近期论文
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[34] Yao, W*. (2021) Ecohydraulic tools for aquatic fauna habitat and population status assessment, analysis and monitoring aimed at promoting integrated river management. Ecological Modelling, 456, 109682.
[33] Yu, G. A., Yao, W., Huang, H. Q., & Liu, Z. (2021). Debris flows originating in the mountain cryosphere under a changing climate: A review. Progress in Physical Geography: Earth and Environment, 45(3), 339-374.
[32] Yao, W*., An, R., Yu, G., Li, J., & Ma, X. (2021). Identifying fish ecological risk patterns based on the effects of long-term dam operation schemes. Ecological Engineering, 159, 106102.
[31] Yao, W. (2020). Ecohydraulic model development and application: Evaluating the habitats and population of rainbow trout (Oncorhynchus mykiss), brown trout (Salmo trutta), and flannelmouth sucker (Catostomus latipinnis) in Colorado River. Global Ecology and Conservation, Volume 23, September 2020, e01060 (https://doi.org/10.1016/j.gecco.2020.e01060)
[30] Yao, W*., Zhao, T., Shen, L., & Chen, Y. (2019). Assessing the Geological Stability, Dam Construction Effects, and Ecological Status of Karst Water Areas, Guizhou Province, China. In Karst Water Environment, p.251-269. Springer, Cham. (ISBN: 978-3-319-77367-4)
[29] Yao, W*., Chen, Y., & Ma, X. (2019). A numerical model for river habitat restoration: a case study of the Chin-sha River in China. GLOBAL NEST JOURNAL, 21(3), 355-359.
[28] Yao, Weiwei; Yuansheng Chen, Xiaoyi Ma, Xiaobin Li (2018). The spillway design for the dam’s height over 300 meters. 2018.
[27] Yu, G; Li Z., Huang, H; Yao, W (2018). Effects of riparian vegetation on development of meandering channel in Tarim River, Northwest China. 2018
[26] Wu, L., Yao, W., & Ma, X. (2018). Using the comprehensive governance degree to calibrate a piecewise sediment delivery ratio algorithm for dynamic sediment predictions: A case study in an ecological restoration watershed of northwest China. Journal of Hydrology, 564, 888-899.
[25] Yao, W*., Chen, Y., Yu, G., Xiao, M., Ma, X., & Lei, F. (2018). Developing a Model to Assess the Potential Impact of TUM Hydropower Turbines on Small River Ecology. 10(5), 1662.
[24] Yao, W*., Zhao, T., Chen, Y., Yu, G., & Xiao, M. (2018). Assessing the river habitat suitability and effects of introduction of exotic fish species based on anecohydraulic model system. Ecological Informatics.
[23] Yao, W*., Bui, M. D., & Rutschmann, P. (2018). Development of eco‐hydraulic model for assessing fish habitat and population status in freshwater ecosystems. Ecohydrology.
[22] Yao, W*., & Chen, Y. (2018). Assessing three fish species ecological status in Colorado River, Grand Canyon based on physical habitat and population models. Mathematical biosciences, 298, 91-104.
[21] Yao W, Chen Y., Zhong Y, et al (2017). Habitat models for Assessing River Ecosystems and Their Application to the Development of River Restoration Strategies. Journal of freshwater ecology (DOI:10.1080/02705060.2017.1371088).
[20] Yao W, Chen Y. (2017), Canyon Dam operation effects on rainbow trout habitat and population status. Polish Journal Environmental studies. (DOI: 10.15244/pjoes/74366)
[19] Yao W, Zhao T, Chen Y, Zhang W, et al. (2017), Habitat evaluation model for ecologically successful lake restoration. Lake and reservoir management. (DOI:10.1080/10402381.2017.1336739).
[18] Yao W, Liu H, Chen Y, Zhang W, et al. (2017), simulation spawning and juvenile rainbow trout (Oncorhynchus mykiss) habitat in Colorado river based on high-flow effects. (DOI:10.3390/w9020150).
[17] Yao, W., (2016) Application of ecohydraulic model on hydraulic and water resources engineering (ISSN 1437-3513; ISBN 978-3-943683-11-0) (独著).
[16] Wenyi Zhang, Yao W*, Linkai Li, Qian Zhang (2016) Using an eco-hydrodynamic model to simulate the impact of Trunk Dam construction on Kraal River fish habitat and community. International Journal of Environmental Research 10(2), 227-236..
[15] Zhang, W, Di, Zhong, Yao W*, Li, L. (2016) Optimization the operation of hydraulic dam for ecological flow requirement of You-Shui River due to the construction of hydropower stations. lake and reservoir management, 32(1), 1-12.
[14] Yao, W*., & Rutschmann, P. (2015). Three high flow experiment releases from Glen Canyon Dam on rainbow trout and flannelmouth sucker habitat in Colorado River. Ecological Engineering, 75, 278-290.
[13] Yao, W*., Rutschmann, P., & Bamal, S. (2014). Modeling of River Velocity, Temperature, Bed Deformation and its Effects on Rainbow Trout (Oncorhynchus mykiss) Habitat in Lees Ferry, Colorado River. International Journal of Environmental Research, 8(4), 887-896.
[12] Yao, W*., & Rutschmann, P. (2014). Use of a self-propelled, fish-shaped, computer model to study the effects of shape and tail-beat frequency on torque and velocity in salmon-shaped fish. Marine and Freshwater Behaviour and Physiology, 47(3), 161-172.
[11] Nguyen, T.T., Yao, W., Ma, X, Fan, H. (2012) Clustering Algorithm and Hopfield Neural Network Used to Design Looped Network. Yellow River, Vol.34, No. 5.
[10] Hu, J., Ma, X., Yao, W, Wang, Z., Yin, J. (2012) The design of irrigation networks based on Kruskal Algorithm. China Rural Water and Hydropower. Vol. 2.
[09] Fan, H., Ma, X., Wang, X., Yao, W., Ren, B. (2011) A Numerical Simulation of Infiltration Characteristics in Film Slit Irrigation and Research on Its Simpified Model. China Rural Water and Hydropower. Vol. 1.
[08] Yao, W., Ma. X., Wang, X., Fan, H. (2010) Loop-type Pipe Networks Design Based on Adaptive Genetic Algorithm. Journal of Irrigation and Drainage. Vol.29, No. 4.
[07] Yao, W., Bamal, Sudeep; Rutschmann, Peter (2014) Simulating High-Flow Effects (HFE) on river deformation and rainbow trout (Oncorhynchus mykiss) habitat. –pp. 2471-2476, ISBN 978-1-138-02674-2
[06] Yao, W., Kumar, Vaibhav; Rutschmann, Peter (2014) Simulating dam effects on river deformation and rainbow trout (Oncorhynchus mykiss) population number.pp. 2477-2483, ISBN 978-1-138-02674-2
[05] Yao, W., Bui, Minh Duc; Rutschmann Peter: Application of habitat and population modeling in river management. – In Internationales Symposium Wasser- und Flussbau im Alpenraum 25.-27. , S. 207 – 216.
[04] Rutschmann, Peter, Bui, Minh-Duc, Abdelaziz Shokry, Yao, W, Rutschmann, Benjamin, Geiger Franz. (2014) Ökologische Modellierungen – drei Fallbeispiele.37. Dresdner Wasserbaukolloquium 2014„Simulationsverfahren und Modelle für Wasserbau und Wasserwirtschaft“ (German).
[03] Rutschmann, P., Bui, M. D., Abdelaziz, S., Yao, W., Rutschmann, B., & Geiger, F. (2014) Ökologische Modellierungen–drei Fallbeispiele. (German)
[02] Rutschmann, Peter; Cuchet, Mathilde; Geiger, Franz; Abdelaziz, Shokry; Yao, W. (2013) Wasserkraft und Ökologie – ein hybrider Ansatz. – In: Symposium Wasserkraft AGAW/SWV mit Hauptversammlung. (German)
[01] Yao, W., Ma, X. Y., Li, J., & Parkes, M. (2011). Simulation of point source wetting pattern of subsurface drip irrigation. Irrigation Science, 29(4), 331-339.
会议论文及特邀报告
[16] Yao, Weiwei (2021) River regulation , restoration and fish management solutions. The 2nd International Symposium of Water Disaster Mitigation and Water Environment Regulation July 7-9, 2021, Chengdu, China.
[15] Yao, Weiwei, David Zhu, Pengcheng Li (2020) Fish entrainment modelling in the forebay of a reservoir. NSERC Meeting, March, Vancouver, Canada.
[14] Yao, Weiwei, Pengcheng Li, Rajib (2019) Fish entrainment modelling study, Noverber, Alberta, Canada.
[13] Yao, Weiwei, Yuansheng Chen, Xiaoyi Ma, Xiaobin Li (2018). The spillway design for the dam’s height over 300 meters. River flow 2018
[12] Yao, Weiwei, Yuansheng Chen, Xiaoyi Ma (2018). The ecological status changes due to the dam construction effects: A case study of karst water areas, China. 12th International symposium on Ecohydraulics.
[11] Yao, Weiwei, Yuansheng Chen, Xiaoyi Ma (2018). Using a coupled eco-hydrodynamic model to predict river habitat changes for river restoration strategy. 12th International symposium on Ecohydraulics.
[10] Yu, Guoan; Li Zhiwei., Huang, Heqing; Yao, Weiwei (2018). Effects of riparian vegetation on development of meandering channel in Tarim River, Northwest China. River flow 2018.
[09] Yao, Weiwei; Bui, Minh Duc; Rutschmann Peter(2016). Applying habitat and population model for European grayling (Thymallus thymallus) in Aare River. wasserbau-symposium. S527-542.
[08] Rutschmann, Peter, Bui, Minh-Duc, Abdelaziz Shokry, Yao, Weiwei, Rutschmann, Benjamin, Geiger Franz. (2014) Ökologische Modellierungen – drei Fallbeispiele, 37. Dresdner Wasserbaukolloquium 2014„Simulationsverfahren und Modelle für Wasserbau und Wasserwirtschaft“ (German).
[07] Yao, Weiwei; Bui, Minh Duc; Rutschmann, Peter (2014). Hydraulic modeling of the effects of glen canyon dam operations on larva rainbow trout habitat in the colorado river. the 3rd IAHR Europe Congress, pp. 17-26.
[06] Yao, Weiwei; Bui, Minh Duc; Rutschmann Peter(2014). Application of habitat and population modeling in river management. – In Internationales Symposium Wasser- und Flussbau im Alpenraum 25.-27. , S. 207 – 216.
[05] Yao Weiwei, Bamal Sudeep, Rutschmann Peter(2014). Simulating High-Flow Effects (HFE) on River deformation and rainbow trout (Oncorhynchus mykiss) habitat. Riverflow 2014, pp2471-2476.
[04] Yao Weiwei, Kumar Vaibhav, Rutschmann Peter(2014). Simulating dam effects on river deformation and rainbow trout (Oncorhynchus mykiss) population number. Riverflow 2014, pp2477-2483.
[03] Yao Weiwei(2014). Simulation of Fish Locomotion and Energy Expending. 35Th IAHR, P2600-2610, Chengdu, China
[02] Rutschmann, Peter; Cuchet, Mathilde; Geiger, Franz; Abdelaziz, Shokry; Yao, Weiwei (2013) Wasserkraft und Ökologie – ein hybrider Ansatz. – In: Symposium Wasserkraft AGAW/SWV mit Hauptversammlung. (German).
[01] Yao, Weiwei; Ma, Xiaoyi.(2012). Canal water distribution using genetic algorithm– In: Water infinitely deformable but still limited. Proc. of the 2nd IAHR European Congress, 27. – 29.6.2012, ISBN 978-3-943683-03-5 IAHR.