姓名:耿豪鹏

职称: 优青获得者 

性别:男

毕业院校:兰州大学

学历:博士

学位:博士

在职信息:在职

所在单位:地貌与第四纪地质研究所

入职时间:2014年7月

办公地点:祁连堂706A

电子邮箱:hpgeng@lzu.edu.cn

学习经历

2007/9 - 2014/6,兰州大学,自然地理学,博士, 导师:潘保田 教授
2011/10 - 2013/10,美国加州大学伯克利分校,国家公派联合培养博士生,导师:William E. Dietrich 院士
2003/9 - 2007/6,兰州大学,地理科学,学士

研究方向

主要从事活动造山带地貌演化模拟和量化理论研究,具体方向包括:坡面风化与侵蚀过程、地貌演化数值模拟、构造气候相互作用等

工作经历

2022/12 -  至今,兰州大学,资源环境学院,教授
2017/05 - 2022/12,兰州大学,资源环境学院,副教授
2014/07 - 2017/05,兰州大学,资源环境学院,讲师

主讲课程

“地貌学”(国家级精品课程),一年级本科专业基础课;
“自然地理实习1-地质地貌”,一年级本科实践课程;
“地球系统科学专业外语”,三年级本科专业选修课;
“地表过程与数值模拟”,研究生选修课。

学术兼职

研究成果

研究成果1:建立了祁连山不同时空尺度的侵蚀速率序列,证明侵蚀速率主要受控于地形陡度,为“构造驱动”的地貌演化模式,并提出通过降水与地形的空间关系可识别该模式下发育的稳态地貌;
研究成果2:证明了stream power model能有效模拟长时间的坡面侵蚀,并拓展了其应用的时空尺度;发现LGM以来的温度变化通过寒冻风化作用,影响着祁连山侵蚀过程(如:滑坡)的空间分布;明晰了气候在构造驱动模式中的作用;
研究成果3:创立了约束山地隆升年代与速率的数值模拟方法,先后在祁连山、天山应用,并成功重现了年轻山地的构造与地貌协同演化历史,这一全新方法克服了对年代学的依赖,有望成为活动造山带隆升扩展过程研究的重要工具。

获得荣誉

2022年获得兰州大学校创项目优秀指导教师
2021年获得兰州大学毕业论文优秀指导老师
2021年“兰州大学地理学展示大赛”优秀指导老师
2019年“国家级大学生创新创业训练计划”优秀指导老师
2019年获得兰州大学优秀毕业论文指导老师
2018年获兰州大学师德师风建设“先进个人”
2018年甘肃省第四届高校青年教师教学竞赛理科组三等奖.
2018年获甘肃省技术标兵
2017年兰州大学青年教师讲课比赛二等奖.
2017年资源环境学院青年教师讲课比赛第一名

在研项目

1. 国家自然科学基金委优秀青年科学基金项目,地貌演化与数值模拟(项目批准号:42322101),2024/01 – 2026/12,200万元,主持。
2. 国家自然科学基金委面上项目,风化过程与滑坡过程间的反馈机制及其对构造与气候的响应研究-以祁连山东段西营河流域为例,2020/01-2023/12,62万元,在研、主持。
3. 第二次青藏高原综合科学考察研究专题,雅江流域冰-河-湖演化历史事件与耦合过程(项目批准号:2019QZKK0205),2019.11-2024.10,3818万元,在研,参与;

发表论文

教学论文
1.	蔡顺*, 武毅, 郑炜珊, 耿豪鹏. 基于第二次青藏高原综合科学考察的中学地理问题式教学设计—以“地质灾害”为例. 中学地理教学参考, 2023, (14): 39-41.
2.	聂军胜*, 耿豪鹏, 潘保田, 李素. 兰州大学地学类专业外语多元化教学模式改革研究. 高等理科教育, 2023, (168): 20-26.
3.	耿豪鹏*, 高红山, 蔡顺. 地貌学课程中的思政教育元素—基于研究简史和研究范式的分析. 高等理科教育, 2021, (159): 86-91.

学术论文:
1.	Yunbo Zhang, Haopeng Geng*, Shun Cai, Baotian Pan. Tan DEM-X preserves the relationship between hilltop curvature and erosion rate in the Qilian Shan. Journal of Geophysical Research: Earth Surface, 2023, DOI: 10.1029/2023JF007118.
2.	Haopeng Geng*, Wanying Xu*, Weishan Zheng, Xiaolei Gao, Baotian Pan. A hybrid mechanism for the initiation and expansion of loess caves across the Chinese Loess Plateau. Land Degradation & Development, 2023, 34(11): 3329-3339. doi: 10.1002/ldr.4686
3.	Jian Zhang, Ralf Hetzel*, Baotian Pan, Haopeng Geng, Reinhard Wolff, Dianbao Chen. A 10Be-based paleo-erosion record for the Qilian Shan (NE Tibet) over the past 4.2 Ma from a drillcore in the Hexi Corridor. Geomorphology, 2023, 430: 108657. doi: 10.1016/j.geomorphology.2023.108657
4.	Haopeng Geng, Jian Zhang*, Rong Xie, Songbo Dai, Baotian Pan. The constancy of chemical weathering intensity on hillslopes in the arid to semiarid Qilian Mountains, NE Tibetan Plateau. Science of The Total Environment, 2023, 870: 161946. doi: 10.1016/j.scitotenv.2023.161946
5.	Meiqin Han*, Gary Brierley, Baotian Pan, Haopeng Geng, Yan Shi. An approach to evaluate the dominant river biogeomorphic succession phase at the reach-scale. CATENA, 2022, 217: 106455. doi: 10.1016/j.catena.2022.106455
6.	Haopeng Geng, Yang Hong*, David G. Milledge*, Baotian Pan, Yu Guo. Frost cracking dictated landslide distribution in response to temperature change since Last Glacial Maximum across the Eastern Qilian Mountains. Earth Surface Processes and Landforms, 2022,47(13): 3163-3179. doi: 10.1002/esp.5450.
7.	Jian Zhang, Haopeng Geng*, Baotian Pan, Junsheng Nie, Xiaofei Hu, Qiming Zhao, Dianbao Chen, Rong Xie. Coupling of tectonic uplift and climate change as influences on drainage evolution: A case study at the NE margin of the Tibetan Plateau. CATENA, 2022, 216PB: 106433. doi: 10.1016/j.catena.2022.106433
8.	Haopeng Geng, Shun Cai, Honghua Lu, Baotian Pan*. How can a youthful mountain survive in a foreland setting? - Constraining the uplift threshold rate by numerical simulation. Science Bulletin, 2022, 67(12): 1230-1232. doi: 10.1016/j.scib.2022.03.002
9.	Haopeng Geng*, Ru Liu, Weishan Zheng, Yunbo Zhang, Rong Xie, Yu Guo, Baotian Pan. Interaction between animal burrowing and loess cave formation in the Chinese Loess Plateau. Frontiers in Earth Science, 2021, 9: 806921. doi: 10.3389/feart.2021.806921
10.	Baotian Pan, Shun Cai, Haopeng Geng*. Numerical simulation of landscape evolution and mountain uplift history constrain - A case study from the youthful stage mountains around the central Hexi Corridor, NE Tibetan Plateau. Science China Earth Sciences, 2021, 64(3): 412-424. doi: 10.1007/s11430-020-9716-6
11.	Jian Zhang, Haopeng Geng*, Baotian Pan, Xiaofei Hu, Liping Chen, Wei Wang, Dianbao Chen, Qiming Zhao. Climatic zonation complicated the lithology controls on the mineralogy and geochemistry of fluvial sediments in the Heihe River Basin, NE Tibetan Plateau. Quaternary International, 2020, 537: 33-47. doi: 10.1016/j.quaint.2020.01.016
12.	Shun Cai, Haopeng Geng*, Baotian Pan, Yang Hong, Liping Chen. Topographic controls on the annual runoff coefficient and implications for landscape evolution across semiarid Qilian Mountains, NE Tibetan Plateau. Journal of Mountain Science, 2020, 17(2): 464-479. doi: 10.1007/s11629-019-5584-7
13.	Dianbao Chen*, Baotian Pan, Jinfeng Ma, Xiaofei Hu, Haopeng Geng, Hongli Pang. Paleoclimatic record from the clay mineralogy of Quaternary sediments of drill core DWJ from Jiudong subbasin (western Hexi Corridor), NW China. Quaternary Research, 2020, 93: 124-138. doi: 10.1017/quan.2019.50
14.	Haopeng Geng*, Baotian Pan, Bo Huang, Bo Cao, Hongshan Gao. The spatial distribution of precipitation and topography in the Qilian Shan Mountains, northeastern Tibetan Plateau. Geomorphology, 2017, 297: 43–54. doi: 10.1016/j.geomorph.2017.08.050
15.	Xiaofei Hu*, Baotian Pan, Yuxin Fan, Jun Wang, Zhenbo Hu, Bo Cao, Qingyang Li, Haopeng Geng. Folded fluvial terraces in a young, actively deforming intramontane basin between the Yumu Shan and the Qilian Shan Mountains, NE Tibet. Lithosphere, 2017, 9(4): 545-560. doi: 10.1130/L614.1
16.	Xiaofei Hu*, Baotian Pan, Eric Kirby, Hongshan Gao, Zhenbo Hu, Bo Cao, Haopeng Geng, Qingyang Li, Guoliang Zhang. Rates and kinematics of active shortening along the eastern Qilian Shan, China, inferred from deformed fluvial terraces. Tectonics, 2015, 34(12): 2478-2493. doi: 10.1002/2015TC003978
17.	Haopeng Geng, Baotian Pan*, David G. Milledge, Bo Huang, Guoliang Zhang. Quantifying sheet wash erosion rates in a mountainous semi-arid basin using environmental radionuclides and a stream power model. Earth Surface Processes and Landforms, 2015, 40: 1814-1826. doi: 10.1002/esp.3741
18.	Baotian Pan, Qiong Li*, Xiaofei Hu, Haopeng Geng, Hongshan Gao. Bedrock channels response to differential rock uplift in eastern Qilian Mountain along the northeastern margin of the Tibetan Plateau. Journal of Asian Earth Sciences, 2015, 100: 1-19. doi: 10.1016/j.jseaes.2014.12.009
19.	Baotian Pan, Qingyang Li*, Xiaofei Hu, Haopeng Geng, Zibian Liu, Shaofei Jiang, Wanming Yuan. Cretaceous and Cenozoic cooling history of the eastern Qilian Shan, north-eastern margin of the Tibetan Plateau: evidence from apatite fission-track analysis. Terra Nova, 2013, 25(6): 431-438. doi: 10.1011/ter.12052
20.	Jie Wang*, Baotian Pan, Guoliang Zhang, Hang Cui, Bo Cao, Haopeng Geng. Late Quaternary glacial chronology on the eastern slope of Gongga Mountain, eastern Tibetan Plateau, China. Science China Earth Sciences, 2013, 56(3): 354-365. doi: 10.1007/s11430-012-4514-0
21.	Baotian Pan, Xiaofei Hu*, Hongshan Gao, Zhenbo Hu, Bo Cao, Haopeng Geng, Qingyang Li. Late Quaternary river incision rates and rock uplift pattern of the eastern Qilian Shan Mountain, China. Geomorphology, 2013, 184: 84-97. doi: 10.1016/j.geomorph.2012.11.020
22.	Baotian Pan, Guoliang Zhang*, Jie Wang, Bo Cao, Haopeng Geng, Jun Wang, Cheng Zhang, Yapeng Ji. Glacier changes from 1966-2009 in the Gongga Mountains, on the south-eastern margin of the Qinghai-Tibetan Plateau and their climatic forcing. The Cryosphere, 2012, 6: 1087-1101. doi: 10.5194/tc-6-1087-2012
23.	Xiaofei Hu*, Baotian Pan, Eric Kirby, Qingyang Li, Haopeng Geng, Jifeng Chen. Spatial differences in rock uplift rates inferred from channel steepness indices along the northern flank of the Qilian Mountain, northeast Tibetan Plateau. Chinese Science Bulletin, 2010, 55(27-28): 3205-3214. doi: 10.1007/s11434-010-4024-4
24.	Baotian Pan, Haopeng Geng*, Xiaofei Hu, Ranhao Sun, Chao Wang. The topographic controls on the decadal-scale erosion rates in Qilian Shan Mountains, N.W. China. Earth and Planetary Science Letters, 2010, 292: 148-157. doi: 10.1016/j.epsl.2010.01.030
25.	洪洋, 耿豪鹏, 潘保田*. 寒冻风化控制的祁连山风化碎屑的空间分布. 冰川冻土, 2022, 44(4): 1347-1356.
26.	潘保田, 蔡顺, 耿豪鹏*. 山体隆升历史与地貌演化过程的数值模拟约束-以青藏高原东北缘河西走廊中段的周边年轻上升山地为例. 中国科学: 地球科学, 2021, 51(4): 523-536.
27.	郑炜珊, 耿豪鹏*, 顾国强, 潘保田. 定西于家山黄土洞穴的分布特征与侵蚀临界研究. 水土保持学报, 2020, 34(4): 112-117.
28.	郑炜珊, 耿豪鹏*, 潘保田. 兰州青水村黄土陷穴的侵蚀临界研究. 兰州大学学报(自然科学版), 2020, 56(3): 326-332.
29.	曹喜林, 耿豪鹏*, 潘保田, 胡小飞. 活动褶皱地区横向河演化与风口形成的研究进展和案例分析. 地震地质, 2020, 42(3): 670-687.
30.	蔡顺, 耿豪鹏*, 郑炜珊, 潘保田. 基于傅里叶变换的谷间距特征信息提取及其影响因素研究. 地球信息科学学报, 2020, 22(3): 399-409.
31.	陈立萍, 耿豪鹏*, 张建, 赵启明, 潘保田. 黑河流域基岩回弹值(施密特锤)的空间分布及其指示意义. 冰川冻土, 2019, 41(2): 364-373.
32.	常婧, 惠争闯*, 耿豪鹏, 胡小飞, 潘保田. 黑河中游现代孢粉传播过程研究. 地理科学, 2017, 37(12): 1925-1932.
33.	张建*, 胡小飞, 耿豪鹏, 陈殿宝, 潘保田. 钻孔及现代河流重矿物特征揭示的更新世以来酒东盆地水系演化历史. 地理科学, 2016, 36(10): 1595-1604.
34.	胡小飞*, 潘保田, 高红山, 胡振波, 曹泊, 李清洋, 耿豪鹏. 祁连山东段全新世河流阶地发育及其与气候变化的关系研究. 第四纪研究, 2013, 33(04): 723-736.
35.	王杰*, 潘保田, 张国梁, 崔航, 曹泊, 耿豪鹏. 贡嘎山东坡中更新世晚期以来冰川作用年代学研究. 中国科学: 地球科学, 2012, 42(12): 1889-1900.
36.	胡小飞*, 潘保田, Kirby Eric, 李清洋, 耿豪鹏, 陈吉锋. 河道陡峭指数所反映的祁连山北翼抬升速率的东西差异. 科学通报, 2010, 55(23): 2329-2338.
37.	耿豪鹏, 潘保田*, 王超, 黄波. 基于GIS与USLE的榆中县土壤侵蚀, 兰州大学学报(自然科学版), 2009, 45(6): 8-13.

出版著作