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赵广举

发布日期:2021-08-20   阅读次数:

基本信息

赵广举,博士,研究员,主要从事流域水沙过程模拟、黄土高原水土保持措施对河流水沙的调控效应、泥沙来源复合示踪等方面研究。2011年毕业于德国基尔大学,同年进入西北农林科技大学水土保持研究所工作,曾赴美国加州伯克利大学、奥地利维也纳自然资源与科技大学、美国农业部土壤侵蚀国家重点实验室访问先后主持国家自然科学基金青年、面上项目、国家重点研发计划课题,作为项目骨干参与中科院重点部署项目、水利部行业公益专项、国家基础调查项目等近20项。在Journal of Hydrology》、《Catena》Land Degradation Development》、《Geomorphology》等期刊发表中英文论文余篇,他引近3000次,单篇最高引用600余次

工作经历

1. 2017.01-- 西北农林科技大学水土保持研究所,研究员(破格)

2. 2017.09 - 2018.07 美国农业部土壤侵蚀重点实验室,普渡大学,访问学者

3. 2014.01 - 2016.12 西北农林科技大学水土保持研究所,副研究员

4. 2014.10 - 2015.01 奥地利维也纳农业大学(BOKU),博士后

5. 2014.08 - 2014.09 美国加州伯克利大学,访问交流

6. 2011.04 - 2013.12 西北农林科技大学水土保持研究所,助理研究员

荣誉获奖

1. 2015年,陕西省青年科技新星

2. 2014年,中国科学院陕西省分院第四届优秀青年

科学研究

1)承担及参与项目

1. 中国科学院“西部之光”重点实验室交叉团队项目:青藏高原土壤水力侵蚀与碳转化的耦合过程与调控,主持,200万元,2021.01-2024.12

2. 国家自然科学基金面上项目:黄河孔兑流域次降雨事件泥沙源汇动态变化及驱动机制,58万元,2021.01-2024.12

3. 家自然科学基金面上项目:植被恢复与坝库工程对皇甫川流域水土过程的调控与模拟,主持,66万元,2017.01-2020.12

4. 国家重点研发计划项目:黄河流域水沙多时空演变及其分异规律,课题主持,375万元,2016.07-2020.12

5. 中国科学院西部之光A类项目:黄土高原坝控流域侵蚀产沙及淤地坝拦沙作用,主持,50万元,2018.07-2021.12

6. 中国科学院A类先导专项:土地退化驱动机制与评价,子专题主持,199万元,2018.01-2022.12

7. 陕西省国际合作计划项目:基于近景摄影测量技术的黄土高原切沟侵蚀产沙定量研究,主持,15万元,2017.01-2019.12

8. 陕西省自然科学计划项目:黄土丘陵区流域水沙变化对水土保持措施的响应与模拟,主持,10万元,2015.01-2017.12

9. 水利部行业公益专项:黄土区水保措施抵御灾害性暴雨的技术与对策,项目骨干,277万元,2015.01-2017.12,(专题负责:50万元)

10. 国家自然科学基金青年项目:皇甫川流域泥沙来源的复合指纹示踪研究,主持,26万元,2013.01-2015.12

11. 中科院重点部署项目:近百年黄土高原侵蚀环境与水沙变化,项目秘书,500万元,2012.01-2015.05

2)发表文章与专著

1. 穆兴民,赵广举,高鹏,孙文义等. 黄土高原水沙变化新格局,科学出版社,2019. (专著)

2. 刘宝元,唐克丽,焦菊英,马小云,张晓萍,曹 琦,肖培青,魏欣,符素华,缪驰远,李占斌,赵广举. 黄河水沙时空图谱,科学出版社,2019.(专著)

3. Hu Jinfei, Zhao Guangju*, Mu Xingmin*, Georg Hormann, Tian Peng, Gao Peng, Sun Wenyi. Effect of soil and water conservation measures on regime-based suspended sediment load during floods, 2020, Sustainable Cities and Society, 55, 102044.

4. Zhao Guangju, Gao Peng, Tian Peng, Sun Wenyi, Hu Jinfei, Mu Xingmi. Assessing sediment connectivity and soil erosion by water in a representative catchment on the Loess Plateau, China. 2020. Catena, 185, 104284

5. Tian Xiaojing, Zhao Guangju*, Mu Xingmin, et al. Hydrologic alteration and possible underlying causes in the Wuding River, China[J]. Science of The Total Environment, 2019,693:133556.

6. Hu Jinfei, Zhao Guangju*, Mu Xingmin*, Tian Peng, et al. Quantifying the impacts of human activities on runoff and sediment load changes in a Loess Plateau catchment, China[J]. Journal of Soils and Sediments,2019.

7. Zhao GJ, Mu XM, Jiao JY, et al. Assessing response of sediment load variation to climate change and human activities with six different approaches. Science of the Total Environment, 2018, 639, 773-784.

8. Zhao GJ, Zhai JQ, Tian P, Zhang LM, Mu XM, An ZF, Han MW. Variations in extreme precipitation on the Loess Plateau using a high-resolution dataset and their linkages with atmospheric circulation indices. Theoretical and Applied Climatology, 2018, DOI:10.1007/s00704-017-2251-1

9. EH Li, Mu XM, Zhao GJ*, et al. Effects of check dams on runoff and sediment load in a semi-arid river basin of the Yellow River, Stochastic Environment Research Risk Assessment. 31(7), 1791-1803.

10. Zhao GJ, Mu XM, Han MW, et al. Sediment yield and sources in dam-controlled watersheds on the northern Loess Plateau. Catena, 2017,149, 110-119.

11. Zhao GJ, Kondolf GM, Mu XM, et al. Sediment yield reduction associated with land use changes and check dams in a catchment of the Loess Plateau, China. Catena, 2017, 148,126-137.

12. Zhao GJ, Yue XL, Tian P, Mu XM et al. Comparison of the suspended sediment dynamics in two Loess Plateau catchments, China, Land Degradation and Development, 2017, 28(4), 1398-1411.

13. Zhao GJ, Mu XM, Jiao JY, et al. Evidence and causes of spatiotemporal changes in runoff and sediment yield on the Chinese Loess Plateau. Land Degradation and Development, 2017, 28(2), 579-590.

14. Zhao GJ, Klik, A, Mu XM et al. Sediment yield estimation in a small watershed on the northern Loess Plateau, China. Geomorphology, 2015, 241, 343-352.

15. Zhao GJ, Li EH, Mu XM et al. Changing trends and regime shift of streamflow in the Yellow River basin, Stochastic Environmental Research and Risk Assessment, 2015, 29(5), 1331-1343.

16. Zhao G.J. Tian P., Mu X.M. et al. Quantifying the impact of climate variability and human activities on streamflow in the middle reaches of the Yellow River basin, China. Journal of Hydrology, 2014, 519, 387-398.

17. Zhao GJ, Mu XM, Strehmel A. et al. Temporal Variation of Streamflow, Sediment Load and Their Relationship in the Yellow River Basin, China. PLOS One, 2014, 9(3): e91048.

18. Zhao G.J., Mu X.M., Tian P., Jiao J.Y., Wang F. Have conservation measures improved Yellow River health? Journal of Soil and Water Conservation, 2013, 68, 6, 159-161.

19. Zhao G.J., Mu X.M., Tian P., Wang F., Gao P. Climate changes and their impacts on water resources in semiarid regions: a case study of the Wei River basin, China. Hydrological Processes, 2013, 27(26), 3852-3863, DOI: 10.1002/hyp.9504.

20. Zhao G.J., Mu X.M., Wen Z. M. et al. Soil erosion, conservation and eco-environment changes in the Loess Plateau of China. Land Degradation & Development. 2013, 24(5), 499-510, DOI: 10.1002/ldr.2246

21. Zhao G.J., Mu X.M., G. Hörmann, et al. Spatial patterns and temporal variability of dryness/wetness in the Yangtze River Basin, China. Quaternary International. 2012, 282 (19):5-13.

22. Zhao G.J., Mu X.M., Su B.D. et al. Analysis of streamflow and sediment flux changes in the Yangtze River Basin. Water International, 2012, 37(5): 537-551.

23. Tian P., Zhao G.J*, Gao J.F., Zhang Z.X., Ni G.H. 2012. Integration of monthly water balance simulation and export coefficient model for nutrients pollution estimation in the Xitiaoxi catchment. International Journal of Environmental Science and Technology. 9(1): 163-172.

24. Zhao G.J., G. Hörmann, N. Fohrer et al. Development and application of a nitrogen simulation model in a data scarce catchment in South China. Agricultural Water Management. 2011, 98,619-631.

25. Zhao G.J., Gao J.F., Tian P. et al. Spatial-temporal characteristics of surface water quality in Taihu Basin, China. Environmental Earth Sciences, 2011, 809-819.

26. Zhao G.J., G. Hörmann, N. Fohrer, et al. Streamflow trends and climate variability impacts in Poyang Lake basin, China. Water Resources Management. 2010, 24, 689-706.

27. Zhao G.J., G. Hörmann, N. Fohrer et al.  Application of a simple raster-based hydrological model for streamflow prediction in a humid catchment with polder systems. Water Resources Management. 2010, 25, 661-676

28. Sun, Wenyi; Tian, Yuansheng; Mu, Xingmin; Zhai, Jun; Gao, Peng; Zhao, Guangju, Loess Landslide Inventory Map Based on GF-1 Satellite Imagery , Remote Sensing, 2017, 4, 9(4).

29. Li, Pengfei; Mu, Xingmin ; Holden, Joseph; Wu, Yiping; Irvine, Brian; Wang, Fei; Gao, Peng; Zhao, Guangju; Sun, Wenyi, Comparison of soil erosion models used to study the Chinese Loess Plateau, EARTH-SCIENCE REVIEWS, 2017, 170: 17-30.

30. Wei, Yanhong; He, Zhong; Li, Yujin; Jiao, Juying ; Zhao, Guangju, Mu, Xingmin, Sediment Yield Deduction from Check-dams Deposition in the Weathered Sandstone Watershed on the North Loess Plateau, China , Land Degradation & Development, 2017, 28(1): 217-231

31. Gao P, Li PF, Zhao BL, Xu RR, Zhao GJ, Sun WY, Mu XM. Use of double mass curves in hydrologic benefit evaluations. Hydrological Processes, 2017, 31(16), 4639-4646.

32. Gu CJ, Mu XM, Gao P, Zhao GJ, Sun WY, Li PF. Effects of climate change and human activities on runoff and sediment inputs ofthe largest freshwater lake in China, Poyang Lake. Hydrological Sciences Journal – Journal Des Hydrologiques, 2017, DOI: 10.1080/02626667.2017.1372856

33. Tian P, Zhai JQ, Zhao GJ, Mu XM. Dynamics of runoff and suspended sediment transport in a highly erodible catchment on the Chinese Loess Plateau, Land Degradation & Development, 2016, 27,3, 839-850