张晨

一、代表论著：

张晨[译]，应用湖沼学：淡水中的污染物效应（第三版），中国水利水电出版社，2020.12. ISBN 978 7 5170 9334 3. Eugene B. Welch & Jean M. Jacoby [原著]. Pollutant Effects in Fresh Waters: Applied Limnology, 3rd Edition, Taylor & Francis, 2004.

二、5篇代表论文：

[1] Chen Zhang*, Yuhong Zhou, Maria Špoljar*, Jelena Fressl, Tea Tomljanović, Valjbone Rama, Natalia Kuczyńska-Kippen. How can top-down and bottom-up manipulation be used to mitigate eutrophication? Mesocosm experiment driven modeling zooplankton seasonal dynamic approach in the trophic cascade. Water Research, 2023, 243, 120364.

[2] Chen Zhang* & Tianyu Fu. Recalibration of a three-dimensional water quality model with a newly developed autocalibration toolkit (EFDC-ACT v1.0.0): how much improvement will be achieved with a wider hydrological variability? Geoscientific Model Development, 2023, 16, 4315-4329.

[3] Chen Zhang, Michael T. Brett*, Jens M. Nielsen, George B. Arhonditsis, Ashley P. Ballantyne, Jackie L. Carter, Jacob Kann, Dörthe C. Müller-Navarra, Daniel E. Schindler, Jason D. Stockwell, Monika Winder, David A. Beauchamp. Physiological and nutritional constraints on zooplankton productivity due to eutrophication and climate change predicted using a resource-based modeling approach. Canadian Journal of Fisheries and Aquatic Sciences, 2022, 79(3), 472–486. DOI:10.1139/cjfas-2021-0071.

[4] Chen Zhang, Michael T. Brett*, Shannon K. Brattebo, Eugene B. Welch. How well does the mechanistic water quality model CE-QUAL-W2 represent biogeochemical responses to climatic and hydrologic forcing? Water Resources Research, 2018，54(9): 6609-6624.

[5] Chen Zhang*, Yixuan Huang, Aisha Javed, George. B. Arhonditsis. An ensemble modeling framework to study the effects of climate change on the trophic state of shallow reservoirs. Science of the Total Environment, 2019, 697, 134078.

三、其他英文论著：

[1] Didi Song, Chen Zhang*, Ali Saber. Integrating impacts of climate change on aquatic environments in inter-basin water regulation: Establishing a critical threshold for best management practices. Science of the Total Environment, 2024, 913, 169297.

[2] Tianyu Fu & Chen Zhang*. Towards a generic model evaluation metric for non-normally distributed measurements in water quality and ecosystem models. Ecological Informatics, 2024, 80, 102470.

[3] Ruolan Yu, Chen Zhang*, Xueping Gao, Kensey Daly. Stagnant water environmental management in urban river networks: An integrated risk analysis involving hydraulic potential dissipation. Journal of Hydrology, 2023, 622, 129652.

[5] Chen Zhang*, Zixuan Zhu, Maria Špoljar, Natalia Kuczyńska-Kippen, Tvrtko Dražina, Matija Cvetnić, Mirosław Mleczek. Ecosystem models indicate zooplankton biomass response to nutrient input and climate warming is related to lake size. Ecological Modelling, 2022, 464, 109837.

[6] Ruolan Yu, Chen Zhang*. Early warning of water quality degradation: A copula-based Bayesian network model for highly efficient water quality risk assessment. Journal of Environmental Management, 2021, 292, 112749.

[7] Rui Yang, Shiqiang Wu, Xueping Gao, Xiufeng Wu, Chen Zhang*, et al. An accuracy-improved flood risk and ecological risk assessment in an interconnected river-lake system based on a copula-coupled hydrodynamic risk assessment model. Journal of Hydrology, 2021, 603, 127042.

[8] Natalia Kuczyńska-Kippen, Maria Špoljar, Mirosław Mleczek, Chen Zhang. Elodeids, but not helophytes, increase community diversity and reduce trophic state: case study with rotifer indices in field ponds. Ecological Indicators, 2021, 128, 107829.

[9] Maria Špoljar, Mirela Sertić Perić, Haobai Wang, Chen Zhang, Natalia Kuczyńska-Kippen, Jelena Fressl, Zvonimir Ercegovac. Does the size structure of the littoral community reflect water level fluctuations in shallow waterbodies. Ecological Indicators, 2021, 132, 108330.

[10] Chen Zhang*, Qi Yan, Natalia Kuczyńska-Kippen, Xueping Gao. An Ensemble Kalman Filter approach to assess the effects of hydrological variability, water diversion, and meteorological forcing on the total phosphorus concentration in a shallow reservoir. Science of the Total Environment, 2020, 724, 138215.

[11] Natalia Kuczyńska-Kippen, Maria Špoljar, Chen Zhang, Małgorzata Pronina. Zooplankton functional traits as a tool to assess latitudinal variation in the northern-southern temperate European regions during spring and autumn seasons. Ecological Indicators, 2020, 117, 106629.

[12] Fang Chen, Chen Zhang*, Michael T. Brett, and Jens M. Nielsen. The importance of the wind-drag coefficient parameterization for hydrodynamic modeling of a large shallow lake. Ecological Informatics, 2020, 59, 101106.

[13] Guixia Zhao, Xueping Gao, Chen Zhang*, Guoqing Sang. The effects of turbulence on phytoplankton and implications for energy transfer with an integrated water quality- ecosystem model in a shallow lake. Journal of Environmental Management, 2020, 256, 109954.

[14] Chen Zhang*, Yixuan, Huang, Maria Špoljar, Wenna, Zhang, Natalia Kuczyńska-Kippen. Epiphyton dependency of macrophyte biomass in shallow reservoirs and implications for water transparency. Aquatic Botany, 2018, 150: 46-52.

[15] Maria Špoljar, Chen Zhang*, Tvrtko Dražina, Guixia Zhao, Jasna Lajtner, Goran Radonić. Development of submerged macrophyte and epiphyton in a flow-through system: assessment and modelling predictions in interconnected reservoirs. Ecological Indicators, 2017, 75: 145-154.

[16] Chen Zhang*, Hanan Liu, Xueping Gao, Han Zhang. Modeling nutrients, oxygen and critical phosphorus loading in a shallow reservoir in China with a coupled water quality – macrophytes model. Ecological Indicators, 2016, 66: 212-219.

[17] Chen Zhang*, Xueping Gao, Liyi Wang, Xiaojun Chen. Modelling the role of epiphyton and water level for submerged macrophyte development with a modified submerged aquatic vegetation model in a shallow reservoir in China. Ecological Engineering, 2015, 81: 123-132.

[18] Chen Zhang*, Shiyu Lai, Xueping Gao, Liping Xu. Potential impacts of climate change on water quality in a shallow reservoir in China. Environmental Science and Pollution Research, 2015, 22: 14971-14982.

[19] Chen Zhang*, Xueping Gao, Liyi Wang, Yuanyuan Chen. Analysis of agricultural pollution by flood flow impact on water quality in a reservoir using a three-dimensional water quality modeling. Journal of Hydroinformatics, 2013, 15(4): 1061-1072.

[20] Yuanyuan Chen, Chen Zhang*, Xueping Gao, Liyi Wang. Long-term variations of water quality in a reservoir in China. Water Science and Technology, 2012, 65(8): 1454-1460.

四、中文论著：

[1] 张晨*，周雅迪，宋迪迪，1990-2018年于桥水库流域氮磷浓度变化趋势及影响因素，湖泊科学，2023，35（6），1949-1959.

[2] 张晨*，李天国，高学平，竖井式进／出水口工程尺度SPH方法模拟研究，水力发电学报，2022，41（11），34-45.

[3] 张晨，郑云鹤，刘殷竹，于若兰，高学平，湖泊水力调控对河湖连通伴生洪水风险的缓释影响，水利学报，2022，53（3），316-324.

[4] 张晨*，于昊，于若兰，郑云鹤，杨蕊，高学平，不同洪水重现期下橡胶坝调控对洪水风险影响，水科学进展，2021，32（3），427-437.

[5] 杨蕊，吴时强，高学平，张晨*，基于Vine Copula函数的河湖连通水环境多因子联合风险识别研究，水利学报，2020，51（5），606-616.

[6] 张晨*，王浩百，胡华芬等，人为扰动下河流复氧激增现象及机制分析，中国环境科学，2020，40（5），2167-2173.

[7] 张晨*，宋迪迪，廉铁辉，引水结构变化对天津于桥水库磷滞留的影响分析与生态水量估算，湖泊科学，2020，32（2），370-379.

[8] 赵桂侠，张晨*，张赫，姜薇，高学平，人工岛布置方式对周围海域水动力及水交换影响研究，水力发电学报，2017，36（2），18-28.

[9] 王晨茜，张晨，张翰，孙博闻，高学平*，侧式进/出水口流动分离现象研究，水力发电学报，2017，36（11），73-81.

[10] 张晨*，来世玉，高学平，刘汉安，气候变化对湖库水环境的潜在影响研究进展，湖泊科学，2016，28（4），691-700.

[11] 张晨*，刘汉安，高学平，张文娜，气候变化对于桥水库总磷与溶解氧的潜在影响分析，环境科学，2016，37（8），2932-2939.

[12] 张晨*，来世玉，高学平，许莉萍，极端风场对郑东新区人工湖水动力特性影响分析，水动力学研究与进展，2016，31（4），480-488.