主要成果
第一\通讯作者论文(*为通信作者)
1.QiuHaijun*, CuiYifei, Pei Yanqian, Yang Dongdong, Hu Sheng, Wang Xingang, Ma Shuyue. Temporal patterns of nonseismically triggered landslides in Shaanxi Province, China. CATENA, 2020, 187: 104356.
2.Qiu Haijun*, Cui Peng, Regmi Amar Deep, Hu Sheng, Wang Xingang, Zhang Yuzhu, He Yi. Influence of topography and volume on mobility of loess slides within different slip surfaces. CATENA, 2017, 157: 180-188.
3.Qiu Haijun*, Regmi Amar Deep, Cui Peng, Cao Mingming, Lee Jingzhong, Zhu Xinghua. Size distribution of loess slides in relation to local slope height within different slope morphologies. CATENA, 2016, 145:155-163.
4.Ye Bingfeng,Qiu Haijun*, Tang Bingzhe, Liu Ya, Liu Zijing, Jiang Xingyuan, Yang Dongdong, Ullah Mohib, Zhu Yaru, Kamp Ulrich.Creep deformation monitoring of landslides in a reservoir area, Journal of Hydrology, 2024, 632:130905
5.Liu Ya,Qiu Haijun*, Kamp Ulrich, Wang Ninglian, Wang Jiading, Huang Chang, Bingzhe Tang.Higher temperature sensitivity of retrogressive thaw slump activity in the Arctic compared to the Third Pole.Science of the Total Environment, 2024, 914: 170007.
6.Pei Yanqian,Qiu Haijun*, Yang Dongdong, Liu Zijing, Ma Shuyue, Li Jianyong, Cao Mingming, Wufuer Waili. Increasing landslide activity in the Taxkorgan River Basin (eastern Pamirs Plateau, China) driven by climate change. CATENA, 2023, 223: 106911.
7.YangDongdong,Qiu Haijun*, Ma Shuyue, Liu Zijing, Du Chi, Zhu Yaru, Cao Mingming. Slow surface subsidence and its impact on shallow loess landslides in a coal mining area.CATENA, 2022, 209: 105830.
8.YangDongdong,Qiu Haijun*,HuSheng, Pei Yanqian, Wang Xingang, Du Chi, Long Yongqing, Cao Mingming. Influence of successive landslides on topographic changes revealed by multitemporal high-resolution UAS-based DEM. CATENA, 2021, 202: 105229.
9.He Jianyin,Qiu Haijun*, Qu Feihang, Hu Sheng, Yang Dongdong, Shen Yongdong, Zhang Yan, Sun Hesheng, Cao Mingming. Prediction of spatiotemporal stability and rainfall threshold of shallow landslides using the TRIGRS and Scoops3D models. CATENA, 2021, 197: 104999.
10.Zhou Wenqi,Qiu Haijun*, Wang Luyao, Pei Yanqian, Tang Bingzhe, Ma Shuyue, Yang Dongdong, Cao Mingming.Combining rainfall-induced shallow landslides and subsequent debris flows for hazard chain prediction. CATENA, 2022, 213:106199.
11.Pei Yanqian,Qiu Haijun*, Zhu Yaru, Wang Jiading, Yang Dongdong, Tang Bingzhe, Wang Fei, Cao Mingming. Elevation dependence of landslide activity induced by climate change in the eastern Pamirs. Landslides, 2023, 20:1115-1133.
12.Ma Shuyue,Qiu Haijun*, Yang Dongdong, Wang Jiading, Zhu Yaru, Tang Bingzhe, Sun Kui, Cao Mingming. Surface multi‑hazard effect of underground coal mining. Landslides, 2023, 20:39-52
13.Liu Zijing,Qiu Haijun*, Ma Shuyue, Yang Dongdong, Pei Yanqian, Du Chi, Sun Hesheng, Hu Sheng, Zhu Yaru. Surface displacement and topographic change analysis of the Changhe landslide on September 14, 2019, China.Landslides, 2021, 18(4): 1471-1483.
14.Ma Shuyue,Qiu Haijun*,Hu Sheng,Yang Dongdong, Liu Zijing.Characteristics and geomorphology change detection analysis of the Jiangdingya landslide on July 12, 2018,China. Landslides, 2021,18:383–396.
15.Qu Feihang,Qiu Haijun*, Sun Hesheng,Tang Minggao.Post-failure landslide change detection and analysis using optical satellite Sentinel-2 images. Landslides, 2021, 18:447–455.
16.Zhu Yaru,Qiu Haijun*, Yang Dongdong, Liu Zijing, Ma Shuyue, Pei Yanqian, He Jianyin, Du Chi, Sun Hesheng. Pre- and post-failure spatiotemporal evolution of loess landslides: a case study of the Jiangou landslide in Ledu, China.Landslides, 2021,18(10), 3475-3484.
17.LiuYa,Qiu Haijun*, Yang Dongdong, Liu Zijing, Ma Shuyue, Pei Yanqian, Zhang Juanjuan, Tang Bingzhe. Deformation responses of landslides to seasonal rainfall based on InSAR and wavelet analysis. Landslides, 2022,19:199–210.
18.Hu Sheng,Qiu Haijun*, Wang Ninglian, Wang Xingang, Ma Shuyue, Yang Dongdong, Wei Na, Liu Zijing, Shen Yongdong, Cao Mingming, Song Zhaopeng. Movement process, geomorphological changes, and influencing factors of a reactivated loess landslide on the right bank of the middle of the Yellow River, China. Landslides, 2022, 19:1265-1295. DOI 10.1007/s10346-022-01856-0.
19.Hu Sheng,Qiu Haijun*,Yanqian Pei,Cui Yifei, Xie Wanli, Wang Xingang, Yang Dongdong, Tu Xiang, Zou Qiang, Cao Puyuan, Cao Mingming. Digital terrain analysis of a landslide on the loess tableland using high-resolution topography data. Landslides, 2019,16(3), 617-632.
20.Hu Sheng,Qiu Haijun*, Wang Xingang, Gao Yu, Wang Ninglian, Wu Jiang, Yang Dongdong, Cao Mingming.Acquiring high-resolution topography and performing spatial analysis of loess landslides by using low-cost UAVs. Landslides, 2018, 15(3), 593-612.
21.He Yi,Qiu Haijun*, Song Jinxi, Zhao Yan, Zhang Limei, Hu Sheng, Hu Yiyi. Quantitative contribution of climate change and human activities to runoff changes in the Bahe River watershed of the Qinling Mountains, China. Sustainable Cities and Society, 2019, 51:101729https://doi.org/10.1016/j.scs.2019.101729.
22.Yang Dongdong,Qiu Haijun*, Ye Bingfeng, Liu Ya, Zhang Juanjuan, Zhu Yaru.Distribution and Recurrence of Warming-induced Retrogressive Thaw Slumps on the Central Qinghai-Tibet Plateau. Journal of Geophysical Research: Earth Surface, 2023, 128: e2022JF007047.
23.Zhu Yaru,Qiu Haijun*, Cui Peng*, Liu Zijing, Ye Bingfeng, Dongdong Yang, Ulrich Kamp. Early detection of potential landslides along high-speed railway lines: A pressing issue. Earth Surface Processes and Landforms, 2023, 48:3302–3314.
24.Yang Dongdong,Qiu Haijun*, Zhu Yaru, Liu Zijing, Pei Yanqian, Ma Shuyue, Du Chi, Sun Hesheng, Liu Ya,Cao Mingming. Landslide Characteristics and Evolution: What We Can Learn from Three Adjacent Landslides. Remote Sensing, 2021, 13, 4579.
25.Zhu Yaru,Qiu Haijun*, Liu Zijing, Wang Jiading, Yang Dongdong, Pei Yanqian, Ma Shuyue, Du Chi, Sun Hesheng, Wang Luyao. Detecting Long-Term Deformation of a Loess Landslide from the Phase and Amplitude of Satellite SAR Images: A Retrospective Analysis for the Closure of a Tunnel Event. Remote Sensing, 2021, 13, 4841.
26.Liu Zijing,Qiu Haijun*, Zhu Yaru,LiuYa, Yang Dongdong, Ma Shuyue, Zhang Juanjuan, WangYuyao, WangLuyao, TangBingzhe. Efficient Identification and Monitoring of Landslides by Time-Series InSAR Combining Single- and Multi-Look Phases. Remote Sensing. 2022, 14, 1026.
27.Wang Luyao,Qiu Haijun*, Zhou Wenqi, Zhu Yaru,Liu Zijing, Ma Shuyue, Yang Dongdong, TangBingzhe. The post-failure spatiotemporal deformation of certain translational landslides may follow the pre-failure pattern. Remote Sensing. 2022, 14, 2333.
28.Zhang Juanjuan,QiuHaijun*, Tang Bingzhe, Yang Dongdong, Liu Ya, Liu Zijing, Ye Bingfeng, Zhou Wenqi,Zhu Yaru. Accelerating effect of vegetation on the instability of rainfall-induced shallow landslides. Remote Sensing. 2022, 14, 5743.
29.Ma Shuyue,Qiu Haijun*, Zhu Yaru, Yang Dongdong, Tang Bingzhe, Wang Daozheng, Wang Luyao, Cao Mingming. Topographic Changes, Surface Deformation and Movement Process before, during and after a Rotational Landslide. Remote Sensing. 2023, 15, 662.
30.QiuHaijun*, Cui Peng, Regmi Amar Deep,Hu Sheng, Wang Xingang, Zhang Yuzhu.The effects of slope length and slope gradient on the size distributions of loess slides: Field observations and simulations.Geomorphology, 2018, 300, 69-76.
31.QiuHaijun*,Su Lingling, Tang Bingzhe, Yang Dongdong,Ullah Mohib,Zhu Yaru, Kamp Ulrich.The effect of location andgeometric properties of landslides caused by rainstorms andearthquakes.Earth Surface Processes and Landforms,2024,1–13.https://doi.org/10.1002/esp.5816.
32.Yang Dongdong,QiuHaijun*, Hu Sheng, Zhu Yaru, Cui Yifei, Du Chi, Liu Zijing, Pei Yanqian, Cao Mingming. Spatiotemporal distribution and evolution characteristics of successive landslides on the Heifangtai tableland of the Chinese Loess Plateau. Geomorphology,2021,378: 107619.
33.Hu Sheng,Qiu Haijun*,WangNinglian, Cui Yifei, Wang Jiading, Wang Xingang, Ma Shuyue, Yang Dongdong, Cao Mingming. The influence of loess cave development upon landslides and geomorphologic evolution: A case study from the northwest Loess Plateau, China.Geomorphology, 2020,359:107167.https://doi.org/10.1016/j.geomorph.2020.107167
34.Hu Sheng,Qiu Haijun*, Yang Dongdong, Cao Mingming, Song Jinxi, Wu Jiang, Huang Chenlu, Gao Yu. Evaluation of the applicability of climate forecast system reanalysis weather data for hydrologic simulation: A case study in the Bahe River Basin of the Qinling Mountains, China. Journal of Geographical Sciences, 2017, 27(5):546-564.
35.QiuHaijun*, Zhu Yaru, Zhou Wenqi, Sun Hesheng, He Jianyin,Liu Zijing. Influence of DEM resolution on landslide simulation performance based on the Scoops3D model, Geomatics, Natural Hazards and Risk, 2022, 13(1): 1663-1681.
36.Qiu Haijun*, Hu Sheng, Yang Dongdong, He Yi, Pei Yanqian, Kamp Ulrich. Comparing landslide size probability distribution at the landscape scale (Loess Plateau and the Qinba Mountains, Central China) using double Pareto and inverse gamma. Bulletin of Engineering Geology and the Environment,2021, 80:1035–1046
37.QiuHaijun*, Cui Peng, Regmi Amar Deep, Hu Sheng, Zhang Yuzhu, He Yi.Landslide distribution and size versus relative relief (ShaanxiProvince, China). Bulletin of Engineering Geology and the Environment, 2018, 77(4), 1331-1342.
38.QiuHaijun*, Cui Peng,HuSheng, Regmi Amar Deep,Wang Xingang, Yang Dongdong.Developing empirical relationships to predict loess slide travel distances: a case study on the Loess Plateau in China. Bulletin of Engineering Geology and the Environment, 2018, 77(4), 1299-1309.
39.QiuHaijun*, Cui Yifei, Hu Sheng, Yang Dongdong, Pei Yanqian, Yang Wenlu. Temporal and spatial distributions of landslides in the Qinba Mountains, Shaanxi Province, China. Geomatics, Natural Hazards and Risk, 2019, 10(1): 599-621.
40.QiuHaijun*, Cui Yifei, Hu Sheng, Yang Dongdong, Pei Yanqian, Ma Shuyue, Liu Zijing. Size distribution and size of loess slides in response to slope height and slope gradient based on field survey data. Geomatics, Natural Hazards and Risk, 2019,10(1):1443–1458
41.QiuHaijun*, Cui Yifei,YangDongdong, Pei Yanqian, Hu Sheng, Ma Shuyue, Hao Junqing, Liu Zijing. Spatiotemporal Distribution of Nonseismic Landslides during the Last 22 Years in Shaanxi Province, China. ISPRS International Journal of Geo-Information, 2019, 8:505.
42.Yang Dongdong,QiuHaijun*, Pei Yanqian, Hu Sheng, Ma Shuyue, Liu Zijing, Zhang Yan, Cao Mingming. Spatial and Temporal Evolution of the Infiltration Characteristics of a Loess Landslide. ISPRS International Journal of Geo-Information, 2020,9, 26; doi:10.3390/ijgi9010026.
43.Pei Yanqian,QiuHaijun*, Hu Sheng, Yang Dongdong, Zhang Yan, Ma Shuyue, Cao Mingming. Appraisal of tectonic-geomorphic features in the Hindu Kush- Himalayas. Earth and Space Science, 2021,8, e2020EA001386.
44.QiuHaijun*, Cui Peng, Regmi Amar Deep, Wang Yanmin, Hu Sheng.Slope height and slope gradient controls on the loess slide size within different slip surfaces. Physical Geography, 2017,38(4): 303-317.
45.QiuHaijun*, Regmi Amar Deep, Cui Peng, Hu Sheng, Wang Yanmin, He Yi.Slope aspect effects of loess slides and its spatial differentiation in different geomorphologic types.Arabian Journal of Geosciences, 2017, 10:344.
46.QiuHaijun*, Cui Peng, Regmi Amar Deep, Hu Sheng, Hao Junqing. Loess slide susceptibility assessment using frequency ratio model and artificial neural network. Quarterly Journal of Engineering Geology and Hydrogeology, 2019,52:38-45
47.QiuHaijun*, Hu Sheng, Wang Xingang, Yang Dongdong, Pei Yanqian, Ma Shuyue. Size and spatial distribution of loess slides on the Chinese Loess Plateau. Physical Geography, 2020, 41:126-144.
48.MaShuyue,QiuHaijun*, Hu Sheng, Pei Yanqian, Yang Wenlu, Yang Dongdong, Cao Mingming. Quantitative assessment of landslide susceptibility on the Loess Plateau in China. Physical Geography, 2020,41(6): 489-516.
49.Nie Wen,QiuHaijun*, Asadi Afshin.Editorial: Monitoring, early warning, and mitigation of natural and engineered slopes. Frontiers in Earth Science, 2023, 10: 1041180.
50.QiuHaijun, Nie Wen*, Asadi Afshin.Editorial: Monitoring, early warning, and mitigation of natural and engineered slopes—Volume II. Frontiers in Earth Science, 2023, 11: 1200777.
51.邱海军*,崔 鹏,胡胜,刘琪,王彦民,高宇,邓妹凤.陕北黄土高原不同地貌类型区黄土滑坡频率分布[J].地球科学, 2016, 41(2):343-350. (EI收录期刊) EI检索号:20161302154614
52.邱海军*,崔 鹏,王彦民,刘琪,胡胜,高宇,靳欣.基于关联维数的黄土滑坡空间分布结构及其成因分析[J].岩石力学与工程学报(EI收录期刊), 2015, 34(03): 546-555. EI检索号:20151100627586
53.胡胜,邱海军*,王宁练,崔一飞,曹明明,王家鼎,王新刚.地形对黄土高原滑坡的影响[J].地理学报(EI收录期刊),2021, 76(11): 2697-2709.
54.邱海军*,崔 鹏,曹明明,刘 闻,高宇,王彦民.基于最大熵原理的黄土丘陵区地质灾害规模频率分布研究[J].岩土力学(EI收录期刊),2014,35(12): 3541-3549. EI检索号:20150200412546
55.邱海军*,曹明明,王雁林,郝俊卿,胡胜,高宇,刘琪.黄土丘陵区地质灾害规模参数幂律相依性研究[J].地理科学, 2015,35(1):107-113.
56.邱海军*,曹明明,刘 闻,王彦民,郝俊卿,胡胜.基于三种不同模型的区域滑坡灾害敏感性评价及结果检验研究[J].地理科学, 2014, 34(1):110-115.
57.邱海军*,曹明明,郝俊卿,王雁林,王彦民.1950~2010年中国干旱灾情频率-规模关系分析[J].地理科学, 2013, 33(5): 576-580.
58.邱海军*,曹明明,刘 闻.地质灾害的幂律相依性:以宁强县为例[J].地质科技情报,2013, 32(3):183-187.
59.邱海军,胡 胜,崔 鹏*,杨冬冬,许博健,朱兴华,何毅.黄土滑坡灾害空间格局及其空间尺度依赖性研究[J].第四纪研究, 2017, 37(2):307-318.
60.邱海军*,曹明明,王彦民,郝俊卿,刘闻,胡 胜. 近60年中国农作物干旱灾情变化的趋势性和周期性研究[J].第四纪研究, 2013, 33 (6): 1183-1190.
61.邱海军*,曹明明,胡 胜.1950~2010年中国洪涝灾情频率规模关系分析[J].自然灾害学报,2013,22(4): 114-119.
62.邱海军*,曹明明,刘 闻,郝俊卿,胡 胜,高宇,刘琪.区域滑坡空间分布的变维分形特征研究[J].现代地质,2014,28(2):443-448.
63.邱海军*,曹明明,胡 胜,王彦民,郝俊卿,刘闻.近60a来中国洪涝灾情变化趋势持续性和周期性研究[J].地球与环境, 2014, 42(1):17-24.
64.邱海军*,曹明明,刘 闻,郝俊卿,王雁林.区域地质灾害的空间点格局分析研究——以宁强县为例[J].干旱区资源与环境, 2014, 28(3):107-111.
65.邱海军,曹明明*.基于SPOT VEGETATION数据的中国植被覆盖时空变化分析[J].资源科学, 2011, 33(3):335-340.
66.邱海军*,曹明明.土地利用景观格局指数的粒度效应[J].地域研究与开发, 2011, 30(1): 126-129.
67.邱海军*,曹明明,曾 彬.基于小波分析的西安降水时间序列的变化特征[J].中国农业气象, 2011,32(1):23-27.
68.邱海军*,曹明明.黄土高原沟壑区土地利用变化分析——以陕西省洛川县为例[J].水土保持通报, 2011,31(2):207-210.
69.邱海军*,曹明明.基于EOF的陕西省降水变化时空分异研究.水土保持通报[J], 2011, 31(3):57-59.
70.邱海军*,曹明明.近50年来榆林市主要代表站河川基流量变化及趋势分析[J].干旱区资源与环境, 2011,25(2):98-101.
71.邱海军*,曹明明.黄龙县土地利用景观格局及其破碎化分析[J].beat365官方最新版学报(自然科学版), 2011, 41(6):1102-1106.
72.邱海军,马舒悦,崔一飞,杨冬冬,裴艳茜,刘子敬.重新认识滑坡作用[J].beat365官方最新版学报(自然科学版), 2020, 50(3): 377-385.
73.裴艳茜,邱海军*,胡 胜,杨冬冬,曹明明,邹强.“一带一路”地区滑坡灾害风险评估[J].干旱区地理, 2018, 41(6):1225-1240.
74.裴艳茜,邱海军*,胡 胜,邹强,杨冬冬,张焱,曹明明.中巴经济走廊地质灾害敏感性分析[J].第四纪研究,2018,38(6):1369-1383.
75.胡 胜,邱海军*,宋进喜,马舒悦,杨冬冬,裴艳茜,曹明明.气候变化对秦岭北坡径流过程的影响机制研究——以灞河流域为例.干旱区地理, 2017,40(5), 967-978.
76.张焱,邱海军*,胡胜,王新刚,杨冬冬,曹明明.黄土洞穴发育条件下滑坡土体性质及其稳定性分析[J].自然灾害学报, 2020, 29(02): 64-75.
77.胡 胜,邱海军*,王新刚,谢婉丽,龙永清,土祥,杨冬冬,马舒悦,张焱,曹明明.基于高分辨地形的黄土滑坡特征参数提取及其应用意义[J].第四纪研究,2018, 38(2): 367-379.
78.杨文璐,邱海军*,裴艳茜,胡 胜,曹明明.典型黄土丘陵区浅层黄土滑坡稳定性评价——以延安市志丹县为例[J].第四纪研究,2019, 39(2): 408-419.
79.曹璞源,邱海军*,胡胜.杨冬冬.区域崩塌和滑坡规模参数频率分布研究——以秦巴山地宁强县为例[J].灾害学, 2017, 32(4):121-126.
80.李 军,邱海军*,郝俊卿,刘 闻.基于USLE和CSLE的洛川县土壤侵蚀对比分析研究[J].生态经济. 2013, (10):397-391.
81.李 军,邱海军*,郝俊卿,王雁林.黄土丘陵沟壑区NDVI值空间分异及其与地表温度和湿度关系研究[J].生态经济. 2013, (5):403-407.
82.曹璞源,胡胜,邱海军*,杨冬冬,曹明明.基于模糊层次分析的西安市地质灾害危险性评价[J].干旱区资源与环境, 2017 (8): 136.
83.胡 胜,杨冬冬,吴江,高宇,邱海军*,曹明明,宋进喜,万虹麟.基于数字滤波法和SWAT模型的灞河流域基流时空变化特征研究[J].地理科学, 2017, 37(3): 455-463.
84.杨冬冬,胡 胜,邱海军*,何毅,曹明明,裴艳茜,杨文璐.基于模糊层次分析法对“一带一路”重要区域地质灾害危险性评价———以关中经济区为例[J].第四纪研究, 2017,37(3):633-644.
85.何简吟,邱海军*,胡 胜,杨文璐,裴艳茜,杨冬冬,张焱,马舒悦,曹明明.基于TRIGRS模型的浅层滑坡稳定性分析[J].第四纪研究,2019, 39(5): 1222-1234.
86.沈永东,邱海军*,胡胜*,刘子敬,张焱,杨冬冬,曹明明.黄土台塬滑坡水文地质结构探测及失效成因分析[J].第四纪研究, 2019, 39(6): 1503-1513.
87.徐新文,赵庆,邱海军*.黄土磁化率对千年- 百年尺度气候事件的记录及其古气候意义[J]. 2020, 50(3):411-419.
88.胡 胜,邱海军*,王宁练,崔一飞,曹明明.基于高分辨率影像和地形解译的黄土高原滑坡数据库[DB/OL].全球变化数据仓储,2020.DOI:10.3974/geodb.2020.04.08.V1.
89.杨冬冬,邱海军*,胡胜,邹 强,朱亚茹.“一带一路”地区地质灾害时空分布特征及防治对策[J].科技导报, 2020, 38(16): 45-52.
90.孙何生,邱海军*,朱亚茹,刘雅,高祥语.黄河上游典型流域滑坡稳定性预测及模型应用[J].beat365官方最新版学报(自然科学版), 2022, 52(3):380-390.
出版著作
1.邱海军.《秦巴山地滑坡崩塌灾害特征与危险性分析——以宁强县为例》(专著) 2017,中国环境出版社,20万字
2.曹明明,邱海军.“十二五”国家重点图书出版规划项目:中国省市区地理丛书之《陕西地理》(专著) 2018,北京师范大学出版社,34万字,主编
3.崔鹏,邹强,邱海军,Koert Sijmons.“一带一路”自然灾害风险与减灾系列《自然灾害风险地图集》,2021.11,北京:科学出版社,副主编
4.Cui Peng,Zou Qiang,Qiu Haijun,Koert Sijmons.《Atlas of Disaster Risk》,2021,Beijing: Science Press. Associate Editors in Chief
5.何艳芬,邱海军.《计量地理学基础》.2022.6,北京:科学出版社,主编
主要获奖
1.第十三届中国水土保持学会青年科技奖
2.第二届中国地理学会“最美地理科技工作者”称号(每届10人)