microcystins Using Microorganism- and Chitosan-Modified Local Soil.Environmental Science & Technology, 2015, 49(10): 6249-6256. (10)Haolian Xu#,Hong Li#, Zhenzhen Tang, Yi Liu, Guo Li, Qiang He*. Underestimated methane production triggered by phytoplankton succession in river-reservoir systems: Evidence from a microcosm study.Water Research, 2020, 185:116233.(共同一作) (11) Bingran Tang, Qinshuang Feng, Qiang He, Jun Li*,Hong Li*, Polylactic acid microplastics facilitate nitrogen removal in freshwater sediments by modulating carbon-nitrogen coupling. Journal of Hazardous Materials, 2026, 504:141341. (12) Ruoyu Yuan, Wei Li, Muhammad Salam,Hong Li*. Nano-biochar reduces sustainable remediation of cadmium-contaminated soil more than micro-biochar: Evidence from cadmium removal and Eisenia foetida toxicity. Environmental Pollution, 2025, 366:125479. (13) Muhammad Salam,Hong Li*, Fayuan Wang, Aneeqa Zaib, Wentao Yang, Qiaoqiao Li. The impacts of microplastics and biofilms mediated interactions on sedimentary nitrogen cycling: A comprehensive review. Process Safety and Environmental Protection, 2024,184: 332-341. (14) Xiaojun Miao, Jiani Xu, Bing Yang, Junxiao Luo, Yue Zhi, Wei Li, Qiang He,Hong Li*. Indigenous mixotrophic aerobic denitrifiers stimulated by oxygen micro/nanobubble-loaded microporous biochar. Bioresource Technology, 2024, 391: 129997. (15) Bingran Tang, Lixue Zhang, Muhammad Salam, Bing Yang, Qiang He, Yongchuan Yang,Hong Li*. Revealing the environmental hazard posed by biodegradable microplastics in aquatic ecosystems: An investigation of polylactic acid's effects on Microcystis aeruginosa. Environmental Pollution 2024, 344: 123347. (16) Zhipeng Zhen, Ran Cai, Muhammad Salam, Jianmei Hu, Bing Yang, Mengzi Liu,Hong Li*, Bingran Tang. The competitive advantage ofMicrocystis aeruginosaover Scenedesmus obliquusweakened by exposure to polylactic acid microplastics. Ecotoxicology and Environmental Safety, 2023, 267: 115620. (17) Ruoyu Yuan, Muhammad Salam, Xiaojun Miao, Yongchuan Yang,Hong Li*, Yanyan Wei Potential disintegration and transport of biochar in the soil-water environment: A case study towards purple soil. Environmental Research, 2023, 222:115383 (18) Guining Wei, Jiani Xu, Bing Yang, Wei Li, Yixin He, Bingran Tang, Yongchuan Yang, Ran Cai, Xiaojun Miao, Mengzi Liu,Hong Li*, Ruilin Wang. Controlling internal nutrients loading at low temperature using oxygen-loading zeolite and submerged macrophytes enhances environmental resilience to subsequent high temperature, Environmental Research 2023, 231:116101. (19) Muhammad Salam, Huaili Zheng, Yingying Liu, Aneeqa Zaib, Syed Aziz Ur Rehman, Nimra Riaz, Moataz Eliw, Faisal Hayat, Hong Li*, Fayuan Wang. Effects of micro(nano)plastics on soil nutrient cycling: State of the knowledge. Journal of Environmental Management, 2023,344: 118437. (20) Xiaoxia Bai, Cheng Cheng, Qiang Xu, Bingran Tang, Qiang He,Hong Li*. Regulating autogenic vegetation in the riparian zone reduces carbon emissions: Evidence from a microcosm study. Science of The Total Environment 2022, 840: 156715. (21) Yixin He, Guining Wei, Bingran Tang, Muhammad Salam, Ai Shen, Yanyan Wei, Xin Zhou, Mengzi Liu, Yongchuan Yang,Hong Li*, Yufeng Mao. Microplastics benefit bacteria colonization and induce microcystin degradation. Journal of Hazardous Materials 2022, 431: 128524. (22) Mengzi Liu, Yanyan Wei, Muhammad Salam, Xiaobing Yuan, Bingsheng Liu, Qiang He, Xuebin Hu,Hong Li*, Yixin He. Potassium supplement enhanced cadmium removal in a Microcystis aeruginosa photobioreactor: Evidence from actual and simulated wastewater. Journal of Hazardous Materials 2022, 424:127719. (23) Guining Wei, Ruoyu Yuan, Muhammad Salam, Lixue Zhang, Yanyan Wei, Bingran Tang, Xiaobing Yuan, Bingsheng Liu, Xianhuai Yu,Hong Li*, Xiaojun Miao. Achieving simultaneous removal of nitrogen and phosphorus in sediment via combined adsorption and oxygen supplement. Chemical Engineering Journal, 2022, 441:136056. (24) Yixin He, Mengzi Liu, Ruilin Wang, Muhammad Salam, Yongchuan Yang, Zhaoxue Zhang, Qiang He, Xuebin Hu,Hong Li*. Potassium regulates cadmium toxicity in Microcystis aeruginosa. Journal of Hazardous Materials, 2021, 413:125374. (25) Yixin He, Jing Li, Jiancheng Chen, Xiaojun Miao, Guo Li, Qiang He, Haizhao Xu,Hong Li*, Yanyan Wei. Cytotoxic effects of polystyrene nanoplastics with different surface functionalization on human HepG2 cells. Science of The Total Environment, 2020, 723:138180. (26) Mengzi Liu, Xiaoting Li, Yixin He,Hong Li*. Aquatic toxicity of heavy metal-containing wastewater effluent treated using vertical flow constructed wetlands, Science of The Total Environment, 2020, 727:138616. (27) Yixin He, Jianrong Ma, Vanderwall Joseph, Yanyan Wei, Mengzi Liu, Zhaoxue Zhang, Guo Li, Qiang He,Hong Li*. Potassium regulates the growth and toxin biosynthesis of Microcystis aeruginosa. Environmental Pollution, 2020,267: 115576. (28)Xin Zhou, Yixin He,Hong Li*, Yanyan Wei, Lei Zhao, Guofeng Yang, Xudong Chen. Using flocculation and subsequent biomanipulation to control microcystis blooms: A laboratory study. Harmful Algae, 2020, 99:101917 (29) Hainan Ai, Yixi Qiu, Qiang He, Yixin He, Chun Yang, Li Kang, Huarui Luo, Wei Li, Yufeng Mao, Meijuan Hu,Hong Li*. Turn the potential greenhouse gases into biomass in harmful algal blooms waters: A microcosm study. Science of The Total Environment, 2019, 655:520-528. (30)Mengzi Liu, Jianrong Ma, Li Kang, Yanyan Wei, Qiang He, Xuebin Hu,Hong Li*. Strong turbulence benefits toxic and colonial cyanobacteria in water: A potential way of climate change impact on the expansion of Harmful Algal Blooms. Science of The Total Environment, 2019,670: 613-622. (31) Hong Li*, Guofeng Yang, Jianrong Ma, Yanyan Wei, Li Kang, Yixin He, Qiang He. The role of turbulence in internal phosphorus release: Turbulence intensity matters. Environmental Pollution, 2019, 252:84-93. (32)Yufeng Mao, Hainan Ai, Yi Chen, Zhenyu Zhang, Peng Zeng, Li Kang, Wei Li, Weikang Gu, Qiang He,Hong Li*. Phytoplankton response to polystyrene microplastics: Perspective from an entire growth period. Chemosphere, 2018, 208:59-68.(高被引及热点论文,入选该期刊most cited papers) (33) Qiang He, Li Kang, Xingfu Sun, Ruxue Jia, Ying Zhang, Jiangsen Ma,Hong Li*, Hainan Ai. Spatiotemporal distribution and potential risk assessment of microcystins in the Yulin River, a tributary of the Three Gorges Reservoir, China. Journal of Hazardous Materials, 2018, 347: 184-195. (34) 田瑞杰,杨永川,李宏*.三峡库区消落带植被特征变化研究.生态学报,2025,45(16):8178⁃8188 (35) 孙爱,冯琴霜,唐炳然,何强,李宏*.聚乳酸微塑料对淡水沉积物氮转化的影响.中国环境科学, 2025,45(4):2122-2134 (36) 丁一淇,黄邓铃尧,唐炳然,粟思橙,谢正权,何强,李宏*.载氧生物炭对水稻土中氮转化及砷迁移的影响.中国环境科学, 2025,45(3):1410-1421 (37) 黄邓铃尧, 唐炳然, 马媛媛, 何强, 李宏*.水稻土中砷对氮素转化的影响:以紫色土为例.生态环境学报, 2025,34(5): 784-795 (38) 潘璇, 罗竣潇, 唐炳然, 郭翔宇, 何强, 李宏*.载氧沸石与水丝蚓对沉积物-水剖面氮迁移转化的影响.生态环境学报, 2025,34(5): 763-772 (39) 杨诗幼,唐炳然,罗竣潇,梁嘉良,何强,李宏*.底泥覆盖对氮磷释放及休眠蓝藻复苏的影响.中国环境科学, 2024,44(11):6322-6331 (40) 冯琴霜,张丽雪,唐炳然,何强,李宏*.聚乳酸塑料在淡水沉积物中的降解过程.中国环境科学, 2024,44(11):6228-6240 (41) 杨兵,罗竣潇,唐炳然,邓联军,葛淼,刘强,张晓岭,何强,李宏*.载氧沸石对沉积物-水剖面氮去除的机制.中国环境科学, 2024,44(7):3786~3799. (42) 张丽雪,唐炳然,李宏*.聚乳酸微塑料对沉积物中蓝藻复苏的影响.中国环境科学,2024,44(5):2660-2671. (43) 冯琴霜,黄维,何强,李宏*.悬移质泥沙-微囊藻毒素复合体对大型溞的毒性效应.中国环境科学,2024,44(3):1687-1696. (44) 何艺欣,唐炳然,张丽雪,曲今垚,李宏*. 老化前后聚苯乙烯纳米塑料对铜绿微囊藻生理的影响.中国环境科学,2022,42(12):5877-5884. (45)黄维, 冉艳, 何艺欣,刘孟子,何强,胡学斌,李宏*.悬移质泥沙影响下水体中DBP的降解. 中国环境科学, 2022,42(3):1230-1239. |
