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孔冬贤
发布时间: 2023-01-03  作者:必赢76net线路  浏览次数:

个人简介

姓 名

孔冬贤

性 别

职称/职务

学术副教授

博导/硕导

硕导

联系电话

13366108963

电子邮箱

kdx@sdust.edu.cn

办公地址

J6-447

学习与工作经历

2019/08至今,山东科技大学 学术副教授

2017/12-2018/12,美国德州大学奥斯汀分校,访学

2016/09-2019/07,北京师范大学,博士

2013/09-2016/07,北京师范大学,硕士

2009/09-2013/07,山东农业大学,学士

研究方向

河流形貌与水沙变化;遥感分析与应用

主讲课程

《遥感原理与应用》、《遥感数字图像处理》、《遥感地学分析》、《地统计学概论》等

承担科研

课题

1. 国家自然科学基金青年项目,42101050,黄河下游河道减淤与河口三角洲发育的泥沙耦合研究,2022/01-2024/12,30万,主持

2. 山东省自然科学基金青年项目,ZR2021QD003,黄河三角洲演变对小浪底水库调水调沙的跨流域响应研究,2022/01-2024/12,15万,主持

3. 山东科技大学“菁英计划”人才启动项目,黄河流域水沙调控及其可持续性研究,2020/01-2024/12,30万,主持

4. 北京师范大学自主科研基金资助项目,2017STUD05,黄土高原植被变化的水沙响应研究,2017/01-2017/12,5万,主持

获奖情况

1. 获“优秀班主任”称号,2022

2. 获中国大学生GIS软件开发竞赛“优秀指导老师奖”,2022

3. 获中国大学生GIS软件开发竞赛“优秀指导老师奖”,2021

4. 获“工会积极分子”称号,2021

5. 获“我心目中的好老师”称号,2020

著作

1. 未来水文气候情景预估及不确定性分析与量化,2017,科学出版社,参编

论文

[1] Kong D.X., Miao C.Y.*, Li J.H., Zheng H.Y., 2022. Full-stream erosion in the lower Yellow River: Feasibility, sustainability and opportunity. Science of the Total Environment, 807: 150810.

[2] Kong D.X., Miao C.Y.*, Duan Q.Y., Li J.H., Zheng H.Y., Gou J.J., 2022. Xiaolangdi Dam: A valve for streamflow extremes on the lower Yellow River. Journal of Hydrology, 606: 127426.

[3] Kong, D.X., Miao, C.Y.*, Wu, J.W., Zheng, H.Y., Wu, S.H., 2020. Time lag of vegetation growth on the Loess Plateau in response to climate factors: Estimation, distribution, and influence. Science of The Total Environment, 744:140726.

[4] Kong, D.X., Miao, C.Y.*, Duan, Q.Y., Lei, X.H., Li, H., 2018. Vegetation‐Climate Interactions on the Loess Plateau: A Nonlinear Granger Causality Analysis. Journal of Geophysical Research: Atmospheres, 123(19): 11068-11079.

[5] Kong, D.X., Miao, C.Y.*, Latrubesse, E.M., Zhou, R., 2020. Morphological response of the Lower Yellow River to the operation of Xiaolangdi Dam, China. Geomorphology, 350:106931

[6] Kong, D.X., Miao, C.Y.*, Borthwick, A.G.L, Lei, X.H., Li, H., 2018. Spatiotemporal variations in vegetation cover on the Loess Plateau, China, between 1982 and 2013: possible causes and potential impacts. Environmental Science and Pollution Research, 25(14): 13633-13644.

[7] Kong, D.X., Miao, C.Y.*, Wu, J.W., Borthwick, A.G.L., Duan, Q.Y., Zhang, X.M., 2017. Environmental impact assessments of the Xiaolangdi Reservoir on the most hyperconcentrated laden river, Yellow River, China. Environmental Science and Pollution Research, 24(5): 4337-4351.

[8] Miao, C.Y.*,Kong, D.X., Wu, J.W., Duan, Q.Y., 2016. Functional degradation of the water-sediment regulation scheme in the lower Yellow River: Spatial and temporal analyses. Science of the Total Environment, 551-552: 16-22.

[9] Kong, D.X., Miao, C.Y.*, Wu, J.W., Duan, Q.Y., 2016. Impact assessment of climate change and human activities on net runoff in the Yellow River Basin from 1951 to 2012. Ecological Engineering, 91: 566-573.

[10] Kong, D.X., Miao, C.Y.*, Borthwick, A.G.L., Duan, Q.Y., Liu, H., Sun, Q.H., Ye, A.Z., Di, Z.H., Gong, W., 2015. Evolution of the Yellow River Delta and its relationship with runoff and sediment load from 1983 to 2011. Journal of Hydrology, 520: 157-167. (ESI高被引)

[11] Kong, D.X., Miao, C.Y.*, Wu, J.W., Duan, Q.Y., Sun, Q.H., Ye, A.Z., Di, Z.H., Gong, W., 2015. The hydro-environmental response on the lower Yellow River to the water-sediment regulation scheme. Ecological Engineering, 79: 69-79.

[12] Kong, D.X., Miao, C.Y.*, Wu, J.W., Jiang, L., Duan, Q.Y., 2015. Bi-objective analysis of water–sediment regulation for channel scouring and delta maintenance: A study of the lower Yellow River. Global and Planetary Change, 133: 27-34.

专利

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