白世彪

 

性别
职称
教授、硕士生导师
   
研究方向
自然地理学,滑坡等重力地貌
电话
暂无
电子邮件
shibiaobai@njnu.edu.cn
传真
办公地点
南京师范大学地理科学学院(仙林校区行远楼)
邮政编码
210023

通讯地址
文苑路1号
白世彪,男,1974年生,湖南安乡人,博士,硕士生导师。主要从事自然地理学、滑坡等重力地貌的教学与研究工作。本科毕业于兰州大学地理学基地班,2002年在南京师范大学获得自然地理学专业硕士,2005年在南京师范大学获得地图学与地理信息系统专业博士,2009年-2010年在奥地利维也纳大学进行博士后研究,2011年在瑞士洛桑大学进行合作研究,2015年起在中国科学院水利部成都山地灾害与环境研究所进行博士后研究。主编和副主编出版教材和著作4部,发表学术论文近100篇。主要学术贡献为:我国山地约占国土总面积的69.4%,居住人口占全国总人口的1/3以上,山地特有的能量梯度使之成为滑坡等地质灾害的发育区。滑坡等山地灾害早期预警、风险评价与管理、巨型古滑坡灾害恢复重建研究的关键科学问题是我国山区开发与持续发展的重大需求。利用自然地理学、地貌学、遥感与地理信息系统空间分析和光释光、宇生核素等第四纪测年技术,在机器学习等滑坡灾害风险制图模型、土壤前期有效含水量等降雨型滑坡阈值早期预警模型、巨型古滑坡判识模型和活动性等领域进行了研究。并在青藏高原东缘大渡河、青藏高原东北缘西秦岭北缘断裂带内陇南山区与黄河上游循化-贵德地区、三峡库区和连云港市进行实证研究。        
             
      研究项目: 研究项目        
[1].2015 Jiangsu provincial key R & D Program (Social Development) “The key Tech. research for the flood and geohards in city” (BE2015704). 2015-2018.        
[2].The Opening Fund of Key Laboratory of Mountain Surface Process and Hazards of Chinese Academy of Sciences (KLMHESP-17-07) . 2017-2019.        
[3].The European Space Agency (ESA) and Ministry of Science and Technology of China (MOST) Dragon 4 Cooperation Program " Spatio-temporal landslide identification and activity assessment for hazard and risk investigations in Longnan region, Northwest China "(ID: 32365_3). 2016-2020.        
[4].The European Space Agency (ESA) and Ministry of Science and Technology of China (MOST) Dragon 3 Cooperation Program "Landslide identification, movement monitoring and risk assessment over rugged mountain area using advanced earth observation technique"(ID: 10606). 2012-2016        
[5].The France- China égide Project Funding "Estimation of global change impacts on landslide hazards in a dynamic mountain environment".2012.1-2012.12.        
[6].The Sino Swiss Science and Technology Cooperation Program, “Intelligent analysis of environmental data and landslides risk mapping triggered by Wenchuan earthquake” (NO. EG42-032010).2010-2011.        
[7]. The Eurasia-Pacific Uninet Scholarship Program of Post-Doc Scholarships, Landslide Hazard and Risk Management. 2010-2011.        
[8]. The Opening Fund of State Key Laboratory of Geohazard Prevention and Geoenvironment Protection of Chendu University of Technology, China (SKLGP2012K012), 2012-2013        
[9]. National Natural Science Foundation of China, “The comprehensive spatial-temporal prediction study of the landslide hazards in Zhouqu-Wudu section along the Bailong River Basin” (No. 40801212).2008-2011.        
[10].The Opening Fund of State Key Laboratory of Geohazard Prevention and Geoenvironment Protection of Chendu University of Technology, China, “Regional scale landslide risk assessment model research” (No. GZ2007-11). 2008-2011.        
[11].The Opening Fund of State Key Laboratory of Geohazard Prevention and Geoenvironment Protection of Chendu University of Technology, China, “Dating the giant paleo-landslide and spatiotemporal distribution Characteristics in the eastern margin of the Tibetan Plateau, China” (No. GZ2013-10). 2013-2015.        
[12]. The Opening Fund of Key Laboratory for Geo-hazards in Loess area. “Landslide movement monitoring over rugged mountain area using advanced earth observation technique”. (GLA2014005). 2012-2014.        
主要论文        
[1] Liu  G,  Guo HD, Perski Z, Fan J.H.,  Bai SB, Yan SY, Song R, (2016) Monitoring the slope movement of the Shuping landslide in the Three Gorges Reservoir of China, using X-band time series SAR interferometry, Advances in Space Research 57:2487–2495        
[2] Lu P. Bai SB*, Casagli N.(2015) Spatial relationships between landslide occurrences and land cover across the Arno river basin (Italy). Environmental Earth Sciences,5(20):1-17.        
[3]  Bai SB, Lu P*, Wang J .(2015) Landslide susceptibility assessment of the Youfang catchment using logistic regression. Journal of Moutnain Science, 16(6).        
[4] Bai SB, Lu P*, Wang J .(2015) Recent channel changes of the Jiangsu reach of the Yangtze river: an investigation from multi-temporal digital elevation models. J Coast Conserv. 10(9):1-7.        
[5] Lu P. Bai SB*, Casagli N. (2014) Investigating Spatial Patterns of Persistent Scatterer Interferometry Point Targets and Landslide Occurrences in the Arno River Basin. Remote Sens. 6, 6817-6843        
[6] Bai SB, Wang J, Thiebes B, Cheng C, Yang YP. (2014). Analysis of the relationship of landslide occurrence with rainfall: a case study of Wudu County, China. Arabian Journal of Geosciences. 7:1277–1285.        
[7] Bai SB, Wang J, Thiebes B, Cheng C, Chang ZY. (2014). Susceptibility assessments of the Wenchuan earthquake-triggered landslides in Longnan using logistic regression.  Environmental Earth Sciences. 71:731–743        
[8] Bai S.B., Wang J., Zhou P. G. (2013). Pre-conditioning factors and susceptibility assessments of Wencuan earthquake landslide at the Zhouqu segment of Bailongjiang Basin, China. Journal of the Geological Society of India. 11(82):1-8.        
[9] Bai S.B., Cheng C.,Wang J, Thiebes B., Z.G. Zhang. (2013). Regional scale rainfall- and earthquake-triggered landslide susceptibility assessment in Wudu County, China. Journal of Mountain Science. 10(5):743–753.        
[10] Bai S. B., Wang J., Zhang Z,G., Chen C., (2012). Combined landslide susceptibility mapping after WenChuan Earthquake at the Zhouqu segment in the Bailongjiang Basin, China, Catena, 99:18-25.        
[11] Bai S. B., Lu G.N., Wang J., L. Ding, Zhou, P. G. (2011). GIS-based rare events logistic regression for landslide susceptibility mapping of Lianyungang, China. Environmental Earth Sciences. 62:139-149.        
[12] Bai S. B., Wang J., Lu G.N., Zhou, P. G.., Hou, S. S., Xu S.N. (2010). GIS-based and logistic regression for landslide susceptibility mapping of Zhongxian segment in the Three Gorge area, China. Geomorphology. 115: 23-31.        
[13] Bai S. B., Wang J., Lu G.N., Zhou, P. G., Hou, S. S., Xu S.N. (2009). GIS-based and data-driven bivariate landslide susceptibility mapping in the Three Gorges area, China. Pedosphere. 2009, 19(1): 14-20.        
[14] Thiebes B., Wang J., Bai S. B., Li J.B. (2013). Terrestrial laserscanning of tidal flats—a case study in Jiangsu Province, China. Journal of Coastal Conservation. (2013) 17:813–823        
[15] Zhang F. Y., Liu G., Chen W. W, Han W. F., Bai S. B. (2010). Engineering geology and stability of the Jishixia landslide, Yellow River, China. Bulletin of Engineering Geology and the Environment. 69(1):99-103.        
[16] Wang J., Bai C.G., Xu Y. H., Bai S. B. (2010). Tidal Couplet Formation and Preservation, and Criteria for Discriminating Storm-Surge Sedimentation on the Tidal Flats of Central Jiangsu Province, China, Journal of Coastal Research. 26(5): 976-981.        
[17] Wang J, Bai S. B., Liu P. Channel sedimentation and erosion of the Jiangsu reach of the Yangtze River during the last 44 years, Earth Surface Processes and Landforms. 2009, 34 (12): 1587-1593.        
[17] Wang J., Raisbeck G., Xu X. B., Yiou F., Bai S. B., In situ cosmogenic 10Be dating of the Quaternary glaciations in the southern Shaluli Mountain on the Southeastern Tibetan Planeau. Science in China D: Earth Sciences. 2006, 49(12):1291-1298.