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(一)第一或共同第一作者英文文章:
1. Xiaoli Shi*?, Shengnan Li?, Min Zhang, Changqing Liu, Qinglong Wu.2020. Temperature mainly determines the temporal succession of the photosynthetic picoeukaryote community in Lake Chaohu, a highly eutrophic shallow lake. Science of the Total Environment. doi.org/10.1016/j.scitotenv.2019.134803. (2区)
2. Fan Fan?, Xiaoli Shi*?, Min Zhang, Changqing Liu, Kaining Chen.2019. Comparison of algal harvest and hydrogen peroxide treatment in mitigating cyanobacterial blooms via an in situ mesocosm experiment. Science of the Total Environment. doi.org/10.1016/j.scitotenv.2019.133721. (2区)
3. Xiaoli Shi*?, Shengnan Li?, Huabing Li, Feizhou Chen and Qinglong Wu.2019.The Community Structure of Picophytoplankton in Lake Fuxian, a Deep and Oligotrophic Mountain Lake. Frontier in Microbiology.doi: 10.3389/fmicb.2019.02016. (2区)
4. Changqing Liu?, Xiaoli Shi?*, Fan Fan, Fan Wu and Jin Lei.2019.N:P ratio influences the competition of Microcystis with its picophytoplankton counterparts, Mychonastes and Synechococcus, under nutrient enrichment conditions. Journal of Freshwater Ecology.34: 445–454.
5. Chao Chen?, Xiaoli Shi?*, Zhen Yang, Fan Fan, Yunxiang Li.2019.An integrated method for controlling the offensive odor and suspended matter originating from algae-induced black blooms. Chemosphere.221:526-532. (2区)
6. Xiaoli Shi*, Shengnan Li, Fan Fan, Min Zhang, Zhen Yang and Yunfeng Yang,2018. Mychonastes dominates the photosynthetic picoeukaryotes in Lake Poyang, a river-connected lake. FEMS Microbiology Ecology.doi.org/10.1093/femsec/fiy211. (2区)
7. Xiaoli Shi*, Shengnan Li, Changqing Liu, Min Zhang, Mixue Liu,2018.Community structure of photosynthetic picoeukaryotes differs in lakes with different trophic statuses along the middle-lower reaches of the Yangtze River. FEMS Microbiology Ecology.doi.org/10.1093/femsec/fiy011. (2区)
8. Xiaoli Shi*, Shengnan Li, Lijun Wei, Boqiang Qin and Justin D. Brookes.2017. CO2 alters community composition of freshwater phytoplankton:A microcosm experiment. Science of the Total Environment.607:69-77. (2区)
9. Mixue Liu?, Xiaoli Shi?*, Chao Chen, Li Yu and Chuang Sun.2017.Responses of Microcystis colonies of different sizes to hydrogen peroxide stress. Toxins. doi:10.3390/toxins9100306.(2区)
10. Xiaoli Shi, Xuhui Zhao, Min Zhang, Zhou Yang, Ping Xu, and Fanxiang Kong.2016.The responses of phytoplankton communities to elevated CO2 show seasonal variations in the highly eutrophic Lake Taihu.Canadian Journal of Fisheries and Aquatic Sciences.73:1-10. ( 2区)
11. Xiaoli Shi*, Shengnan Li, Xiujuan Wang, Mixue Liu, Fanxiang Kong.2016.CO2 alters picophytoplankton community structure in freshwater ecosystems. Fundamental and Applied Limnology.189:1-10.
12. Shengnan Li?, Xiaoli Shi?*, CéCile Lepère, Mixue Liu, Xiujuan Wang and Fanxiang Kong.2016.Unexpected predominance of photosynthetic picoeukaryotes in shallow eutrophic lakes. Journal of Plankton Research.38:830-842.(2区)
13. Xiaoli Shi, Cécile Lepère, David J. Scanlan, Daniel Vaulot,2011.Plastid 16S rRNA Gene Diversity among Eukaryotic Picophytoplankton Sorted by Flow Cytometry from the South Pacific Ocean. PLoS ONE.6(4): e18979. doi:10.1371/journal.pone.0018979.(2区)
14. Xiaoli Shi, Dominique Marie, Ludwig Jardillier, David J. Scanlan. J.2009. Daniel Vaulot. Groups without cultured representatives dominate eukaryotic picophytoplankton in the oligotrophic South East Pacific Ocean. PLoS ONE. 4(10):e7657.doi:10.1371/journal.pone.0007657.(2区)
15. Xiaoli Shi, Longsheng Tang, Shengnan Li, Ping Xu, and Fanxiang Kong.2015.The effects of CO2 on sestonic stoichiometry and community structure of crustacean zooplankton in a eutrophic lake: Increased competitive ability of Bosmina. Biochemical Systematics and Ecology.60:1-7.
16. Xiaoli Shi*, Shanqin Qian, Fanxiang Kong.2011.Differences in growth and alkaline phosphatase activity between Microcystis aeruginosa and Chlorella pyrenoidosa in response to media with different organic phosphorus. Journal of Limnology.70 :21-25.
(二)通讯作者英文文章:
1. Min Zhang, Xiaoli Shi*, Zhen Yang, Yang Yu, Limei Shi, Boqiang Qin.2018.Long-term dynamics and drivers of phytoplankton biomass in eutrophic Lake Taihu. Sciences of the Total Environment.645:876-886. (2区)
2. Shengnan Li, Gisele Bronner, Cecile Lepere, Fanxiang Kong and Xiaoli Shi*. 2017.Temporal and Spatial variations in the composition of freshwater photosynthetic picoeukaryotes revealed by MiSeq sequencing from flow cytometry sorted samples. Environmental Microbiology. 19(6):2286-2300. (2区)
3. Chao Chen, Zhen Yang, Fanxiang Kong, Min Zhang, Yang Yu, Xiaoli Shi*. 2016. Growth, physiochemical and antioxidant responses of overwintering benthic cyanobacteria to hydrogen peroxide. Environmental Pollution.219: 649-655. (2区)
4. Shengnan Li, Jian Zhou, Lijun Wei, Fanxiang Kong, Xiaoli Shi*. 2016. The effect of elevated CO2 on autotrophic picoplankton abundance and production in a eutrophic lake (Lake Taihu, China). Marine and Freshwater Research. 67:319-326.
(三)第一作者或通讯作者中文文章:
1. 史小丽*,范帆,张民,阳振,陈开宁.2020.巢湖西湖心底泥蓝藻对水体蓝藻生物量贡献的研究.湖泊科学.
2. 张民,史小丽*,阳振,陈开宁.2020.2012-2018年巢湖水质变化趋势分析和蓝藻防控建议.湖泊科学.32:11-20.
3. 雷瑾,史小丽*,张民,李胜男,陈开宁,杨州.2019.白洋淀超微真核藻的空间分布特征及关键影响因子.湖泊科学. 31:1559-1569.
4. 张民,阳振,史小丽*. 太湖蓝藻水华的扩张与驱动因素.2019.湖泊科学.31:336-344.
5.陈超, 范帆, 史小丽*,阳振,陈开宁,黎云祥.2018.化学氧化剂对水华蓝藻的控制研究. 中国环境科学. 38:4307-4313.
6.王秀娟,刘米雪,李胜男,史小丽*.2017.CO2浓度升高对浮游藻类元素化学计量值的影响.湖泊科学.29:1379-1385.
7.周建,李胜男,王秀娟,孔繁翔,史小丽*.2016.丰水期鄱阳湖超微型浮游植物空间分布特征及其影响因子.湖泊科学.28:537-544.
8.魏利军,汤龙升,李胜男,周建,孔繁翔,史小丽*.2016. CO2升高对枝角类浮游动物种群结构的影响.生态学报.36:1846-1853.
9.李胜男,王秀娟,周建,孔繁翔,史小丽*.2015.利用流式细胞仪计数微型浮游生物的方法.湖泊科学.27:757-766.
10.李胜男, 周建,魏利军,孔繁翔,史小丽*.2015.淡水超微型浮游植物多样性及其研究方法.生态学杂志.34:1174-1182.
11.谢薇薇,龚伊,王志伟,孔繁翔,史小丽*.2013.利用流失细胞仪分选技术研究湖泊真核超微藻的遗传多样性.环境科学.34 :1485-1491.
12.谢薇薇,王志伟,孔繁翔,史小丽*.2012.太湖光合自养真核超微藻遗传多样性初探.湖泊科学.24:123-128.
13.刘姝,孔繁翔,蔡元锋,阳振,王济奎,史小丽*.2012.巢湖四条入湖河流硝态氮污染来源的氮稳定同位素分析. 湖泊科学.24:952-956.
14.赵旭辉,孔繁翔,谢薇薇,史小丽*.2012.全球CO2水平升高对浮游植物生理和生态影响的研究进展.生态学报.32:6880-6891.
15. 钱善勤,孔繁翔,张民,于洋,史小丽*.2010.铜绿微囊藻和蛋白核小球藻对不同形态有机磷的利用及其生长.湖泊科学.22:411-415.
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