EVO视讯官网

姓名： 

许冲 

性别： 

男 

职称： 

研究员 

学位： 

博士 

电话： 

010-62936862 

传真： 

Email： 

xc11111111@126.com 

邮编： 

100085 

地址： 

北京市海淀区安宁庄路1号 

更多信息： 

百度学术：http://xueshu.baidu.com/scholarID/CN-BY74FLXJ 

谷歌学术：http://scholar.google.com/citations?user=sT5gcgEAAAAJ&hl=en 

Researchgate：http://www.researchgate.net/profile/Chong_Xu 

ResearcherID：http://www.researcherid.com/rid/B-6460-2012 

ORCID：http://orcid.org/0000-0002-3956-4925 

LOOP：http://loop.frontiersin.org/people/168603 

SCOPUS ID：http://www.scopus.com/authid/detail.uri?authorId=35184309900 

Semantic Scholar：http://www.semanticscholar.org/author/Chong-Xu/145890137 

Web of Science ResearcherID：http://www.webofscience.com/wos/author/record/424778 

ScholarGPS：http://scholargps.com/scholars/61399694089777/chong-xu 

单位主页：http://www.rayainfo.com/rlzy/rcdw/kzzj/202504/t20250411_544083.html 

简历： 

许冲，男，1982年生，九三学社社员，应急管理部EVO视讯官网研究员，博导，地质灾害研究中心主任，复合链生自然灾害动力学应急管理部重点实验室主任，地质灾害机理与评价学科带头人。中国科协决策咨询专家团队复合链生自然灾害科技战略与防控研究首席专家，教育部高等学校教学指导委员会委员，新疆大学天池英才特聘教授、博导，东华理工大学兼职教授、博导。2010年在中国科研实验室地质与地球物理研究所取得博士学位。从事地震与降雨触发地质灾害基础理论研究与减轻地质灾害风险的应用研究。负责4项国家自然科学基金（国际合作1项、面上2项、青年1项）、1项国防科工局专项课题、1项国家重点研发计划课题、3项国家重点研发计划子课题、多次地震滑坡应急科考等项目。是应急管理中长期科技开展规划（2021-2035年）与“十四五”应急管理科技创新规划主研人员和执笔人，构思设计了“十四五”国家重大科技基础设施“中国地震科学实验场”之地震灾害链观测实验平台，是该建设工程项目立项建议书和可行性研究阶段的负责人，是三峡库区地质灾害防治规划（2026—2035年）突发地质灾害应急救援处置专项规划负责人。指导和培养50名博士、硕士研究生和博士后，包括11名博士生（4名已毕业）、33名硕士生（19名已毕业）、6名博士后（3名已出站）。取得四川省自然科学奖一等奖（第4），省部级科技进步一等奖1项（第11）、二等奖5项（第2、3、4、6、6），一级学会科学技术一等奖2项（第4、4）、二等奖1项（第4）、三等奖2项（第1、3）。入选国家级青年人才、新疆维吾尔自治区“天池英才”特聘教授（新疆大学）、爱思唯尔(Elsevier)2020-2024“中国高被引学者”、2020年以来全球前2%顶尖科学家榜单（World’s Top 2% Scientists）、全球学者库全球顶尖前10万科学家榜单，获AOGS SE Distinguished Lecture奖（2023）、Vebleo科学家奖（2021），国际地质灾害减灾协会（ICGDR）“杰出青年科学家奖”（2019），应急管理部直属机关优秀青年干部标兵（2021年），2018年度中国地震局骨干人才，获中国地质学会“第十五届青年地质科技奖——银锤奖”（2015），第十届李善邦青年优秀地震科技论文三等奖。以地震降雨影响区为天然实验室，在滑坡识别与大数据建设、机理与规律探索、危险性与风险评价等领域取得了系统性成果。发表论文520篇（SCI 325，EI 65，核心120），第一/通讯作者论文320篇（SCI 205，EI 44，核心71），论文总被引用20000多次。授权国家发明专利21项，实用新型专利2项，软件著作权48项。发布和立项8项团体标准（4项第一）。11篇SCI文章为“高被引论文”，6篇第一作者CSCD文章为“科技部领跑5000精品期刊顶尖论文”。出版英文专著和科普图书等9本（第1、1、1、1、2、2、2、3、4）。5份成果报告被中办和国办采纳（3份牵头）。是Springer Nature集团“npj Natural Hazards”期刊（http://www.nature.com/npjnathazards/）主编。是中国、欧洲科学基金会、以色列、智利、哈萨克斯坦、荷兰等国家自然科学基金评审人。为Earth-Science Reviews、Landslides、Geology、Geomorphology、Geophysical Research Letters、地球物理学报、地震地质、工程地质学报、遥感学报等500余个期刊、会议等审稿6000余篇。理论、方法与成果推广到国内外200多个组织，如美国地质调查局、瑞士苏黎世联邦理工学院、中国科学技术大学、四川省交通运输厅、国家电网有限公司、中国南方电网有限责任公司、中国电力科学研究院、中国长江三峡集团有限公司等。根据Research.com平台2025年版（第4版），入选中国顶级（Top）地球科学家排名第138位（http://research.com/scientists-rankings/earth-science/cn），世界排名第2386位（http://research.com/scientists-rankings/earth-science）。 

工作经历： 

2021.10~至今，应急管理部EVO视讯官网，地质灾害研究中心，主任/研究员 

2020.07~2021.10，应急管理部EVO视讯官网（原中国地震局地壳应力研究所），地质灾害研究中心，临时负责人/研究员 

2019.11~2020.07，中国地震局地壳应力研究所，地质灾害研究中心，主任/研究员 

2019.07~2019.11，中国地震局地壳应力研究所，地质灾害研究中心，研究员 

2016.12~2019.06，中国地震局地质研究所，地震区划与工程地震研究室，研究员 

2012.8~2016.12，中国地震局地质研究所，地震区划与工程地震研究室，副研究员 

2013.08~2014.07，台湾大学，客座副研究员 

2012.05~2012.08，中国地震局地质研究所，地震区划与工程地震研究室，助理研究员 

2010.08~2012.05，中国地震局地质研究所，活动构造研究室，博士后，构造地质学 

学习经历： 

2007~2010，中国科研实验室地质与地球物理研究所，博士，地质工程 

2004~2007，西安科技大学，硕士，地质工程 

2000~2004，西安科技大学，学士，地质工程 

社会兼职： 

1) 中国地震学会地震灾害链专业委员会首届主任委员（2021-）

2) 复合链生自然灾害动力学应急管理部重点实验室主任（2021-）

3) 新疆维吾尔自治区“天池英才”特聘教授（2025-2027）

4) 国家科学技术奖励评审专家库专家（2025-）

5) 中国科协科技人才奖项评审专家（2024.1-2029.1），STID：156-O-170-0000264-8

6) 北京市科协人才举荐评审专家（2024年1月-2027年1月），行业领域：地球科学，N241854

7) 中央和国家机关青联第一届委员会委员（2020-）

8) 中国地震学会地震地质专业委员会副主任委员（2016-2020）、委员（2021-2024）

9) 中国地震应急搜救中心科学技术委员会副主任（2024-）

10) 北京市应急管理局专家（2025-）

11) 国家科学技术奖励评审专家（2025-）

12) 中国地质灾害防治与生态修复协会第二届专家委员会地质灾害专业委员会专家（2022-）

13) 中国灾害防御协会第三批专业智库专家（2021-）

14) 雄安新区应急管理局应急管理专家库专家（2022-）

15) 中国水土保持学会滑坡泥石流防治专业委员会第七届委员（2021-2025）

16) 国家重点研发计划“水电工程”重点专项（第一期）总体专家组成员（2025.10-）

17) 中国科协决策咨询专家团队，《复合链生自然灾害科技战略与防控研究》首席专家（2025-）

18) 中国科协决策咨询专家团队，《山地自然灾害与重大工程安全防控》青年研究员（2024-）

19) 中国地质学会地质灾害研究分会委员（2013-2017）

20) 中国地质学会工程地质专业委员会青年工作委员会委员（2016-2020）

21) 中国地震学会青年科技工作委员会委员（2016-2021）（2021-2025）

22) 美国土木工程师协会ASCE (The American Society of Civil Engineers) Member (2021-)

23) Vebleo Committee Member（2021-）

24) 应急管理部宣传教育中心和中国科普研究所共建的应急科普智库专家（2022-2024）

25) 中国科研实验室大学博士研究生导师（2020-）

26) 新疆大学博士研究生导师（2025-）

27) 东华理工大学兼职博士研究生导师（2025-）

28) 中国地质大学（北京）兼职教授（J20240004），博士生导师，2024.6.6-2029.6.5

29) Springer Nature “npj Natural Hazards” Editor-in-Chief（2024-）

30) “Natural Hazards Research” Associate Editor（2020-）

31) “Natural Hazards” Associate Editor（2024-）

32) “Frontiers in Earth Science” (specialty section Geohazards and Georisks) Associate Editor（2020-2021）

33) “Geoenvironmental Disasters” Associate Editor-in-Chief（2020-2022）

34) “Innovation Discovery” Section Editor-in-Chief（2023-），Section: Earth Science

35) “Natural Hazards Review” Associate Editor（2021-）

36) “Earthquake Research Advances” Associate Editor（2021-）

37) “Geodata and AI” Editorial Board Member（2025-）

38) “Landslides” Editor（2023-2024）

39) 《震灾防御技术》副主编（2025-）

40) Special issue编辑：Climate Change–Driven Floods and Debris Flow Cascades in <Journal of Flood Risk Management>, (http://onlinelibrary.wiley.com/page/journal/1753318x/call-for-papers/si-2026-000254), 2026年3月

41) Topics (Earth, Geomatics, Geosciences, ISPRS International Journal of Geo-Information, Remote Sensing): Remote Sensing and GIS for Geomorphology and Tectonic Studies in MDPI, (http://www.mdpi.com/topics/552Q00RZ40)

42) Research Topic编辑：Prevention, Mitigation, and Relief of Compound and Chained Natural Hazards, volume III in <Frontiers in Earth Science>, (http://www.frontiersin.org/research-topics/69295/prevention-mitigation-and-relief-of-compound-and-chained-natural-hazards-volume-iii)

43) Special issue编辑：Advances in AI-Driven Remote Sensing for Geohazard Perception in < Remote Sensing>, ( http://www.mdpi.com/journal/remotesensing/special_issues/WM35RWOL60)

44) Special issue编辑：Early Warning Systems and Real-Time Monitoring for Geohazards by Remote Sensing Techniques in < Remote Sensing>, (http://www.mdpi.com/journal/remotesensing/special_issues/5Q18CT8W95)

45) 专刊编辑：《震灾防御技术》，“地震地质灾害链成因机制与防控技术”

46) 专刊编辑：《中国地质灾害与防治学报》2025年第5期，“气候变化与地质灾害的关联及新技术应用”专辑, (http://www.zgdzzhyfzxb.com//fileZGDZZHYFZXB/news/zgdzzhyfzxb/42ffb154-d82b-45d6-81bb-3365bd281ca9.pdf)

47) 专刊编辑：《清华大学学报（自然科学版）》，“电网灾害应急科学”专刊，编辑团队：刘前卫、陆佳政、谢强、朱宽军、李军辉、李林、钟茂华、梁昊光、丁一、朱伟、吴建松、许冲、黄冬梅、楼国彪、何成、周辉、罗娜、赵斌滨、张宏杰、姬昆鹏、杨知、李孟轩、刘畅

48) Collection: Wildfire Hazards in a Warming World: Challenges and Innovations in <npj Natural Hazards>, (http://www.nature.com/collections/dbhfbfejff)

49) Collection: Advancing Tsunami Science and Risk Mitigation: From Mechanisms to Resilience in <npj Natural Hazards>, (http://www.nature.com/collections/hchcheidbf)

50) Collection: Applications of Advanced Technologies in Geological Hazards in <npj Natural Hazards>, (http://www.nature.com/collections/faccjcjbdb)

51) Topic Guest Editor: Application of Remote Sensing, GIS, and AI in Disaster Reduction in <Disaster Prevention and Resilience>, (http://www.oaepublish.com/specials/dpr.2026)

52) Research Topic编辑：Prevention, Mitigation, and Relief of Compound and Chained Natural Hazards Volume II in <Frontiers in Earth Science>, (http://www.frontiersin.org/research-topics/64578/prevention-mitigation-and-relief-of-compound-and-chained-natural-hazards-volume-ii)

53) Special issue编辑：高新技术在地震与地质灾害领域的应用研究，<地质科技通报>，(http://dzkjqb.cug.edu.cn/news/zhuanjizhenggao/5a20b92e-4053-40dd-b69f-32ac4809b070.htm)

54) Special issue编辑：Establishment and application of natural hazards database based on remote sensing and GIS in <Transactions in GIS>, (http://onlinelibrary.wiley.com/doi/toc/10.1111/(ISSN)1467-9671.hazards-remote-sensing-GIS)

55) Topics (Geosciences, Land, Remote Sensing, Water)编辑：Landslides and Natural Resources, (http://www.mdpi.com/topics/I804Q4K0K0)

56) Topics (Big Data and Cognitive Computing, Data, Environments, Geosciences, Remote Sensing)编辑：Database, Mechanism and Risk Assessment of Slope Geologic Hazards, (http://www.mdpi.com/topics/4L009TU3OV)

57) Research Topic编辑：Prevention, mitigation, and relief of compound and chained natural hazards in <Frontiers in Earth Science>, (http://www.frontiersin.org/research-topics/54434/prevention-mitigation-and-relief-of-compound-and-chained-natural-hazards)

58) Special Issue编辑：Application of Artificial Intelligence in Earth Sciences in <Modern Intelligent Times>, (http://www.innovationforever.com/news/si/63)

59) Special Issue编辑：Rockfall Hazard Analysis Using Remote Sensing Techniques in <Remote Sensing>, (http://www.mdpi.com/journal/remotesensing/special_issues/8RF9YOEM0D)

60) Special Issue编辑：Earthquake Engineering Technology and Its Application in <Sustainability>, (http://www.mdpi.com/journal/sustainability/special_issues/Earthquake_Engineering_Technology)

61) Special Issue编辑：Geological Hazards and Risk Management in <Sustainability>, (http://www.mdpi.com/journal/sustainability/special_issues/geological_hazards_and_risk_management)

62) Special Issue编辑：Landslides in Forests around the World: Causes and Solution in <Forests>, (http://www.mdpi.com/journal/forests/special_issues/forests_landslides)

63) Special Issue编辑：Landslides in Forests around the World: Causes and Solution—Series II in <Forests>, (http://www.mdpi.com/journal/forests/special_issues/L2T3GDD7BN)

64) Research Topic编辑：Application of remote sensing and GIS in earthquake-triggered landslides in <Frontiers in Earth Science>, (http://www.frontiersin.org/research-topics/14474/application-of-remote-sensing-and-gis-in-earthquake-triggered-landslides) 

65) Research Topic编辑：Environmental Change Driven by Climatic Change, Tectonism and Landslide in <Frontiers in Earth Science>, (http://www.frontiersin.org/research-topics/29151/environmental-change-driven-by-climatic-change-tectonism-and-landslide)

66) Special issue编辑：Application of novel high-tech methods to geological hazard research in <Advances in Civil Engineering>, (http://www.hindawi.com/journals/ace/si/919243/) 

67) Special issue编辑：Earthquake-induced landslides in <Earthquake Research in China>, (http://doi.org/10.19743/j.cnki.0891-4176.202001011) 

68) Special issue编辑Guest Associate Editor：Geo-disasters in <Journal of Earth Science>, (http://link.springer.com/journal/12583/volumes-and-issues/32-5)

69) Special issue编辑：Loess landslides in <Earthquake Research in China>, (http://doi.org/10.19743/j.cnki.0891-4176.202004002)

70) 专刊主编：《水利水电技术（中英文）》“气候变化、极端天气与复合型灾害应对”

71) Special issue编辑：气候变化与灾害，<安全>

72) Special issue编辑：地震和地质灾害，<华南地震、地震研究、防灾减灾工程学报、地震地磁观测与研究、ERC五刊联合>

73) Special issue编辑：地质灾害与减灾 <Natural Hazards Research>

74) Special issue编辑：自然灾害与应急响应 <Natural Hazards Research>

75) Special issue编辑：黄土高原暨黄河流域地质灾害研究新进展 < Natural Hazards Research>

76) 专刊编辑：地球科学“川藏铁路基础地球科学问题与灾害防控”(http://www.earth-science.net/article/2022/3)

77) 联合国教科文组织（地质环境灾害减灾）教席客座教授（2018-2020）

78) 国际地质灾害与减灾协会（ICGdR）终身理事/会员（No. L026），2021.4.15

79) 国际工程地质与环境协会会员（IAEG-CN-NO.313）

80) 亚洲大洋洲地球科学学会（AOGS）会员（16A792）

81) 国际数字地球学会终身会员（A450105398M）

82) 中国水土保持学会终身会员（C120110200M）

83) 中国灾害防御协会会员（052202502166）

84) 中国科普作家协会会员（P020004142M）

85) 中国地质学会会员（S1017040724M）

86) 中国地震学会会员（S171100914S）

87) 中国地球物理学会会员（S120107992M）

88) 中国岩石力学与工程学会会员（S339014522S）

89) 中国土木工程学会会员（B43010003811A）

研究方向： 

  主要从事地震滑坡、遥感滑坡、地震地质灾害、气象地质灾害、工程地质、活动构造、地理信息系统等方面的研究。 

学科类别： 

  地质灾害、工程地质、地震地质、自然灾害。 

负责和参与科研项目情况： 

[1] EVO视讯官网基本科研业务费重点项目（编号：ZDJ2025-54），三峡库区库水位变动和降雨耦合作用下滑坡机制研究和预警模型研发，2025/1/1-2026/12/31，负责，100万元

[2] 特高压输电线路典型地区地质灾害概率风险评估研究项目（8925LH01-ZF60），企业，国家电网英大长安保险经纪有限公司委托项目，285万元，2025年6月-2026年5月

[3] 重点地区地质灾害预测预警，企业，2025.4-2025.9.30，100万元。

[4] 国家重点研发计划课题：降雨型群发滑坡时空多尺度风险区划与韧性评价技术（2024YFC3012604），159.47万元。2025.1-2027.12，负责人。

[5] 重庆市水利局“三峡库区消落区岩体劣化灾害监测预警技术方法研究”（CQS24C00836），横向-重庆市水利局项目，2024.11.18-2025.10.31，272万。

[6] 西南地区重特大地震引发地质灾害造成人员伤亡快速评估方法研究，横向-地震和地质灾害救援司项目（横向），2024-2024，18，高会然

[7] 地震群发滑坡灾害风险评估与应急响应关键技术研发（2024EMST030302）（经费全自筹） 纵向-应急管理部重点科技计划（经费全自筹），2024.6-2026.5，0（332为全自筹）

[8] 《国家自然灾害救助应急预案》宣贯相关政策研究及基层救助应急预案编制指导服务，横向-应急管理部救灾和物资保障司委托项目，2024-2024，15.5，许冲

[9] 国家电网项目（课题）：“暴雨-洪涝-泥石流”灾害链的风险监测及其与电网事故的时空关联研究，2024.1-2025.12，主研人员，40万/140万元

[10] 北京市科技计划项目（课题，Z231100003823035）：基于人工智能的地震地质灾害风险评估与预警模型研究，参与，2023年12月-2025年11月，50万元

[11] 南方电网科学研究院有限责任公司：《电网地质灾害历史数据库构建及维护》，2024.1-2025.6.30，139万元，CG1500062001647685-001，负责

[12] 南方电网科学研究院有限责任公司：《基于条件事件的电网地质灾害概率预测技术研究》，2024.1.1-2025.9.30，CG1500062001634723-001，149万，负责

[13] 国家电网项目（课题）：强降水条件下输电线路地质灾害气象风险多时空尺度预测技术研究，2024.1-2026.12，120万元，参与

[14] EVO视讯官网基本科研业务费（科技创新团队，2023-JBKY-57）：地震降雨地质灾害链机理与评估，2023-2025，负责，120万元

[15] 第六批国家高层次人才特殊支持计划青年拔尖人才项目，2022-2024，120万元

[16] 国家重点研发计划子课题（2021YFB2301401-03），川藏铁路地震灾害风险评估和区划，2021-2024，130万元

[17] EVO视讯官网基本科研业务费（ZDJ2021-14）：地震地质灾害风险评估方法与应用，2021.1-2022.12，负责，150万元

[18] 中国长江三峡集团有限公司委托项目（WWKY-2021-0421），基于深度学习的乌东德库区边坡地震危险性快速评价方法，2021-2023，负责，67万元

[19] EVO视讯官网基本科研业务费（ZDJ2021-12）：地震-滑坡灾害链风险区划方法与示范，2021-2023，参与，150万元

[20] 国家自然科学基金面上项目（42077259）：基于完整长时序同震滑坡大数据和深度学习的地震滑坡真实概率评价和预警模型研究，2021.01-2024.12，负责，57万元

[21] 国防科工局“十四五”专项项目课题，******评估模型与应急救援策略研究（KJSP2020020303），2021.01-2023.12，负责，175万元

[22] 国家自然科学基金国际合作项目（41661144037）：2015年尼泊尔主震、强余震与震后强降雨诱发滑坡继发性规律研究，2017.01-2019.12，负责，200万元

[23] 国家自然科学基金面上项目（41472202）：利用同震滑坡空间分布样式判识发震断层的研究，2015.01~2018.12，负责，80万元

[24] 国家自然科学基金青年科学基金项目（41202235）：区域地震滑坡体积计算模型研究及应用，2013.01-2015.12，负责，25万元

[25] 陕西省地震局，宝鸡滑坡数据收集分析及配套服务，12万元，2022年5月-2022年6月

[26] 国家野外科学观测站（中国地震局地质研究所西藏拉萨地球物理国家野外科学观测研究站）开放基金项目：2021.05-2023.04，考虑时间的地震与触发滑坡概率评价模型研究：以川藏铁路拉萨-林芝段为例，10万元。

[27] 应急管理部项目，“十四五”应急管理科技创新规划编制，2020.7-2020.12，主研人员

[28] 应急管理部项目，应急管理科技开展规划编制与政策制度研究，2019.7-2019.12，主研人员

[29] 应急管理部项目，应急管理重点科技需求凝练研究，2019.7-2019.12，主研人员

[30] 国家自然科学基金川藏铁路重大基础科学问题项目专题，青藏高原东南部深浅物质结构、构造变形与动力学过程：川藏铁路廊道及邻区近断层地震地质灾害预测（41941016-04D），2020.01-2023.12，负责

[31] 中国地震局地壳应力研究所所长基金，基于卫星实时通信的航空遥感平台在地质灾害应急响应中的应用研究（ZDJ2020-10），2020.01-2021.12，负责

[32] 中国地震局地壳应力研究所所长基金重点项目，考虑级联破裂的川藏铁路沿线地震危险性模型、地震动与地震地质灾害（ZDJ2020-14），2020.01-2023.12，参与

[33] 凉山州（含攀枝花地区）1:25万活动断层普查项目（专题七）：凉山州（含攀枝花地区）活动断层危害性评估及对策，2020.01-2022.06，负责

[34] 全国地震次生地质灾害概率分布，“2021-2030年中国大陆地震重防区确定”，2020.01-2020.12，负责

[35] 中国地震局地壳应力研究所所长基金，地震次生地质灾害发生概率研究（ZDJ2019-25），60万元，2019.01-2020.12，负责

[36] 中国地震局地震预测研究所委托项目，地震次生地质灾害发生概率技术研究（预研究），2019.01-2019.12，负责

[37] 中国地震局地震滑坡监测标准调研，地震地质灾害监测预警相关标准研究，2019.01-2019.12，负责

[38] 中国地震局地质研究所所长基金重点项目（IGCEA1604），典型山区地震滑坡评估技术及危险性区划研究，2016.06-2020.05，参与

[39] 中国地震局地质研究所所长基金重点项目（IGCEA1901），2018年印尼帕鲁Mw7.5地震发震构造及其独特震害特征研究，2019.04-2022.12，参与

[40] 国家重点研发计划子课题：断裂不同活动方式下的地震地质灾害效应及成灾模式的研究（2017YFC1501001-1），2018.01-2021.12，负责，70万元

[41] 国家重点研发计划子课题：重特大地质灾害遥感监测与评估应用示范（2017YFB0504104-2），2017.07-2021.06，负责，95万元

[42] 阿坝州(含盆地地区)1:25万活动断层普查项目（专题七）：阿坝州(含盆地地区)主要断裂危害性评估及对策，2019.05-2022.06，专题负责

[43] 云南保山市地震灾害情景构建及示范（2017QJGJ05-03），2017.01~2018.05，负责

[44] 国家自然科学基金面上项目（41472264），煤系地层软岩的流变与长距离快速剪切特性及对高速远程滑坡启动的影响，2015.01~2018.12，参与

[45] 中国地震局“云南鲁甸6.5级地震专题研究”项目，鲁甸地震昭通-莲峰断裂带与震区北西向断裂活动性鉴定，2014.09~2015.12，子课题负责。

[46] 国土资源部黄土地质灾害重点实验室开放基金，2013年定西地震触发黄土滑坡空间分布样式与危险性评价（KLGLAMLR2014003），2014.01~2015.12，项目负责人。

[47] 中国地震局，2013年“4.20”芦山地震科考项目，芦山地震发震构造调查和探测，2013.05~2013.12，子课题负责

[48] 中国地震局地质研究所基本科研业务专项（IGCEA1302）：俯冲带地区压扭断裂型地震触发滑坡研究，2013.01~2015.12，负责

[49] 国家自然科学基金重大研究计划项目（91214201），华北克拉通破坏区最新构造变动起始时间及其变形样式，2013.01~2016.12，参与

获奖及荣誉： 

[1] 《地质力学学报》2025年度优秀编委，2026年1月

[2] 2025年度灾害防御科学技术奖——科技进步奖一等奖（第4），极端强降雨诱发公路路基水毁感知预警与增韧防控关键技术及应用，中国灾害防御协会，KJJB-R-？-？-？？？，2026.2.10

[3] 2025年度《中国地质(英文)》（China Geology）优秀论文（CG2025-003），Automated machine learning for rainfall-induced landslide hazard mapping in Luhe County of Guangdong Province, China，李涛，谢晨晨，许冲，齐文文，黄远东，李磊，2026.2.10

[4] 2025年度《中国地质(英文)》（China Geology）优秀论文（CG2025-007），Exploring deep learning for landslide mapping: A comprehensive review，杨志强，齐文文，许冲，邵霄怡，2026.2.10

[5] 2025年度《中国地质(英文)》（China Geology）优秀审稿人（CG2025-033），2026.2.10

[6] 爱思唯尔(Elsevier)2025“中国高被引学者”(2025 Most Cited Chinese Researchers)，2025.2.1

[7] 2025年中国地震局防震减灾科研成果奖一等奖，许冲，R11，中国大陆地震重点监视防御区及应用，202501-G11，2025.7.10

[8] 入选全球前2%顶尖科学家榜单2024（World’s Top 2% Scientists 2024），职业生涯和最近一年影响，Version 7，斯坦福大学，2025.09.19

[9] 《中国地质灾害与防治学报》突出贡献编委，2026年1月8日

[10] 《清华大学学报（自然科学版）》优秀审稿人，2025.12

[11] 《遥感学报》优秀审稿专家，2026.01

[12] 《水文地质工程地质》“2025年度优秀审稿专家”，2025年12月31日

[13] 《中国地质灾害与防治学报》“2025年度优秀审稿专家”，2025年12月31日

[14] 《地质科技通报》2025年度优秀编委，2025年12月

[15] 2024年度《地质通报》优秀审稿人，2025.6.6

[16] 2025年度南网科研院（南方电网科学研究院有限责任公司）创新奖励科技进步奖二等奖，电力设施地质灾害风险防控技术研究及应用，R2

[17] 2024年度《中国地质(英文)》（China Geology）优秀审稿人（CG2024-037），2025.5.20

[18] 2025中国知网高被引学者TOP1%，作者编号：0000002033108776；证书编号：CHIS2025121948446，2025.12.12

[19] 2024中国知网高被引学者TOP1%，作者编号：0000002033108776；证书编号：CHIS2025051528325，《中国学术期刊（光盘版）》电子杂志社有限公司、中国科学文献计量评价研究中心，2025.5.15

[20] International Journal of Disaster Risk Science, 2024 Top 10 Outstanding Reviewers, Chong Xu, 2025.2.27

[21] 中国科研实验室大学2024年校级“研究生优秀课程”，《地震链生灾害理论与综合减灾技术》（应急管理科学与工程学院），中国科研实验室大学，2025.3.11，2025SYK018

[22] 爱思唯尔(Elsevier)2024“中国高被引学者”(2024 Most Cited Chinese Researchers)，2025.3.25

[23] 地质科技通报优秀编委，2025年1月

[24] 入选全球前2%顶尖科学家榜单2023（World’s Top 2% Scientists 2023），职业生涯和最近一年影响，Version 7，斯坦福大学，2024.09.16

[25] 2023年度灾害防御科学技术奖——科技进步奖三等奖（第1），地震地质灾害链机理与风险评估，中国灾害防御协会，KJJB-R-092-260-2024，2024.5.21

[26] 爱思唯尔(Elsevier)2023“中国高被引学者”(2023 Most Cited Chinese Researchers)，2024.3.27

[27] 九三学社海淀区委2023年度优秀社员，九三学社北京市海淀区委员会，2024.1

[28] 地质科技通报优秀编委、审稿贡献奖，2024年2月

[29] 2023年度贵州省科学技术进步二等奖（第4），降雨诱发山地滑坡灾害多尺度动态智能风险防控关键技术及应用，2023J-2-12-R4，2024.4

[30] AOGS SE Distinguished Lecture（固体地球科学杰出科学讲座奖），2023.07.31

[31] 2022年度灾害防御科学技术奖——青年科学奖，中国灾害防御协会，QNKX-006-006-2023，2023.05

[32] 入选全球学者库“全球顶尖前10万科学家”榜单，2023.12.01

[33] Natural Hazards Research Best Paper Award for 2021, 2023.10.24 (Ma S, Shao X, Xu C*, He X, Zhang P (2021) MAT.TRIGRS (V1.0): A new open-source tool for predicting spatiotemporal distribution of rainfall-induced landslides. Natural Hazards Research, 1(4): 161-170)

[34] Natural Hazards Research Best Paper Award for 2021, 2023.10.24 (Qi W, Xu C*, Xu X (2021) AutoGluon: A revolutionary framework for landslide hazard analysis. Natural Hazards Research, 1(3): 103-108)

[35] Natural Hazards Research Best Paper Award for 2021, 2023.10.24 (Xu X, Xu C (2021) Natural Hazards Research: An eternal subject of human survival and development. Natural Hazards Research, 1(1): 1-3)

[36] Natural Hazards Research Best Paper Award for 2022, 2023.10.24 (Li L, Xu C*, Yao X, Shao B, Ouyang J, Zhang Z, Huang Y (2022) Large-scale landslides around the reservoir area of Baihetan hydropower station in Southwest China: Analysis of the spatial distribution. Natural Hazards Research, 2(3): 218-229)

[37] Natural Hazards Research Best Paper Award for 2022, 2023.10.24 (Zhang X, Li L, Xu C* (2022) Large-scale landslide inventory and their mobility in Lvliang City, Shanxi Province, China. Natural Hazards Research, 2(2): 111-120)

[38] Natural Hazards Research Best Paper Award for 2022, 2023.10.24 (Shao X, Xu C* (2022) Earthquake-induced landslides susceptibility assessment: A review of the state-of-the-art. Natural Hazards Research, 2(3): 172-182)

[39] Natural Hazards Research Best Paper Award for 2022, 2023.10.24 (Wu X, Xu C*, Xu X, Chen G, Zhu A, Zhang L, Yu G, Du K (2022) A Web-GIS hazards information system of the 2008 Wenchuan Earthquake in China. Natural Hazards Research, 2(3): 210-217)

[40] Natural Hazards Research Best Paper Award for 2022, 2023.10.24 (Huang Y, Xu C*, Zhang X, Li L (2022) Bibliometric analysis of landslide research based on the WOS database. Natural Hazards Research, 2(2): 49-61)

[41] ICGDR Geoenvironmental Disasters Best Paper Award for 2023, 2024.7.23 (Xiao Z, Xu C*, Huang Y, He X, Shao X, Chen Z, Xie C, Li T, Xu X (2023) Analysis of spatial distribution of landslides triggered by the Ms 6.8 Luding earthquake in China on September 5, 2022. Geoenvironmental Disasters, 10: 3)

[42] Journal of Mountain Science, Outstanding Contribution as Board Member 2022, XU Chong

[43] Earthquake Research Advances, Outstanding Service Awards 2022, Chong Xu

[44] Earthquake Research Advances, 2023 Outstanding Associate Editor Awards, Chong Xu

[45] Earthquake Research Advances 2023年度优秀论文奖，An open-accessed inventory of landslides triggered by the MS 6.8 Luding earthquake, China on September 5, 2022

[46] 入选Best Rising Stars of Science in China 2023 Ranking（2023年中国科学新星排行榜），http://research.com/scientists-rankings/rising-stars，第二版，中国第205名，全球第519名，2023.12.14

[47] 入选Best Rising Stars of Science in the World 2024 Ranking（2024年中国科学新星排行榜），http://research.com/scientists-rankings/rising-stars，第三版，中国第208名，全球第548名，2025.5.16

[48] 入选Research.com平台2023年版（第1版），中国顶级（Top）地球科学家排名第160位（http://research.com/scientists-rankings/earth-science/cn），世界排名第3479位（http://research.com/scientists-rankings/earth-science），2023.04.20

[49] 入选Best Earth Science Scientists in China第2版，http://research.com/scientists-rankings/earth-science，中国第161名，全球第3479名，2023.12.14

[50] 入选Best Earth Science Scientists in China第3版，http://research.com/scientists-rankings/earth-science，中国第166名，全球第3485名，2024.9.18

[51] 入选Best Earth Science Scientists in China第4版，http://research.com/scientists-rankings/earth-science，中国第138名，全球第2386名，2025.5.16

[52] 入选全球前2%顶尖科学家榜单2023（World’s Top 2% Scientists 2023），职业生涯和最近一年影响，Version 6，斯坦福大学，2023.10.04

[53] 入选全球前2%顶尖科学家榜单2022（World’s Top 2% Scientists 2022），职业生涯和最近一年影响，Version 5，斯坦福大学，2022.11.03

[54] 入选全球前2%顶尖科学家榜单2022（World’s Top 2% Scientists 2022），职业生涯和最近一年影响，Version 4，斯坦福大学，2022.10.10

[55] 入选全球前2%顶尖科学家榜单2021（World’s Top 2% Scientists 2021），最近一年影响，Version 3，斯坦福大学，2021.10.20

[56] 入选全球前2%顶尖科学家榜单2020（World’s Top 2% Scientists 2020），最近一年影响，Version 2，斯坦福大学，2020.10.08

[57] 入选全球前2%顶尖科学家榜单2019（World’s Top 2% Scientists 2019），最近一年影响，Version 1，斯坦福大学，2019.07.07

[58] 入选爱思唯尔(Elsevier)2022“中国高被引学者”(2022 Most Cited Chinese Researchers)榜单，2023.3.28

[59] “Bulletin of Engineering Geology and the Environment” Top Reviewer Recognition awarded September 2023, 2023.09

[60] 2022 - Research.com Rising Star of Science Award, http://research.com/u/chong-xu

[61] 入选爱思唯尔(Elsevier)2021“中国高被引学者”(2021 Most Cited Chinese Researchers)榜单，2022.4.14

[62] 独著论文《环境地球科学之滑坡地震地质学》入选第十六届“北京青年优秀科技论文”（《工程地质学报》2018年第26卷第1期）。北京市科学技术协会，2022年1月

[63] 应急管理部EVO视讯官网2021年度突出贡献个人

[64] 入选全球学者库“全球顶尖前10万科学家”榜单，2021.10.24

[65] 第六批国家高层次人才特殊支持计划青年拔尖人才，2021.12

[66] 2021年度四川省自然科学奖一等奖（第4），强震地质灾害链生演化机制与风险预测，编号：2021-Z-1-02-R04，2022.3

[67] 中国地震局2021年防震减灾科学成果二等奖（第2），地震诱发富水类土质高边坡滑塌应急评价与韧性消能防治关键技术，编号：202119-G2，2021.7

[68] 2022年度贵州省科学技术进步二等奖（第6），富水高边坡地震灾害应急评价与韧性消能防治关键技术，2023.4

[69] 中国职业安全健康协会科学技术奖，尾矿制备的绿色高性能材料在非饱和边坡抗震加固中的应用及产业化（第4），一等奖，2020-1-18-04，2021年3月

[70] 2020年度绿色矿山科学技术奖，地震作用下尾矿坝抗液化的绿色高性能加固材料研究及产业化应用（第4），科技进步二等奖，编号：LKJ-P-2020-2-054-2-004，中关村绿色矿山产业联盟，2021.5.1

[71] 2020年冶金矿山科学技术奖（第3），尾矿坝地震液化流滑行为及匹配的绿色高性能加固材料关键技术（YJKS2059），三等奖，编号：YJKS2059，中国钢铁工业协会、中国金属学会创办，2020.12.23

[72] 应急管理部直属机关优秀青年干部标兵（2021年），共10名，2021.6

[73] Vebleo国际科学组织的Vebleo科学家奖（Vebleo Scientist Award），2021.4.29

[74] 入选爱思唯尔(Elsevier)2020“中国高被引学者”(2020 Most Cited Chinese Researchers)榜单，2021.4.22

[75] “申请独立招收博士后工作组”（排第一）荣获“应急管理部EVO视讯官网2020年度突出贡献集体奖”

[76] 地质灾害研究中心荣获“应急管理部EVO视讯官网2020年度特殊贡献集体奖”（中心主任）

[77] 国际地质灾害减灾协会（ICGDR）“杰出青年科学家奖”（2019），2019.8.20

[78] 2019年陈宗器地球物理优秀论文奖（6/11）。徐锡伟、陈桂华、王启欣、陈立春、任治坤、许冲、魏占玉、鲁人齐、谭锡斌、董绍鹏、石峰。中国地球物理学会。九寨沟地震发震断层属性及青藏高原东南缘现今应变状态讨论

[79] 2023年度《武汉大学学报（信息科学版）》优秀审稿专家

[80] 2023年度“Journal of Earth Science”、《地球科学》优秀审稿人，2024.1

[81] 2023年度“Journal of Earth Science”优秀作者

[82] 2017、2019、2021年工程地质学报优秀审稿专家

[83] 2018年度中国地震局领军人才、骨干人才、青年人才和创新团队之骨干人才，2019.3.4

[84] 2015年获中国地质学会“第十五届青年地质科技奖——银锤奖”，中国地质学会，2015.12.8

[85] 第十届李善邦青年优秀地震科技论文奖三等奖，Database and spatial distribution of landslides triggered by the Lushan, China Mw 6.6 earthquake of 20 April 2013，2017年10月，中国地震学会

[86] 中国地质学会2017年学术年会优秀论文奖，2017年8月8日四川九寨沟Mw6.5级地震触发滑坡，中国地质学会，2017.10.11

[87] 中国地震局2018年防震减灾科技成果二等奖（第6），青藏高原地震地表破裂习性、发震构造模型与灾害效应，编号：G201805-06，2019.2.22

[88] 中国地震局2015年防震减灾科技成果二等奖（第3），潜在地震滑坡危险区域预测模型研究与系统研制，编号：G201505-03，2015.12.18

[89] 新疆维吾尔自治区地震局2017年度防震减灾科技成果奖二等奖（第9），“2012年6月30日新疆新源—和静6.6级地震科学考察”

[90] 中国地震局地质研究所2012年度优秀科研奖

[91] 中国地震局地质研究所2016年度优秀科研奖

[92] 中国地震局地质研究所2017年度优秀科研奖

学术论文： 

（2026年）

[1] 刘磊磊, 段灿, 许冲, 邬忠虎 (2026) 融合物理机制的负样本优化策略与地震滑坡易发性评价. 地球科学,

[2] Yang Q, He X*, Xu C, Huang Y, Zhao Y, Ma Y, Ji W (2026) Research Hotspots and Evolutionary Trends of Earthquake-Induced Landslides: A Bibliometric Analysis Based on Web of Science. Natural Hazards Review,

[3] Xie C, Xu C*, Xu X, Huang Y, Li Y, Chen K, Wu S (2026) A Systematic Assessment of Regional Landslide Risk Under Typhoon Rainfall: A Case Study of Taishun, Zhejiang, China in September 2016. Scientific Reports,

[4] Yang Y, Xu C*, Yang Q, Xu X, Huang Y, Dong H (2026) Application and Technological Evolution of GNSS in Natural Hazard Research: A Comprehensive Analysis Based on a Hybrid Review Approach. Remote Sensing,

[5] Xie C, Xu C*, Xu X, Huang Y, Gao H (2026) Application of model optimization methods in landslide assessment: A review. China Geology,

[6] Jin J, Xue Z, Xu C*, Li L, Feng L, Yang Z, Xu X, Wang J, Sun Q, Zhang Z, Zhu D, Li H, Gong B (2026) From rainfall to absolute landslide probability: a machine learning-based approach. Natural Hazards Review,

[7] Liu H, Xu C*, Wang P, Li T, Chen J, Dai K, Li L, Li K (3000) Landslide Inventory, Spatial Distribution Characteristics and Development Patterns in the Henan Section of the Qinghai–Henan UHV Transmission Corridor. China Geology,

[8] Liu H, Wang Y*, Xu C*, Song Q, Xu H, Liu Z, Yang Y (2026) Potential recognition of flash flood disasters in China’s southwestern mountainous areas considering source supply conditions. npj Natural Hazards,

[9] Xue Z, Xu C*, Xie Y, Nie X, Li X, Xiao Z, Xu X, Zhang Z, Zhu D, Gong B, Zhang H (2026) Inventory of landslides triggered by heavy rainfall in Fuling District, Chongqing, China, June 2019. Geoscience Data Journal, 13(2): e70062.

[10] Ma R, Xu C*, Jin J, Xu X (2026) Tracking advances in landslide numerical simulation: A comprehensive bibliometric study. Environmental Earth Sciences, 85(5): 126.

[11] Xie C, Huang Y, Xu C*, Dai K, Xu X (2026) Over 100,000 Landslides Triggered by Typhoon-Induced Rainfall in North China in July 2023. Landslides,

[12] Wu S, Xu C*, Xue Z, Huang Y, Xu G, Cui Y, Ma J, Ma R, Xie C (2026) Beyond structured knowledge: performance boundaries of ChatGPT in geological-hazard question answering and the need for human-in-the-loop oversight. Frontiers in Earth Science, 13(Article 1695920): 13 pages.

[13] Ma X, Cui Y*, Xu C, Miao H, Hu W, Zheng J (2026) Database development and geometric characterization of the shallow landslides triggered bythe 16 June 2024 extreme rainfall event in Meizhou, Guangdong (China). Landslides, 23(4): 1019-1033.

[14] Huang Y, Xu C*, Shao X, He X, Xiao Z, Xu X, Xie Y, Nie X, Li X (2026) Landslide assessment research in the three gorges reservoir area: A review of methodological advances and future directions. Bulletin of Engineering Geology and the Environment, 85(2): 94.

[15] Ma S, Shao X, Sun J, Xu C* (2025) Distribution characteristics of coseismic landslides induced by the 2017 Jiuzhaigou earthquake: Insights from updated inventory and fault rupture process. Journal of Earth Science,

[16] 张志强, 谢晨晨, 许冲, 高会然, 朱登杰, 龚博, 张厚荣 (2026) 基于自动机器学习优化随机森林的中国南方地区地质灾害易发性评估. 震灾防御技术,

[17] 许冲 (2026) 中国地震科学实验场地震灾害链观测实验平台的构思与设计：观测—实验—模拟—预警一体化框架. 震灾防御技术,

[18] 许冲, 冯炜翔 (2026) 2025年尼泊尔雨季灾害的灾情剖析、原因探究与启示. 中国应急管理,

[19] Xie C, Shi H, Xu C*, Xu X, Gao M (2026) Comparative Landslide Resilience Assessment of the Beijing-Guangzhou Railway in South China Using Real Probability and Automated Machine Learning. Frontiers of Earth Science,

[20] Huang Y, Xu C*, Liu Y, Xie C, He X, Xu X, Shao X, Zhao B, Kong X (2025) Quantifying mobility mechanisms of rainfall-induced shallow landslides: A SHAP-driven analysis of the April 2024 rainstorm in Shaoguan, Guangdong, China. Journal of Earth Science,

[21] Ma S, Shao X, Yuan R, Xu C* (2025) Interpretable susceptibility assessment of coseismic landslides using a Superposable Neural Network. Journal of Rock Mechanics and Geotechnical Engineering,

[22] Xiao Z, Xu C*, Cui Y, Li L, Wang P, Huang Y, Chen Z, He X, Gao H, Qi W (3000) Construction of landslide relics inventory and analysis of its spatial distribution characteristics in Nyingchi, China. Frontiers of Earth Science,

[23] Xie C, Xu C*, Xu X, Huang Y, Zhang Z, Li H, Zhang H, Zhu D (2025) Comprehensive analysis and assessment of extreme rainfall-induced clustered landslides: A case study of southern Qingyuan city, Guangdong province, China, in June 2020. Georisk: Assessment and Management of Risk for Engineered Systems and Geohazards,

[24] Yang W, Tian J, Wang Y, Fang J, Qi W*, Xu C (2026) Anomalous summer warming drove the destabilization of the 2021 Chamoli ice-rock avalanche. Landslides, 23(3): 871-881.

[25] 高会然, 许冲, 邵霄怡 (2026) 地震次生地质灾害应急评估信息化平台建设研究. 地震研究, 49(1): 139-148.

[26] Shao X, Xu C*, Ma S (2026) Coseismic landslide area prediction using generalised additive model: A case study of the 2013 Minxian earthquake. Geoscience Data Journal, 13(1): e70041.

[27] Liu H, Xu C*, Feng L, Wang P, Sun J, Zhang X, Wang J, Sun Q, Li K (2026) Spatial distribution patterns and landslide susceptibility analysis from a global–local perspective along the Zhuzhou-Guangzhou section of the Beijing–Guangzhou railway. Frontiers in Earth Science, 13(Article 1722201): 27 pages.

[28] He X, Xu C*, Aretusini S, Feng W, Wang H, Li H, Di Toro G (2026) Tectonic fracturing and clay enrichment in basalt slip zones: A key factor of 2019 Shuicheng landslide in southwest China. Engineering Geology, 360: 108463.

[29] Wu H, Gao H*, Huang Y, Xu C (2026) Extreme Rainfall–Induced Floods and Landslides in Sumatra, Indonesia in November 2025: Insights for Disaster Prevention and Mitigation. Natural Hazards Research,

[30] Ma S*, Shao X, Xu C (2026) Multi-temporal landslide inventory (2014–2022) associated with the Ms 6.5 Ludian earthquake in Yunnan, China. Georisk: Assessment and Management of Risk for Engineered Systems and Geohazards,

[31] Deng Q, Cui Y*, Hu W, Zheng J, Xu C (2026) Bridging factor of safety prediction and strength reduction workflows using an interpretable Transformer-enhanced ensemble model. Computers and Geotechnics, 193: 107968.

[32] Liu L-L, Duan C, Xu C, Wu Z-H* (2026) A hybrid model for coseismic landslide susceptibility assessment in Wenchuan using Newmark displacement and convolutional neural network. Georisk: Assessment and Management of Risk for Engineered Systems and Geohazards, 20(1): 141-165.

[33] 杨晴, 黄远东, 何祥丽, 许冲* (2026) 《国家自然灾害救助应急预案》灾情信息报告与发布机制优化. 灾害学, 41(1): 220-225.

[34] 崔泽飞, 许冲, 王巍, 高会然, 易亚宁 (2025) 中国自然灾害救助的新模式分析:来自《国家自然灾害救助应急预案》的修订. 中国减灾,

[35] Huang Y, Xu C (2026) A comprehensive inventory of landslides triggered by Typhoon Gaemi (July 2024) in Zixing, Hunan, China. Natural Hazards Research,

[36] Wang J, Lyu Y, Xu C, Xie Z, Li Y, Zhang L* (2026) Seismic landslide susceptibility assessment based on the SCM-ANFIS model: A case study of the Wenchuan earthquake area. Journal of Mountain Science, 23(2): 689-705.

[37] Li T, Xu C* (2026) Research progress in landslide susceptibility assessment driven by machine learning: A bibliometric analysis. Journal of Mountain Science,

[38] 黄雨, 赵翠珠, 何正迎, 许冲, 熊敏 (2026) 地震滑坡灾害下的路网韧性评估与恢复策略优化. 东南大学学报（自然科学版）,

[39] 张森, 许冲, 马俊学, 高会然, 黄远东 (2025) 2024年7月20日四川汉源山洪灾害成因分析与启示. 中国减灾,

（2025年）

[40] Geng C, Xu C, Li L, Gao H (2025) Landslide inventory mapping in the Upper Minjiang River, Eastern Tibetan Plateau, Using multi-source satellite remote sensing. Transactions in GIS, 29(8): e70165.

[41] Dong H, Sheng S, Xu C (2025) A review of video-based monitoring systems for geohazard early warning. Sensors, 25(23): 7385.

[42] Xie C, Xu C, Xu X, Huang Y, Gao H (2025) Analysis of a comprehensive inventory of rainfall-induced landslides and multi-factor coupling mechanisms in Eastern Guangdong, China, in August 2018. Environmental Earth Sciences, 84(24): 707.

[43] Yang W, Xu C*, Li T, Sun J, Li L, Feng L, Wang P, Chen J, Xiao Z (2025) Landslide traces inventory and spatial distribution analysis along the Hubei Section of the Jinsha River–Hubei ultra-high-voltage transmission line, China. Forests, 16(11): 1686.

[44] Li T, Xu C, Huang Y (2025) Satellite Image Survey of Landslides Triggered by the 2024 Wushi Earthquake, Xinjiang, China. Geoscience Data Journal, 12(4): e70037.

[45] Zhao J, Xu C*, Liu Y, Liu Y (2025) High-density landslide areas: Hancheng County, Shaanxi Province, China. Environmental Earth Sciences, 84(20): 578.

[46] Xu C*, Zhang X, Li L, Feng L, Yang W (2025) Geospatial insights into landslide relics in the Northern Half of the Taihang Mountains: Topography, geology and beyond. Geoscience Data Journal, 12(4): e70028.

[47] Xu C (2025) From observation to understanding: rethinking geological hazard research in an era of advanced technologies. npj Natural Hazards, 2: Article number: 85.

[48] Chen Z, Xu C, Wang P, Li L, Zhang X, Shao X, Zhao B, Wen B, Zhang H (2025) Inventory of large-scale landslide traces in the transition zone between the Qinghai-Tibet Plateau and the Sichuan Basin. Transactions in GIS, 29(5): e70105.

[49] Ma S, Shao X, Xu C*, Niu P (2025) Geometry and mobility characteristics of landslides triggered by the 2018 Mw 7.5 Palu earthquake in Indonesia. Landslides, 22(12): 3973-3988.

[50] Xu C*, Lin N (2025) Building a global forum for natural hazard science. npj Natural Hazards, 2(1): 72.

[51] Gao H, Xu C*, Wu S, Li T, Huang Y (2025) Has the unpredictability of geological disasters been increased by global warming? npj Natural Hazards, 2: Article number: 55.

[52] Cheng H*, Xu C*, Guo R, Jing H-k, Hong Z-l, Fu F-c, Li R-s (2025) Multi‑feature geological hazard susceptibility assessment by integrating improved ResNet and transfer learning: A case study of the Loess Plateau in Northern Shaanxi. Results in Engineering, 27: 105946.

[53] Xu C*, Yao Q, He X, Qi W, Meena SR, Yang W, Taylor L (2025) Editorial: Prevention, mitigation, and relief of compound and chained natural hazards, volume II. Frontiers in Earth Science, 13(Article 1622457): 4 pages.

[54] Wang Q, Xu C, Ma J, Huang Y, Zhang S, Gao H (2025) Preliminary analysis of the July 30, 2024, Wayanad landslide disaster in India: Causes and impacts. Natural Hazards Research, 5(4): 919-931.

[55] Xie C, Gao H, Huang Y, Xue Z, Xu C*, Dai K (2025) Leveraging the DeepSeek large model: A framework for AI-assisted disaster prevention, mitigation, and emergency response systems. Earthquake Research Advances, 5(4): 100378.

[56] Huang Y, Xu C*, He X, Gao H, Wang W, Yi Y (2025) Trends and evolution in the study of China's Natural Disaster Emergency Plans: A bibliometric analysis. Evidence in Earth Science, 1(1): 33-51.

[57] Ma S, Shao X, Xu C* (2025) Insight into data-driven model for the formation mechanism and causative factors of landslides induced by the 2013 Tianshui extreme rainfall event. Geomatics, Natural Hazards and Risk, 16(1): 2487826.

[58] Gao H, Xu C*, Wang W, Xiao Z, He X (2025) Prevention and defense technologies for natural disasters: A review. Evidence in Earth Science, 1(1): 17-32.

[59] Chen X, Wei J*, Zhao Z, Wang X, Ren Z, Xu C* (2025) Numerical simulation of landslide movement and impact disaster intensity on brick-concrete buildings: a case from Niuti landslide in Shaanxi, China. Landslides, 22(7): 2363-2377.

[60] Wu S, Xu C*, Ma J, Gao H (2025) Escalating risks and impacts of rainfall-induced geohazards. Natural Hazards Research, 5(3): 447-454.

[61] Xie C, Xu C*, Huang Y, Liu J, Jin J, Xu X, Cheng J, Wu L (2025) Detailed inventory and initial analysis of landslides triggered by extreme rainfall in the northern Huaiji County, Guangdong Province, China, from June 6 to 9, 2020. Geoenvironmental Disasters, 12(7): 17 pages.

[62] Wang Q, Xu C* (2025) What are the spatial distribution characteristics of the 4417 landslides in Minhe County, Qinghai Province, China? Frontiers in Earth Science, 13(Article 1501498): 19 pages.

[63] He X, Chen Z, Yang Q, Xu C* (2025) Advances in earthquake and cascading disasters. Natural Hazards Research, 5(2): 421-431.

[64] Huang Y, Xu C*, He X, Cheng J, Xu X, Tian Y (2025) Landslides induced by the 2023 Jishishan Ms6.2 earthquake (NW China): spatial distribution characteristics and implication for the seismogenic fault. npj Natural Hazards, 2: Article number: 14.

[65] Ullah W, Dong H*, Shah AA, Xu C*, Alotaibi BA (2025) Unveiling the multi-dimensional vulnerabilities of flood-affected communities in Khyber Pakhtunkhwa, Pakistan. Water, 17(2): 198.

[66] Ma J, Gao H, Xu C*, Qi S (2025) Characterization and formation mechanism of the catastrophic flash flood-debris flow hazard triggered by the July 2023 extreme rainstorm in Hantai Gully of Beijing, China. Landslides, 22(3): 877-893.

[67] Wang Q, Xu C, Xu J (2025) Exploration of landslide geomorphology and inventory construction in Minhe County, Qinghai, China, Based on Google Earth remote sensing imagery. Transactions in GIS, 29(1): e13281.

[68] Liu J, Xu C*, Zhao B, Yang Z, Liu Y, Zhang S, Kong X, Lan Q, Xu W, Qi W (2025) Deformation slope extraction and influencing factor analysis using LT-1 satellite data: A case study of Chongqing and surrounding areas, China. Remote Sensing, 17(1): 156.

[69] Ma S, Shao X, Xu C* (2025) Landslide inventory and distribution patterns in Lhasa area, Tibet Plateau. Natural Hazards, 121(5): 5849-5871.

[70] Xue Z, Xu C*, Zhang Z, Feng L, Li H, Zhang H, Zhu D, Sun J, Wang P, Li L, Chen J (2025) Inventory of landslide relics in Zhenxiong County based on human-machine interactive visual interpretation, Yunnan Province, China. Frontiers in Earth Science, 12(Article 1518377): 15 pages.

[71] Li T, Ma J, Huang Y, Zhang S, Gao H, Xu C* (2025) Disaster analysis and lessons learned from the July 22, 2024, Ethiopian landslide. Earthquake Research Advances, 5(3): 100358.

[72] He X, Li T, Wang Q, Wang Z, Chen Z, Xu C* (2025) Frontiers in Chinese seismology: Synthesizing innovations from the 18th Seismological Society of China Conference (SSC 2023). Earthquake Research Advances, 5(2): 100351.

[73] Xie C, Xu C*, Huang Y, Liu J, Shao X, Xu X, Gao H, Ma J, Xiao Z (2025) Advances in the study of natural disasters induced by the "23.7" extreme rainfall event in North China. Natural Hazards Research, 5(1): 1-13.

[74] Lyu Y, Wang J, Xu C, Xie Z, Zhang L, Li Y (2025) Seismic landslide hazard evaluation in Sichuan based on multi-source data. IGARSS 2025-2025 IEEE International Geoscience and Remote Sensing Symposium: 3265-3268.

[75] Liang J, Qi W*, Xu C, Wang P, Sun J, Zhang X, Xue Z, Chen J, Cui Y, Pan J, Wang J, Sun Q (2025) Evaluation of geological hazards susceptibility along a key railway based on machine learning. Scientific Reports, 15: 42497.

[76] Zhao C, Li L, Wang Y, Li X*, Xu C, Song Y, Ren D, Xiao C (2025) D2FLS-Net: Dual-Stage DEM-guided Fusion Transformer for landslide segmentation. PLOS One, 20(11): e0337412.

[77] Kong Y, Zhu K, Wu H, Xu C, Meng Z, Kong H, Tan W, Kong X, Chen X, Chen L (2025) Towards Sustainable Development: Landslide Susceptibility Assessment with Sample Optimization in Guiyang County, China. Sustainability, 17(21): 9575.

[78] Guo Z, Cheng M, Wang Y, Xu G, Zhang Y, Xu C (2025) Landslide hazard prediction under an extreme rainfall scenario by considering multiple timescale rainfalls and effective recharge. Georisk: Assessment and Management of Risk for Engineered Systems and Geohazards, 19(4): 775-803.

[79] Yu B, Chen F*, Chen W, Shi G, Xu C, Wang N, Wang L (2025) Cross-domain landslide mapping by harmonizing heterogeneous remote sensing datasets. GIScience & Remote Sensing, 62(1): 2559457.

[80] Wang J, Zang M*, Peng J, Xu C, Su Z, Liu T, Li M (2025) Identification of dominant controlling factors and susceptibility assessment of coseismic landslides triggered by the 2022 Luding Earthquake. Remote Sensing, 17(16): 2797.

[81] Zeng T, Guo Z*, Wang L, Xu C, Wu F, Jin B, Peduto D (2025) Hazard prediction modeling for typhoon-triggered shallow landslides by integrating physically-based model and extreme rainfall analysis. Bulletin of Engineering Geology and the Environment, 84(7): 356.

[82] Ali I, Shah AA*, Alotaibi BA, Xu C, Ali A, Ali Y (2025) Unveiling the determinants of climate change adaptation among small Landholders: Insights from a Mountainous Region in Pakistan. Climate Services, 38: 100550.

[83] Kong Y, Wu H, Xu C, Sun J, Zhu K, Zhang C, Zhou J, Xu T, Su T, Zhang Z, Kong H (2025) Landslide susceptibility mapping using an entropy index-based negative sample selection strategy: A case study of Luolong county. PLOS ONE, 20(5): e0322566.

[84] Zhang S*, Zhu G, Xu C, Ma J, Sun Z (2025) Stability influence of weak interlayer rock slope under rainfall. Frontiers in Earth Science, 13(Article 1564077): 13 pages.

[85] Cui Y*, Xie Z, Xu C, Yang W, Xu W (2025) Comparative study on the effectiveness of landslide susceptibility assessment based on different evaluation units and models. Geological Journal, 60(10): 2432-2446.

[86] Xiao Z*, Ding W, Taleghan AD, Liu J, Xu C, Gao H, Qi W, He X (2025) A method for predicting different types of natural fractures in tight sandstone based on the secondary rescaled range analysis of Logging Curves: A case study from the Chang 7 Member in Huaqing Oilfield, Ordos Basin, China. Energy Science & Engineering, 13(4): 2045-2062.

[87] Mao W, Huang Y*, Zheng H, Li X, He X, Xu C (2025) Report on the 2024 Annual Academic Conference of the Committee on Earthquake Hazard Chain, Seismological Society of China，6–9 December 2024, Shanghai, China. Natural Hazards Research,

[88] Wang J, Xu C, Xie Z, Li Y, Zhang L, Lv Y* (2025) Assessment and zoning of seismic landslide hazards in Sichuan, China, using a SCM-ANFIS model under different ground motion. Bulletin of Engineering Geology and the Environment, 84(4): 184.

[89] Meng Z, Zhang F, Peng J, Kang C, Xu C, Ma P, Fan Z, Leng Y, Luo C, Luo P, Li C, Cao Y (2025) A rainfall model test for investigating the initiation mechanism of the catastrophic loess landslide in Baqiao, Xi’an, China. Bulletin of Engineering Geology and the Environment,

[90] Tang Z, Zheng X, Pan J, Huang X, Zhu L, Wang N, Xie M, Yan G, Wang C, Wang Z, Xu C, Song C* (2025) Spatial joint hazard assessment of landslide susceptibility and intensity within a single framework: Environmental insights from the Wenchuan Earthquake. Science of the Total Environment, 963: 178545.

[91] Cheng J*, Xu C, Xu X, Zhang S, Zhu P (2025) Modeling seismic hazard and landslide occurrence probabilities in northwestern Yunnan, China: exploring complex fault systems with multi-segment rupturing in a block rotational tectonic zone. Natural Hazards and Earth System Sciences, 25(2): 857-877.

[92] He B, Wu L, Lai Y*, Zhu S, Xu C (2025) Dynamic response of a lined tunnel beneath a truncated semicircular canyon subjected to plane SH waves. Journal of Engineering Mechanics, 151(5): 04025009.

[93] He B, Lai Y*, Wu L, Zhu S, Xu C (2025) Scattering of SH waves induced by interaction between a truncated semicircular canyon and a lined tunnel. International Journal of Geomechanics, 25(4): 04025033.

[94] 许冲*, 代克滨, 薛智文, 黄远东, 谢晨晨, 李涛, 张志强, 朱登杰, 赵斌滨, 刘毅, 孔小昂, 高会然, 邵霄怡 (2025) 中国月尺度降雨型滑坡发生概率研究. 地质力学学报, 31(5): 960-971.

[95] 许冲*, 黄雨, 孙萍, 吴赛儿, 张帅, 孙纪凯, 黄远东, 李涛, 陈兆宁, 邵霄怡, 齐文文, 何正迎, 李垠柯, 熊敏 (2025) 自然灾害评估技术体系. 中国科学基金, 39(6): 918-929.

[96] 陈红旗, 马俊学*, 许冲 (2025) 地质灾害应急救援次生灾害风险管控. 中国应急管理科学, (10): 40-50.

[97] 许强*, 朱鸿鹄, 朱星*, 刘晓磊, 余琛, 许冲, 谭道远, 李涛 (2025) 自然灾害监测技术体系. 中国科学基金, 39(6): 893-904.

[98] 许冲, 高明星, 薛智文, 黄雨, 吴礼舟, 邬忠虎 (2025) 专栏评论：高新技术赋能地震与地质灾害防治研究进展. 地质科技通报, 44(4): 16-22.

[99] 齐文文, 许冲*, 侯建盛, 高会然, 胡杰 (2025) 汛期降雨地质灾害特征与评估预警技术应用——以2023年主汛期为例. 安全, 46(3): 10-18.

[100] 许冲, 王亚豪 (2025) 全民早期预警行动计划（2023—2027）简介. 中国应急管理, (4): 37-41.

[101] 邵霄怡, 许冲*, 马思远, 谭庆全, 薄涛, 高会然 (2025) 地震触发滑坡应急评估方法实践——以2022年四川泸定6.8级地震为例. 灾害学, 40(4): 71-76.

[102] 高会然, 许冲, 王巍, 何祥丽, 肖子亢 (2025) 自然灾害“预”“防”的核心要义及开展现状. 灾害学, 40(3): 139-144.

[103] 黄远东, 许冲*, 刘毅, 何祥丽, 邵霄怡, 赵斌滨, 孔小昂 (2025) 2024年4月广东韶关暴雨诱发的浅层滑坡编目与滑坡分布特征分析. 中国地质灾害与防治学报, 36(2): 28-42.

[104] 薛智文, 高会然, 刘洁霖, 黄远东, 许冲* (2025) 2024年6月中国北方地区干旱情况分析与防灾启示. 安全, 46(1): 79-88.

[105] 肖子亢, 许冲*, 李宏, 黄帅, 李博, 何祥丽 (2025) 地质灾害物理仿真实验开展现状及趋势分析. 地质科技通报, 44(4): 23-47.

[106] 何祥丽, 许冲*, 黄远东 (2025) 北斗在地质灾害领域的应用现状与展望. 中国地质灾害与防治学报, 36(4): 111-124.

[107] 薛智文, 许冲*, 冯立业, 张慧娟, 孙静静, 李磊, 王鹏, 陈镜羽 (2025) 基于人机交互目视解译的四川省稻城县古滑坡编目与其空间分布特征. 地震学报, 47(6): 935-950.

[108] 黄远东, 许冲*, 薛智文, 胡杰, 郭永翔, 付登文 (2025) 从镇雄1.22山体滑坡事件浅析冬季滑坡伤亡事件规律. 灾害学, 40(1): 110-116.

[109] 薛智文, 许冲*, 付登文, 郭永翔 (2025) 2024年1月22日云南镇雄滑坡灾害成因分析. 地震研究, 48(1): 80-88.

[110] 谢晨晨, 许冲*, 张树辉, 高会然, 黄远东, 李涛, 张森, 代克滨 (2025) 2024台风“格美”致湖南降雨地质灾害综合分析. 城市与减灾, (4): 47-51.

[111] 邵霄怡, 许冲 (2025) 从风险防控全链条发力 系统提升应对极端天气能力. 中国应急管理报, 3(2025年12月27日): A0320251227C.

[112] 许冲 (2025) 夯实应对复合灾害链的国家安全底座. 中国应急管理报, 3(2025年11月29日): A0320251129C.

[113] Ma S, Shao X, Xu C, Chen X, Yuan R* (2025) Topographic and connectivity to channel of earthquake- and rainfall-induced landslides in Loess Plateau area. Scientific Reports, 15(628): 14 pages.

[114] Ma J*, Xu C, Chen J (2025) Dam-breach process simulation and risk assessment of outburst flood induced by the Tangjiashan landslide-dammed lake. Journal of Hydrology: Regional Studies, 57: 102164.

[115] 田云飞, 袁素, 董浩然, 高会然, 邵霄怡, 许冲 (2025) 多源光学遥感在缅甸7.9级地震滑坡识别中的应用与展望. 中国减灾, (23): 29-31.

[116] 邵志刚, 王武星, 刘琦, 窦爱霞, 王晓青, 武艳强, 季灵运, 张令心, 徐伟进, 许冲, 王芃, 魏文薪, 潘正洋, 刘晓霞, 尹晓菲, 冯蔚, 孙珂 (2025) 中国陆区未来10年地震危险性预测与地震风险评估研究. 地震, 45(3): 193-218.

[117] 陈兆宁, 庞淯舰, 许冲, 高会然, 薛智文 (2025) 2024年6月中旬华南地区暴雨洪涝灾害特征分析与启示. 中国减灾, (10): 40-41.

[118] 邓其宁, 崔玉龙, 王炯超, 郑俊, 许冲 (2025) 三维边坡稳定性计算的ChatGPT辅助编程方法. 岩土力学, 46(S1): 322-334.

[119] 王杰, 许冲, 谢卓娟, 李昱, 张力方, 吕悦军 (2025) 基于可靠优化策略的四川省概率地震滑坡危险性评价与分区. 震灾防御技术, 20(4): 870-886.

[120] 高明星, 许冲, 程远峰 (2025) 持续心理学在地学类课程教学中的应用. 中国多媒体与网络教学学报(上旬刊) (6): 139-142.

[121] 何祥丽, 许冲, 王巍, 高会然, 黄远东 (2025) 国家自然灾害救助应急组织指挥体系解析. 中国减灾, (17): 40-41.

（2024年）

[122] He X, Xu C*, Qi W, Huang Y (2024) Contrasting landslides distribution patterns and seismic rupture processes of 2014 Jinggu and Ludian earthquakes, China. Scientific Reports, 14: 28470.

[123] Zhang S, Xu C*, Meng Z*, Li T, Li C, Huang Y, Shao X, Feng L, Luo P, Luo C (2024) Establishing a landslide traces inventory for the Baota District, Yan’an City, China, using high-resolution satellite images. Land, 13(10): 1580.

[124] Huang Y, Xu C*, He X, Cheng J, Huang Y, Wu L, Xu X (2024) Distribution characteristics and cumulative effects of landslides triggered by multiple moderate-magnitude earthquakes: A case study of the comprehensive seismic impact area in Yibin, Sichuan, China. Landslides, 21(12): 2927-2943.

[125] He X, Xu C*, Tang S, Huang Y, Qi W, Xiao Z (2024) Performance analysis of an aerial remote sensing platform based on real-time satellite communication and its application in natural disaster emergency response. Remote Sensing, 16(15): 2866.

[126] Ma S, Shao X, Xu C* (2024) Potential controlling factors and landslide susceptibility features of the 2022 Ms 6.8 Luding earthquake. Remote Sensing, 16(15): 2861.

[127] Liu J, Xu C* (2024) Construction and preliminary analysis of landslide database triggered by heavy storm in the parallel range-valley area of western Chongqing, China, on 8 June 2017. Frontiers in Earth Science, 12(Article 1420425): 14 pages.

[128] Gao H, Xu C*, Xie C, Ma J, Xiao Z (2024) Landslides triggered by the July 2023 extreme rainstorm in the Haihe River Basin, China. Landslides, 21(11): 2885-2890.

[129] Xu C*, Yao Q, He X, Qi W, Meena SR, Yang W, Taylor L (2024) Editorial: Prevention, mitigation, and relief of compound and chained natural hazards. Frontiers in Earth Science, 12(Article 1462471): 4 pages.

[130] Zhang X, Xu W, Zhang X, Yu Y, Xu C* (2024) A hybrid finite-discrete element method for modelling cracking processes in sandy mudstone containing a single edge-flaw under cyclic dynamic loading. Scientific Reports, 14(15346): 17 pages.

[131] Ma S, Shao X, Xu C*, Li K (2024) Landslides triggered by the 30th June 2012 Ms6.6 Hejing Earthquake, Xinjiang Province, China. Bulletin of Engineering Geology and the Environment, 83: 256.

[132] Shao X, Ma S, Xu C*, Xie C, Li T, Huang Y, Huang Y, Xiao Z (2024) Landslides triggered by the 2022 Ms. 6.8 Luding strike-slip earthquake: An update. Engineering Geology, 335: 107536.

[133] Zhao J, Xu C*, Huang X (2024) Detailed landslide traces database of Hancheng County, China, based on high-resolution satellite images available on the Google Earth platform. Data, 9(5): 63.

[134] Yang Z, Qi W, Xu C*, Shao X (2024) Exploring deep learning for landslide mapping: A comprehensive review. China Geology, 7(2): 330-350.

[135] Ma S, Shao X, Xu C* (2024) Delineating non-susceptible landslide areas in China based on topographic index and quantile non-linear model. Forests, 15(4): 678.

[136] Chen J, Xu C* (2024) Editorial Geological Hazards and Risk Management. Sustainability, 16(8): 3286.

[137] Feng L, Xu C*, Tian Y, Li L, Sun J, Huang Y, Wang P, Zhang X, Li T, Yang W, Ma S, Shao X, Xu J, Chen J (2024) Landslides of China's Qinling. Geoscience Data Journal, 11(4): 725-741.

[138] Li T, Xu C*, Li L, Xu J (2024) The landslide traces inventory in the transition zone between the Qinghai-Tibet Plateau and the Loess Plateau: A case study of Jianzha County, China. Frontiers in Earth Science, 12(Article 1370992): 9 pages.

[139] Li T, Xie C, Xu C*, Qi W, Huang Y, Li L (2024) Automated machine learning for rainfall-induced landslide hazard mapping in Luhe County of Guangdong Province, China. China Geology, 7(2): 315-329.

[140] Zhang X, Xu C*, Li L, Feng L, Yang W (2024) Inventory of landslides in the northern half of the Taihang Mountain Range, China. Geosciences, 14(3): 74.

[141] Wang W, Huang Y, Xu C*, Shao X, Li L, Feng L, Gao H, Cui Y, Wu S, Yang Z, Ma K (2024) Identification and distribution of 13003 landslides in the northwest margin of Qinghai-Tibet Plateau based on human-computer interaction remote sensing interpretation. China Geology, 7(2): 171-187.

[142] Sun J, Xu C*, Feng L, Li L, Zhang X, Yang W (2024) The Yinshan Mountains record over 10,000 landslides. Data, 9(2): 31.

[143] Sun J, Shao X, Feng L, Xu C*, Huang Y, Yang W (2024) An essential update on the inventory of landslides triggered by the Jiuzhaigou Mw6.5 earthquake in China on 8 August 2017, with their spatial distribution analyses. Heliyon, 10(2): e24787.

[144] Liu M, Yang W*, Xu C*, Yang Y, Taylor L, Shi P (2024) Impact of precipitation on Beishan landslide deformation from 1986 to 2023. Frontiers in Earth Science, 11(Article 1304969): 14 pages.

[145] Shao X, Xu C*, Li L, Yang Z, Yao X, Shao B, Liang C, Xue Z, Xu X (2024) Spatial analysis and hazard assessment of large-scale ancient landslides around the reservoir area of Wudongde hydropower station, China. Natural Hazards, 120(1): 87-105.

[146] Feng L, Qi W, Xu C*, Yang W, Yang Z, Xiao Z, Chen Z, Li T, Shao X, Gao H, Xue Z (2024) Landslide research from the perspectives of Qinling Mountains in China: A critical review. Journal of Earth Science, 35(5): 1546-1567.

[147] Xue Z, Xu C*, Gao H, Huang Y (2024) Disaster chain thinking improves the capabilities of disaster prevention, mitigation, and relief in China. Natural Hazards Research, 4(2): 320-323.

[148] Xu C*, Xue Z (2024) Applications and challenges of artificial intelligence in the field of disaster prevention, reduction, and relief. Natural Hazards Research, 4(1): 169-172.

[149] Shah AA, Ullah W, Khan NA, Alotaibi BA, Xu C (2024) Mapping rural household vulnerability to flood-induced health risks in disaster-stricken Khyber Pakhtunkhwa, Pakistan. Sustainability, 16(23): 10578.

[150] Li L, Jia M, Xu C, Tian Y, Ma S, Yang J* (2024) Enhancing landslide susceptibility mapping by integrating neighboring information in slope units: A spatial logistic regression. Remote Sensing, 16(23): 4475.

[151] Lu Y, Xu H, Wang C*, Yan G, Huo Z, Peng Z, Liu B, Xu C (2024) A novel strategy coupling optimised sampling with heterogeneous ensemble machine-learning to predict landslide susceptibility. Remote Sensing, 16(19): 3663.

[152] Cui Y*, Qian Z, Xu W, Xu C (2024) A small-scale landslide in 2023, Leshan, China: Basic characteristics, kinematic process and cause analysis. Remote Sensing, 16(17): 3324.

[153] Zhang P, Xu C, Chen X*, Zhou Q, Xiao H, Li Z (2024) Study of earthquake landslide hazard by defining potential landslide thickness using excess topography: A case study of the 2014 Ludian earthquake area, China. Remote Sensing, 16(16): 2951.

[154] Chen S*, Xu C, Li S (2024) Editorial: Earthquake engineering technology and its application. Sustainability, 16(15): 6703.

[155] Cui Y*, Zhu L, Xu C, Xu M, Wei J (2024) Spatial distribution law of landslides and landslide susceptibility assessment in the Eastern Himalayan Syntaxis Region. Quarterly Journal of Engineering Geology and Hydrogeology, 57(3): 15 pages.

[156] Liu T, Zang M*, Peng J, Xu C (2024) Evaluating coseismic landslide susceptibility following the 2022 Luding earthquake: A comparative analysis of six displacement regression models integrating epicentral and seismogenic fault distances within the permanent-displacement framework. Remote Sensing, 16(14): 2675.

[157] Xu X*, Wang Q, Ren J, Li K, Yao Q, Xu C, Li Y, An Y, Cheng J (2024) Three-dimensional fault model and features of chained hazards of the Luding Ms 6.8 earthquake, Sichuan Province, China. Earthquake Research Advances, 4(4): 100326.

[158] Zhang A, Wang X*, Xu C, Yang Q, Guo H, Li D (2024) Near-real prediction of earthquake-triggered landslides on the southeastern margin of the Tibetan Plateau. Remote Sensing, 16(10): 1683.

[159] Wu X, Xu X, Yu G, Ren J, Yang X, Chen G, Xu C, Du K, Huang X, Yang H, Li K, Hao H (2024) The China Active Faults Database (CAFD) and its web system. Earth System Science Data, 16(7): 3391-3417.

[160] Yang L, Cui Y*, Xu C, Ma S (2024) Application of coupling physics–based model TRIGRS with random forest in rainfall‑induced landslide‑susceptibility assessment. Landslides,

[161] Ma J*, Chen J, Xu C (2024) Hydraulic reconstruction of giant paleolandslide-dammed lake outburst floods in high-mountain region, eastern Tibetan Plateau: A case study of the Upper Minjiang River valley. Transactions in GIS, 28(6): 1793-1825.

[162] Ma J*, Chen J, Xu C (2024) Sedimentary records of giant landslide-dam breach events in Western Sichuan, China. Frontiers in Earth Science, 12(Article 1414763): 21 pages.

[163] Cui Y*, Yang L, Xu C, Zheng J (2024) Spatial distribution of shallow landslides caused by Typhoon Lekima in 2019 in Zhejiang Province, China. Journal of Mountain Science, 21(5): 1564-1580.

[164] Wang Z, Cheng J*, Xu C (2024) Earthquake scenario-specific framework for Spatial Accessibility Analysis (SAA) of emergency shelters: A case of study in Xichang City, Sichuan Province, China. Frontiers in Earth Science, 12(Article 1376900): 15 pages.

[165] Ma S, Shao X, Xu C, Chen X, Lu Y, Xia C, Qi W, Yuan R* (2024) Distribution pattern, geometric characteristics and tectonic significance of landslides triggered by the strike-slip faulting 2022 Ms 6.8 Luding earthquake. Geomorphology, 453: 109138.

[166] Pu J, Huang Y*, Bi Y, Guo Z, Deng F, Li X, Xu C (2024) 3D suitability evaluation of urban underground space using a variable weight method and considering ground restrictions. Underground Space, 19: 208-226.

[167] Pu J, Huang Y*, Guo Z, Bi Y, Xu C, Li X, Chen Z (2024) Physical vulnerability of reinforced concrete buildings under debris avalanche impact based on GF-discrepancy and DEM-FEM. Natural Hazards, 120(3): 2571-2597.

[168] Yang Z, Du G*, Zhang Y, Xu C, Yu P, Shao W, Mai X (2024) Seismic landslide hazard assessment using improved seismic motion parameters of the 2017 Ms 7.0 Jiuzhaigou earthquake, Tibetan Plateau. Frontiers in Earth Science, 12(Article 1302553): 16 pages.

[169] Shao X, Wang X*, Xu C, Ma S (2024) MCPSHA: A new tool for Probabilistic seismic hazard analysis based on Monte Carlo simulation. Applied Sciences, 14(3): 1079.

[170] 许冲 (2024) 2008年汶川和2013年芦山地震触发滑坡全景回顾与比较分析. 安全, 45(9): 25-38.

[171] 马俊学, 高会然, 许冲* (2024) 北京市昌平区韩台村“23·7”暴雨山洪泥石流灾害特征分析. 水利水电技术, 55(7): 1-18.

[172] 张柯月, 崔玉龙, 许冲, 钱志冲 (2024) 基于机器学习模型的三明市强降雨滑坡易发性评价. 防灾科技学院学报, 26(3): 59-66.

[173] 王进, 臧明东*, 许冲, 刘天浩, 黄雨村 (2024) 基于层次分析与受试者工作特征曲线下面积耦合算法的2022年泸定地震滑坡易发性评估. 工程地质学报, 32(5): 1696-1711.

[174] 张迎宾*, 徐佩依, 林剑锋, 伍新南, 柳静, 相晨琳, 何云勇, 杨昌凤, 许冲 (2024) 基于BP神经网络的九寨沟地区地震滑坡危险性预测研究. 工程地质学报, 32(1): 133-145.

[175] 齐文文, 许冲*, 乔月霞 (2024) 基于谷歌地球引擎和Sentinel-2时序数据的海地多云地区地震滑坡识别. 地震学报, 46(4): 633-648.

[176] 薛智文, 许冲, 高会然 (2024) 树立地震和地质灾害链式思维 提升防灾减灾救灾能力. 中国减灾, (12): 44-47.

（2023年）

[177] Chen Z, Huang Y, Xue Z, Li T, Sun J, Wang Q, Xu C*, Wang W, Qi W, He X, Gao H, Xiao Z, Shao X, Xu X, Chen J, Zhang B, Chen R (2023) Report on the 2023 Annual Academic Conference of the Committee on Earthquake Hazard Chain, Seismological Society of China, 23–24 October 2023, Beijing, China. Natural Hazards Research, 3(4): 646-652.

[178] Shao X, Ma S, Xu C*, Cheng J, Xu X (2023) Seismically-induced landslide probabilistic hazard mapping of Aba Prefecture and Chengdu Plain region, Sichuan Province for future seismic scenarios. Geoscience Letters, 10: 55, 17 pages.

[179] Xie C, Huang Y, Li L, Li T, Xu C* (2023) Detailed inventory and spatial distribution analysis of rainfall-induced landslides in Jiexi County, Guangdong Province, China in August 2018. Sustainability, 15(18): 13930.

[180] Ma S, Shao X, Xu C* (2023) Estimating the quality of the most popular machine learning algorithms for landslide susceptibility mapping in 2018 Mw 7.5 Palu earthquake. Remote Sensing, 15(19): 4733. doi: 10.3390/rs15194733

[181] Ma S, Shao X, Xu C* (2023) Physically-based rainfall-induced landslide thresholds for the Tianshui area of Loess Plateau, China by TRIGRS model. Catena, 233: 107499.

[182] Shao X, Ma S, Xu C*, Xu Y (2023) Insight into the characteristics and triggers of loess landslides during the 2013 heavy rainfall event in the Tianshui area, China. Remote Sensing, 15(17): 4304. doi:10.3390/rs15174304

[183] Shao X, Ma S, Xu C* (2023) Hazard assessment modeling and software development of earthquake-triggered landslides in the Sichuan–Yunnan area, China. Geoscientific Model Development, 16(17): 5113-5129.

[184] Xue Z, Xu C*, Xu X (2023) Application of ChatGPT in natural disaster prevention and reduction. Natural Hazards Research, 3(3): 556-562.

[185] Chen Z, Qi W, Xu C* (2023) Scenario-based hazard assessment of local tsunami for coastal areas: A case study of Xiamen City, Fujian Province, China. Journal of Marine Science and Engineering, 11(8): 1501.

[186] Sun J, Qi W, Huang Y, Xu C*, Yang W (2023) Facing the wildfire spread risk challenge: Where are we now and where are we going? Fire, 6(6): 228.

[187] Zheng T, Li L, Xu C*, Huang Y (2023) Spatiotemporal analysis of earthquake distribution and associated losses in Chinese Mainland from 1949 to 2021. Sustainability, 15(11): 8646.

[188] Chen Z, Huang Y, He X, Shao X, Li L, Xu C*, Wang S, Xu X, Xiao Z (2023) Landslides triggered by the 10 June 2022 Maerkang Earthquake Swarm, Sichuan, China: Spatial distribution and tectonic significance. Landslides, 20(10): 2155-2169.

[189] Ma S, Shao X, Xu C* (2023) Landslides triggered by the 2016 heavy rainfall event in Sanming, Fujian Province: Distribution pattern analysis and spatio-temporal susceptibility assessment. Remote Sensing, 15(11): 2738.

[190] Xu C (2023) An introduction to “Application of Novel High-Tech Methods to Geological Hazard Research”. Natural Hazards Research, 3(2): 353-357.

[191] Huang Y, Xu C*, Li L, He X, Cheng J, Xu X, Li J, Zhang X (2023) Inventory and spatial distribution of ancient landslides in Hualong County, China. Land, 12(1): 136. doi: 10.3390/land12010136

[192] Xiao Z, Xu C*, Huang Y, He X, Shao X, Chen Z, Xie C, Li T, Xu X (2023) Analysis of spatial distribution of landslides triggered by the Ms 6.8 Luding earthquake in China on September 5, 2022. Geoenvironmental Disasters, 10: 3. doi: 10.1186/s40677-023-00233-w

[193] Shao X, Ma S, Xu C* (2023) Distribution and characteristics of shallow landslides triggered by the 2018 Mw 7.5 Palu earthquake, Indonesia. Landslides, 20(1): 157-175.

[194] Ma S, Shao X, Xu C*, Xu Y (2023) Insight from a physical-based model for the triggering mechanism of loess landslides induced by the 2013 Tianshui heavy rainfall event. Water, 15(3): 443. doi: 10.3390/w15030443

[195] Huang Y, Xu C*, Zhang X, Li L, Xu X (2023) Research in the field of natural hazards based on bibliometric analysis. Natural Hazards Review, 24(2): 04023012.

[196] Huang Y, Xie C, Li T, Xu C*, He X, Shao X, Xu X, Zhan T, Chen Z (2023) An open-accessed inventory of landslides triggered by the Ms 6.8 Luding earthquake, China on September 5, 2022. Earthquake Research Advances, 3(1): 100181.

[197] Ma S, Shao X, Xu C* (2023) Landslide susceptibility mapping in terms of the slope-unit or raster-unit, which is better? Journal of Earth Science, 34(2): 386-397.

[198] Yang J, Xu C*, Jing X (2023) Joint effects and spatiotemporal characteristics of the driving factors of landslides in earthquake areas. Journal of Earth Science, 34(2): 330-338.

[199] Shah AA*, Ullah A, Mumdimu GT, Khan NA, Khan A, Xu C* (2023) Reconnoitering NGOs strategies to strengthen disaster risk communication (DRC) in Pakistan: A conventional content analysis approach. Heliyon, 9(7): e17928.

[200] Cui Y, Yang W, Xu C*, Wu S (2023) Distribution of ancient landslides and landslide hazard assessment in the Western Himalayan Syntaxis area. Frontiers in Earth Science, 11(Article 1135018): 15 pages.

[201] He X, Huang Y, Chen Z, Li L, Wang W, Wang X, Xu C* (2023) Report on the second academic forum on earthquake hazard chain, 12 November 2022, Beijing, China. Natural Hazards Research, 3(1): 125-138.

[202] Chen J, Li L, Xu C*, Huang Y, Luo Z, Xu X, Lyu Y (2022) Freely accessible inventory and spatial distribution of large-scale landslides in Xianyang City, Shaanxi Province, China. Earthquake Research Advances, 3(3): 100217.

[203] Shah AA*, Ullah A, Khan NA, Khan A, Tariq MAUR, Xu C* (2023) Community social barriers to non-technical aspects of flood early warning systems and NGO-led interventions: The case of Pakistan. Frontiers in Earth Science, 11(Article 1068721): 15 pages.

[204] Shah AA*, Ullah A, Khan NA, Shah MH, Ahmed R, Hassan ST, Tariq MAUR, Xu C* (2023) Identifying obstacles encountered at different stages of the disaster management cycle (DMC) and its implications for rural flooding in Pakistan. Frontiers in Environmental Science, 11(Article 1088126): 14 pages.

[205] Wen H, Li W, Xu C*, Daimaru H (2023) Editorial Landslides in forests around the world: Causes and mitigation. Forests, 14(3): 629.

[206] Zhang P, Qiu H, Xu C, Chen X*, Zhou Q (2023) Analysis of the controlling effect of excess topography on the distribution of coseismic landslides during the Iburi Earthquake, Japan, on 6 September 2018. Remote Sensing, 15(20): 5035.

[207] Zhao B, Su L*, Xu Q, Li W, Xu C, Wang Y (2023) A review of recent earthquake-induced landslides on the Tibetan Plateau. Earth-Science Reviews, 244: 104534.

[208] Gao H, Zhang Z*, Chen H*, Zhang W, Xu C, Yi Y, Liu J, Xiao Z (2023) Impacts of seasonally frozen soil hydrothermal dynamics on the watershed hydrological processes inferred from a spatially distributed numerical modelling approach. Journal of Hydrology, 624: 129947.

[209] Gao H, Zhang Z, Chen H*, Zhang W, Yi Y, Xu C, Xu X (2023) Discrimination and mapping ground surface freeze and thaw states over Northeastern China based on the improved dual-index algorithm. Cold Regions Science and Technology, 214: 103963.

[210] Wang H, Cui Z*, Xu C, Yong R, Zhao F, Chen S (2023) Study on the damage mechanism of sandstone under different water content states. Remote Sensing, 15(12): 3127.

[211] Zhang W, Pradhan B, Stuyts B, Xu C (2023) Application of artificial intelligence in geotechnical and geohazard investigations. Geological Journal, 58(6): 2187-2194.

[212] Guo Z, Tian B, He J*, Xu C, Zeng T, Zhu Y (2023) Hazard assessment for regional typhoon-triggered landslides by using physically-based model – a case study from southeastern China. Georisk: Assessment and Management of Risk for Engineered Systems and Geohazards, 17(4): 740-754.

[213] Jin J, Cui Y*, Xu C, Zheng J, Miao H (2023) Application of logistic regression model for hazard assessment of landslides caused by the 2012 Yiliang Ms 5.7 earthquake in Yunnan Province, China. Journal of Mountain Science, 20(3): 657-669.

[214] Bai Y*, Xu C (2023) Qualitative analyses of correlations between strong ground motions of the three large earthquakes and landslide distributions. Journal of Earth Science, 34(2): 369-380.

[215] Cheng J*, Xu C, Ma J, Xu X, Zhu P (2023) From active fault segmentation to risks of earthquake hazards and property and life losses – A case study from the Xianshuihe-Xiaojiang Fault Zone. Science China Earth Sciences, 66(6): 1345-1364.

[216] 黄远东, 许冲, 高会然 (2023) 推进地质灾害防治工作向灾前预防转变. 中国减灾, (23): 36-38.

[217] 黄远东, 杨志强, 许冲 (2023) 灾害造成的人类损失（2000-2019）. 中国应急管理, (8): 46-51.

[218] 黄远东, 许冲 (2023) 美国地震防灾减灾与国土安全探索——美国《国土安全手册》2023年版节选. 中国应急管理, (6): 36-39.

[219] 马思远, 许冲*, 陈晓利 (2023) 地震崩塌滑坡危险性应急评估模型效果对比——以2022年6月1日Mw5.8芦山地震为例. 地震地质, 45(4): 896-913.

[220] 崔玉龙, 杨柳, 金嘉乐, 潘俊伟, 许冲 (2023) 江南造山带东段滑坡发育影响因素研究. 安徽理工大学学报(自然科学版), 43(5): 30-41+75.

[221] 高会然*, 许冲, 张万昌, 易亚宁, 肖子亢 (2023) 高原寒区地表土壤冻融作用的空间参数化表征研究. 冰川冻土, 45(6): 1859-1874.

[222] 程佳*, 许冲, 马健, 徐锡伟, 朱鹏宇 (2023) 从活动断层分段到地震地质灾害与财产人口损失风险——以鲜水河-小江断裂带为例. 中国科学:地球科学, 53(6): 1353-1372.

（2022年）

[223] Shao X, Xu C*, Ma S (2022) Preliminary analysis of coseismic landslides induced by the 1 June 2022 Ms 6.1 Lushan earthquake, China. Sustainability, 14(24): 16554.

[224] Wang P, Li L, Xu C*, Zhang Z, Xu X (2022) An open source inventory and spatial distribution of landslides in Jiyuan City, Henan Province, China. Natural Hazards Research, 2(4): 325-330.

[225] Huang Y, Li L, Xu C*, Cheng J, Xu X, Zheng T, Zhang X (2022) Spatiotemporal distribution patterns of deadly geohazard events in China, 2013–2019. Natural Hazards Research, 2(4): 316-324.

[226] Shao X, Xu C*, Wang P, Li L, He X, Chen Z, Huang Y, Xu X (2022) Two public inventories of landslides induced by the 10 June 2022 Maerkang Earthquake swarm, China and ancient landslides in the affected area. Natural Hazards Research, 2(4): 269-272.

[227] Shao X, Xu C* (2022) Earthquake-induced landslides susceptibility assessment: A review of the state-of-the-art. Natural Hazards Research, 2(3): 172-182.

[228] He X, Xu C* (2022) Spatial distribution and tectonic significance of the landslides triggered by the 2021 Ms6.4 Yangbi Earthquake, Yunnan, China. Frontiers in Earth Science, 10(Article 1030417): 17 pages.

[229] Ma S, Shao X, Xu C* (2022) Characterizing the distribution pattern and a physically based susceptibility assessment of shallow landslides triggered by the 2019 heavy rainfall event in Longchuan County, Guangdong Province, China. Remote Sensing, 14(17): 4257.

[230] Yang Z, Xu C*, Shao X, Ma S, Li L (2022) Landslide susceptibility mapping based on CNN-3D algorithm with attention module embedded. Bulletin of Engineering Geology and the Environment, 81(10): 412.

[231] Li L, Xu C*, Yang Z, Zhang Z, Lv M (2022) An inventory of large-scale landslides in Baoji City, Shaanxi Province, China. Data, 7(8): 114.

[232] Li L, Xu C*, Yao X, Shao B, Ouyang J, Zhang Z, Huang Y (2022) Large-scale landslides around the reservoir area of Baihetan hydropower station in Southwest China: Analysis of the spatial distribution. Natural Hazards Research, 2(3): 218-229.

[233] Xu C*, Gorum T, Tanyas H (2022) Editorial: Application of Remote Sensing and GIS in earthquake-triggered landslides. Frontiers in Earth Science, 10(Article 964753): 5 pages.

[234] Yang Z, Xu C*, Li L (2022) Landslide detection based on ResU-Net with transformer and CBAM embedded: Two examples with geologically different environments. Remote Sensing, 14(12): 2885.

[235] Yang Z, Xu C* (2022) Efficient detection of earthquake-triggered landslides based on U-Net++: An example of the 2018 Hokkaido Eastern Iburi (Japan) Mw = 6.6 Earthquake. Remote Sensing, 14(12): 2826.

[236] Zhang X, Li L, Xu C* (2022) Large-scale landslide inventory and their mobility in Lvliang City, Shanxi Province, China. Natural Hazards Research, 2(2): 111-120.

[237] He X, Xu C*, Xu X, Yang Y (2022) Advances on the avoidance zone and buffer zone of active faults. Natural Hazards Research, 2(2): 62-74.

[238] Wu X, Xu C*, Xu X, Chen G, Zhu A, Zhang L, Yu G, Du K (2022) A Web-GIS hazards information system of the 2008 Wenchuan Earthquake in China. Natural Hazards Research, 2(3): 210-217.

[239] Huang Y, Xu C*, Zhang X, Li L (2022) Bibliometric analysis of landslide research based on the WOS database. Natural Hazards Research, 2(2): 49-61.

[240] Li L, Xu C*, Xu X, Zhang Z, Cheng J (2022) Inventory and distribution characteristics of large-scale landslides in Baoji City, Shaanxi Province, China. ISPRS International Journal of Geo-Information, 11(1): 10.

[241] He X, Xu C*, Wang W, Wang X (2022) Report on the establishment meeting of Committee on Earthquake Hazard Chain, Seismological Society of China and the first academic forum, 21-22 August 2021, Beijing, China. Natural Hazards Research, 2(1): 41-47.

[242] Cui Y*, Hu J, Xu C*, Miao H, Zheng J (2022) Landslides triggered by the 1970 Ms 7.7 Tonghai earthquake in Yunnan, China: an inventory, distribution characteristics, and tectonic significance. Journal of Mountain Science, 19(6): 1633-1649.

[243] Jiang H*, Xu C, Adhikari BR, Liu X, Tan X, Yuan RM (2022) Editorial: Environmental change driven by climatic change, tectonism, and landslide. Frontiers in Earth Science, 10(Article 1076801): 4 pages.

[244] Sarfraz Y*, Basharat M, Riaz MT, Akram MS, Xu C, Ahmed KS, Shahzad A, Al-Ansari N, Linh NTT* (2022) Application of statistical and machine learning techniques for landslide susceptibility mapping in the Himalayan road corridors. Open Geosciences, 14(1): 1606-1635.

[245] Zhang D, Yang W*, Xu C, Ye T, Liu Q (2022) Extracting deforming landslides from time-series Sentinel-2 imagery. Landslides, 19(11): 2761-2774.

[246] Yu B, Xu C, Chen F, Wang N, Wang L* (2022) HADeenNet: A hierarchical-attention multi-scale deconvolution network for landslide detection. International Journal of Applied Earth Observation and Geoinformation, 111: 102853.

[247] Xiao Z*, Ding W, Hao S, Wang Z, Xu C, Gao H, Zhang X (2022) Quantitative evaluation of reservoir heterogeneity in the Ordos Basin based on Tamura texture features. Frontiers in Earth Science, 11(Article 922608): 18 pages.

[248] Yu B, Wang N, Xu C, Chen F, Wang L* (2022) A network for landslide detection using large-area remote sensing images with multiple spatial resolutions. Remote Sensing, 14(22): 5759.

[249] Liu R, Yang X*, Xu C, Wei L, Zeng X (2022) Comparative study of convolutional neural network and conventional machine learning methods for landslide susceptibility mapping. Remote Sensing, 14(2): 321.

[250] Chen Y, He X*, Xu C, Huang Y, Zhang P, Luo Z, Zhan T (2022) Development characteristics and causes of a fatal landslide occurred in Shuicheng, Guizhou Province, China. ISPRS International Journal of Geo-Information, 11(2): 119.

[251] Cui Y, Hu J, Zheng J*, Fu G, Xu C (2022) Susceptibility assessment of landslides caused by snowmelt in a typical loess area in the Yining County, Xinjiang, China. Quarterly Journal of Engineering Geology and Hydrogeology, 55(1): qjegh2021-2024.

[252] Cui Y*, Jing J, Huang Q*, Yuan K, Xu C (2022) A data-driven model for spatial shallow landslide probability of occurrence due to a typhoon in Ningguo City, Anhui Province, China. Forests, 13(5): 732.

[253] Xu Q, Li W, Tang C, Fan X, Luo Y, Zhu J, Xu C, Xing A, Zhuang Y, Towhata I (2022). Report on landslides triggered by the 2008 Wenchuan Earthquake. Coseismic Landslides Phenomena, Long-Term Effects and Mitigation. I. Towhata, G. Wang, Q. Xu and C. Massey, Springer Nature: 1-40.

[254] Tian Y, Xu C, Yuan R (2022) 2.21 - Earthquake-Triggered Landslides. Treatise on Geomorphology (Second Edition), 2: 583-614.

（2021年）

[255] Xu C*, Xu X, Huang Y (2021) Preface to the special issue on geo-disasters. Journal of Earth Science, 32(5): 1053-1055.

[256] Xu C*, Xu X (2021). A Panoramic View of the Landslides Triggered by the May 12th, 2008 Mw 7.9 Earthquake in Wenchuan, China. Earthquake Geology and Tectonophysics around Eastern Tibet and Taiwan. C.-H. Lo, X. Xu, W.-Y. Chang and M. Ando, Springer, Singapore: 25-41.

[257] Ma S, Xu C*, Shao X, Xu X, Liu A (2021) A large old landslide in Sichuan Province, China: surface displacement monitoring and potential instability assessment. Remote Sensing, 13(13): 2552. doi: 10.3390/rs13132552

[258] Ma S, Shao X, Xu C*, He X, Zhang P (2021) MAT.TRIGRS (V1.0): A new open-source tool for predicting spatiotemporal distribution of rainfall-induced landslides. Natural Hazards Research, 1(4): 161-170.

[259] Cui Y, Hu J, Xu C*, Zheng J, Wei J (2021) A catastrophic natural disaster chain of typhoon-rainstorm-landslide-barrier lake-flooding in Zhejiang Province, China. Journal of Mountain Science, 18(8): 2108-2119.

[260] Qi W, Yang W, He X, Xu C* (2021) Detecting Chamoli landslide precursors in the Southern Himalayas using remote sensing data. Landslides, 18(10): 3449-3456.

[261] Qi W, Xu C*, Xu X (2021) AutoGluon: A revolutionary framework for landslide hazard analysis. Natural Hazards Research, 1(3): 103-108.

[262] Zhang X, Peng X, Chen S, Li X, Zhou Z, Dou Z, He X, Xu C* (2021) Rapid prediction of strong ground motions from major earthquakes: An application in the Wudu basin, Sichuan, China. Bulletin of the Seismological Society of America, 111(5): 2635-2660.

[263] Cui F*, Chen X, Wu Q, Xu C, Li N, Wu Na, Cui L (2021) Dynamic response of the Daguangbao landslide triggered by the Wenchuan earthquake with a composite hypocenter. Geomatics, Natural Hazards and Risk, 12(1): 2170-2193.

[264] He X, Xu C*, Qi W, Huang Y, Cheng J, Xu X, Yao Q, Lu Y, Dai B (2021) Landslides triggered by the 2020 Qiaojia Mw 5.1 Earthquake, Yunnan, China: Distribution, influence factors and tectonic significance. Journal of Earth Science, 32(5): 1056-1068.

[265] Maharjan S, Gnyawali KR*, Tannant DD, Xu C, Lacroix P (2021) Rapid terrain assessment for earthquake-triggered landslide susceptibility with high-resolution DEM and critical acceleration. Frontiers in Earth Science, 9(Article 689303): 14 pages.

[266] Basharat M, Riaz MT, Jan MQ, Xu C, Riaz S (2021) A review of landslides related to the 2005 Kashmir Earthquake: Implication and future challenges. Natural Hazards, 108(1): 1-30. doi:10.1007/s11069-021-04688-8

[267] Cui Y, Bao P, Xu C*, Ma S, Zheng J, Fu G (2021) Landslides triggered by the 6 September 2018 Mw 6.6 Hokkaido, Japan: an updated inventory and retrospective hazard assessment. Earth Science Informatics, 14(1): 247-258.

[268] Cui Y, Deng J, Hu W, Xu C, Ge H, Wei J, Zheng J (2021) 36Cl exposure dating of the Mahu Giant landslide (Sichuan Province, China). Engineering Geology, 285: 106039.

[269] Duan Y, Di B, Ustin SL, Xu C, Xie Q, Wu S, Li J, Zhang R (2021) Changes in ecosystem services in a montane landscape impacted by major earthquakes: A case study in Wenchuan earthquake-affected area, China. Ecological Indicators, 126(107683): 12 pages.

[270] Huang Y, Xu C*, Zhang X, Xue C, Wang S (2021) An updated database and spatial distribution of landslides triggered by the Milin, Tibet Mw 6.4 Earthquake of 18 November 2017. Journal of Earth Science, 32(5): 1069-1078.

[271] Shao X, Xu C*, Ma S, Xu X, Shyu JBH, Zhou Q (2021) Calculation of landslide occurrence probability in Taiwan region under different ground motion conditions. Journal of Mountain Science, 18(4): 1003-1012.

[272] Xia G, Liu C, Xu C, Le T (2021) Dynamic analysis of the high-speed and long-runout landslide movement process based on the discrete element method: A case study of the Shuicheng Landslide in Guizhou, China. Advances in Civil Engineering, (Article ID 8854194): 16 pages.

[273] Xu X, Xu C (2021) Natural Hazards Research: An eternal subject of human survival and development. Natural Hazards Research, 1(1): 1-3.

[274] Yao X, Qi S, Liu C, Guo S, Huang X, Xu C, Zheng B, Zhan Z, Zou Y (2021) An empirical attenuation model of the peak ground acceleration (PGA) in the near field of a strong earthquake. Natural Hazards, 105(1): 691-715.

[275] Zhang X, Peng X, Li X, Zhou Z, Xu C*, Dou Z, Liu B (2021) Three-dimensional seismic response in complex site conditions: A new approach based on an auxiliary-model method. Journal of Earth Science, 32(5): 1152-1165.

[276] Zhao Z*, Chen X, Xu C*, Wei J, Yang P (2021) Discrete element modelling and scenario prediction of failure, movement and energy dissipation of a potential landslide under a seismic loading. Bulletin of Engineering Geology and the Environment, 80(5): 3767–3782.

[277] Zhao Z, Liu Z, Xu C (2021) Slope unit-based landslide susceptibility mapping using certainty factor, support vector machine, random forest, CF-SVM and CF-RF models. Frontiers in Earth Science, 9(Article 589630): 16 pages.

[278] Yu B, Chen F*, Xu C, Wang L, Wang N (2021) Matrix SegNet: A practical deep learning framework for landslide mapping from images of different areas with different spatial resolutions. Remote Sensing, 13(16): 3158.

[279] Xu C*, Li K (2021) Inventory of landslides triggered by the Hejing Ms6.6 earthquake, China, on 30 June 2012. World Landslide Forum, Understanding and Reducing Landslide Disaster Risk, 5 Catastrophic Landslides and Frontiers of Landslide Science: 73-80.

[280] Cui Y, Pan J, Xu C*, Hu J (2021) Landslides triggered by the 1970 Tonghai Ms 7.7 earthquake and their distribution characteristics. 11th Conference of Asian Rock Mechanics Society, IOP Conf. Series: Earth and Environmental Science, 861(9): 052011.

[281] He X, Xu C*, Qi W, Huang Y, Chen Y, Wen B (2021) A database of landslides triggered by 2014 Mw 6.1 Jinggu earthquake, China. 11th Conference of Asian Rock Mechanics Society, IOP Conf. Series: Earth and Environmental Science, 861(9): 052008.

[282] Huang Y, Xu C*, Zhang X (2021) Spatial distribution and influence factors of landslides triggered by the 2019 Ms 6.0 Changning, Sichuan, China Ms6.0 earthquake: A statistical analysis based on QGIS. 11th Conference of Asian Rock Mechanics Society, IOP Conf. Series: Earth and Environmental Science, 861(9): 052007.

[283] Li L, Xu C*, Zhang Z, Huang Y (2021) Spatial distribution and its control factors of landslides in Longxi County, Gansu Province, China. 11th Conference of Asian Rock Mechanics Society, IOP Conf. Series: Earth and Environmental Science, 861(9): 052013.

[284] Ma S, Xu C* (2021) The monitoring of a large ancient landslide in Sichuan Province, China, using interferometric synthetic aperture radar technology and sensitivity analysis in potential landslide mass modeling. 11th Conference of Asian Rock Mechanics Society, IOP Conf. Series: Earth and Environmental Science, 861(9): 052009.

[285] Shao X, Xu C* (2021) Distribution and characteristics of landslides in the 2018 Palu earthquake, Indonesia. 11th Conference of Asian Rock Mechanics Society, IOP Conf. Series: Earth and Environmental Science, 861(9): 052012.

[286] Tian Y, Xu C*, Yuan R (2021) Landslide susceptibility evolution in an area affected by the 2015 Nepal earthquakes, derived from multitemporal landslide inventories. 11th Conference of Asian Rock Mechanics Society, IOP Conf. Series: Earth and Environmental Science, 861(9): 052015.

[287] Wang W, Huang Y, Xu C*, Li L (2021) Development and distribution of ancient landslides in the northwest corner of the Tibetan Plateau. 11th Conference of Asian Rock Mechanics Society, IOP Conf. Series: Earth and Environmental Science, 861(9): 052034.

[288] Xu J, Xu C* (2021) The probability of coseismic landslides in different peak ground accelerations: a case of 1927 Gulang M8.0 event. 11th Conference of Asian Rock Mechanics Society, IOP Conf. Series: Earth and Environmental Science, 861(9): 052041.

[289] Zhang X, Chen S, Xu C* (2021) A rapid approach for the prediction of seismic ground motion in urban areas. 11th Conference of Asian Rock Mechanics Society, IOP Conf. Series: Earth and Environmental Science, 861(9): 052006.

[290] Bai YZ, Ren ZK, Xu C (2021) The computation of strong ground motion for the near fault of the Kanding earthquake. 11th Conference of Asian Rock Mechanics Society, IOP Conf. Series: Earth and Environmental Science, 861(9): 052005.

[291] Liu L-N*, Gao W-S, Xu C, Chen J (2021) Susceptibility assessment of debris flow from Baoxing River basin in Lushan earthquake zone, China. 11th Conference of Asian Rock Mechanics Society, IOP Conf. Series: Earth and Environmental Science, 861(9): 052010.

[292] Wu X, Du K, Yu G*, Chen G, Dong Y, Xu X, Chen Z, Xu C (2021) Implementation and future challenges of seismotectonic mapping system for earthquake emergency response. 11th Conference of Asian Rock Mechanics Society, IOP Conf. Series: Earth and Environmental Science, 861(9): 052047.

[293] 徐锡伟, 王中根, 许冲, 赵宇 (2021) 我国主要城市群自然灾害风险分析与防范对策. 城市与减灾, (6): 1-6.

[294] 李磊, 许冲*, 张中俭, 黄远东 (2021) 黄土高原滑坡灾害研究综述. 防灾科技学院学报, 23(4): 1-11.

[295] 吴大明, 许冲 (2021) 美国社区风险评估指南解析及启示. 劳动保护, (3): 39-41.

[296] 陈兴, 赵洲, 魏江波, 许冲 (2021) 马边滑坡运动特征及冲击强度的数值研究. 煤田地质与勘探, 49(4): 234-241.

[297] 李姜, 张合, 刘志辉, 许冲 (2021) 基于遥感影像的建筑抗震能力分析——以张家口万全区为例. 震灾防御技术, 16(2): 371-380.

（2020年）

[298] Zhang P, Xu C*, Ma S, Shao X, Tian Y, Wen B (2020) Automatic extraction of seismic landslides in large areas with complex environments based on deep learning: An example of the 2018 Iburi, Japan earthquake. Remote Sensing, 12(23): 3992.

[299] Cui Y, Bao P, Xu C*, Fu G, Jiao Q, Luo Y, Shen L, Xu X, Liu F, Lyu Y, Hu X, Li T, Li Y, Liu Y, Tian Y (2020) A big landslide on the Jinsha River, Tibet, China: Geometric characteristics, causes, and future stability. Natural Hazards, 104(3): 2051-2070.

[300] Cui Y, Xu C*, Xu S, Chai S, Fu G, Bao P (2020) Small-scale catastrophic landslides in loess areas of China: an example of the March 15, 2019, Zaoling landslide in Shanxi Province. Landslides, 17(3): 669-676.

[301] Gao Y, Xu C*, Tian Y, Ma S, Shen L, Lu Y, Ran H (2020) Distribution of landslides in Baoshan City, Yunnan Province, China. Earthquake Research in China, 34(1): 50-63.

[302] Ma S, Wei J, Xu C*, Shao X, Xu S, Chai S, Cui Y (2020) UAV survey and numerical modeling of loess landslides: An example from Zaoling, southern Shanxi Province, China. Natural Hazards, 104(1): 1125-1140.

[303] Ma S, Xu C*, Shao X (2020) Spatial prediction strategy for landslides triggered by large earthquakes oriented to emergency response, mid-term resettlement and later reconstruction. International Journal of Disaster Risk Reduction, 43(101362): 13 pages.

[304] Ma S, Xu C*, Xu X, He X, Qian H, Jiao Q, Gao W, Yang H, Cui Y, Zhang P, Li K, Mo H, Liu J, Liu X (2020) Characteristics and causes of the landslide on July 23, 2019 in Shuicheng, Guizhou Province, China. Landslides, 17(6): 1441-1452.

[305] Qi W, Wei M, Yang W, Xu C*, Ma C (2020) Automatic mapping of landslides by the ResU-Net. Remote Sensing, 12(2487): 14 pages.

[306] Shao X, Ma S, Xu C*, Shen L, Lu Y (2020) Inventory, distribution and geometric characteristics of landslides in Baoshan City, Yunnan Province, China. Sustainability, 12(6): 2433.

[307] Shao X, Ma S, Xu C*, Xu X (2020) Effects of raster resolution on real probability of landslides. Remote Sensing Applications: Society and Environment, 19: 100364.

[308] Shao X, Ma S, Xu C*, Zhou Q (2020) Effects of sampling intensity and non-slide/slide sample ratio on the occurrence probability of coseismic landslides. Geomorphology, 363(107222): 12 pages.

[309] Tian Y, Owen LA, Xu C*, Ma S, Li K, Xu X, Figueiredo PM, Kang W, Guo P, Wang S, Liang X, Maharjan SB (2020) Landslide development within 3 years after the 2015 Mw 7.8 Gorkha earthquake, Nepal. Landslides, 17(5): 1251-1267.

[310] Tian Y, Owen LA, Xu C*, Shen L, Zhou Q, Figueiredo PM (2020) Geomorphometry and statistical analyses of landslides triggered by the 2015 Mw 7.8 Gorkha earthquake and the Mw 7.3 aftershock, Nepal. Frontiers in Earth Science, 8(Article 572449): 18 pages.

[311] Wen B, Xu C*, He X, Ma S, Shao X, Li K, Zhang Z, Li Z (2020) Hazard assessment of co-seismic landslides based on Information Value method: a case in 2018 Mw6.6 Hokkaido Earthquake, Japan. Earthquake Research in China, 34(1): 64-80.

[312] Wu W, Xu C*, Wang X, Tian Y, Deng F (2020) Landslides triggered by the 3 August 2014 Ludian (China) Mw 6.2 earthquake: An updated inventory and analysis of their spatial distribution. Journal of Earth Science, 31(4): 853-866.

[313] Xu C*, Jiang Y, Liu C, Lu H (2020) Preface to the special issue on earthquake-induced landslides. Earthquake Research in China, 34(1): 1-4.

[314] Xu J, Xu C*, He X, Wen B, Ge K, Bai Y (2020) Spatial distribution of seismic landslides in the areas of 1927 Gulang M8.0 earthquake. Earthquake Research in China, 34(1): 5-28.

[315] 许冲 (2020) 第一代中国地震滑坡概率分布图勘误. 工程地质学报, 28(5): 1066-1068.

[316] 许冲 (2020) 科学制定措施 强化风险治理：研究致灾规律 提高监测精度. 中国应急管理报, 6(2020年10月13日)

[317] Cao Y, Xu C*, Nan Y (2020) Discrete element modeling of Tangjiagou two-branch rock avalanche triggered by the 2013 Lushan Mw 6.6 earthquake, China. Earthquake Research in China, 34(1): 81-95.

[318] Wang L, Xu C, Cao Y, Xu Y (2020) Preface to the special issue on loess landslides. Earthquake Research in China, 34(4): 465-468.

[319] Gao G, Meguid MA, Chouinard LE, Xu C (2020) Insights into the transport and fragmentation characteristics of earthquake-induced rock avalanche: A numerical study. International Journal of Geomechanics, 20(9): 04020157.

[320] Shen L*, Lin R, Lu L, Xu C, Liu Y (2020) Accuracy analysis of IMERG and CMORPH precipitation data over North China. Climate Research, 81: 55-70.

[321] Wu S, Chen J*, Xu C, Zhou W, Yao L, Yue W, Cui Z (2020) Susceptibility assessments and validations of debris-flow events in meizoseismal areas: Case study in China’s Longxi river watershed. Natural Hazards Review, 21(1): 05019005.

[322] Yu B, Chen F, Xu C (2020) Landslide detection based on contour-based deep learning framework in case of national scale of Nepal in 2015. Computers & Geosciences, 135(104388): 8 pages.

[323] Zhuang Y, Xing A*, Cheng Q, Li D, Zhao C, Xu C (2020) Characteristics and numerical modeling of a catastrophic loess flow slide triggered by the 2013 Minxian–Zhangxian earthquake in Yongguang village, Minxian, Gansu, China. Bulletin of Engineering Geology and the Environment, 79(1): 439-449.

[324] 鲍鹏鹏, 崔玉龙, 许冲, 傅贵, 胡俊宏, 陈孝柱 (2020) 2018年日本北海道Mw6.6级地震滑坡分布分析. 河南城建学院学报, 29(2): 33-40.

（2019年）

[325] Xu C*, Cui Y, Xu X, Bao P, Fu G, Jiang W (2019) An anthropogenic landslide dammed the Songmai River, a tributary of the Jinsha River in Southwestern China. Natural Hazards, 99(1): 599-608.

[326] Xu C* (2019) Slope surface processes caused by earthquakes. Acta Geologica Sinica (English Edition), 93(S1): 144-144.

[327] Ma S, Xu C* (2019) Applicability of two Newmark models in the assessment of coseismic landslide hazard and estimation of slope-failure probability: An example of the 2008 Wenchuan Mw 7.9 earthquake affected area. Journal of Earth Science, 30(5): 1020-1030.

[328] Ma S, Xu C* (2019) Assessment of co-seismic landslide hazard using the Newmark model and statistical analyses: a case study of the 2013 Lushan, China, Mw6.6 earthquake. Natural Hazards, 96(1): 389-412.

[329] Ma S, Xu C*, Shao X, Zhang P, Liang X, Tian Y (2019) Geometric and kinematic features of a landslide in Mabian Sichuan, China, derived from UAV photography. Landslides, 16(2): 373-381.

[330] Ma S, Xu C*, Xu X (2019) Volume expansion rates of seismic landslides and influencing factors: A case study of the 2008 Wenchuan earthquake. Journal of Mountain Science, 16(8): 1731-1742.

[331] Tian Y, Xu C*, Hong H, Zhou Q, Wang D (2019) Mapping earthquake-triggered landslide susceptibility by use of artificial neural network (ANN) models: an example of the 2013 Minxian (China) Mw 5.9 event. Geomatics, Natural Hazards and Risk, 10(1): 1-25.

[332] Tian Y, Xu C*, Ma S, Xu X, Wang S, Zhang H (2019) Inventory and spatial distribution of landslides triggered by the 8 August 2017 Mw6.5 Jiuzhaigou earthquake, China. Journal of Earth Science, 30(1): 206-217.

[333] Wei J, Zhao Z*, Xu C*, Wen Q (2019) Numerical investigation of landslide kinetics for the recent Mabian landslide (Sichuan, China). Landslides, 16(11): 2287-2298.

[334] Shao X, Ma S, Xu C*, Zhang P, Wen B, Tian Y, Zhou Q, Cui Y (2019) Planet image-based inventorying and machine learning-based susceptibility mapping for the landslides triggered by the 2018 Mw6.6 Tomakomai, Japan earthquake. Remote Sensing, 11(8): 978.

[335] Shao X, Xu C*, Ma S, Zhou Q (2019) Effects of seismogenic faults on the predictive mapping of probability to earthquake-triggered landslides. ISPRS International Journal of Geo-Information, 8(8): 328.

[336] Cui Y, Deng J, Xu C (2019) The activity of the Yaziba fault on the lower reaches of the Jinsha River, Southwestern China: Indirect evidence from paleo earthquakes and ancient landslides. Advances in Civil Engineering, 2019: Article ID 5020357, 5020314 pages.

[337] Cui Y, Liu A, Xu C, Zheng J (2019) A modified Newmark method for calculating permanent displacement of seismic slope considering dynamic critical acceleration. Advances in Civil Engineering, 2019: Article ID 9782515, 9782510 pages.

[338] Fan X, Scaringi G, Korup O, West AJ, van Westen CJ, Tanyas H, Hovius N, Hales TC, Jibson RW, Allstadt KE, Zhang L, Evans SG, Xu C, Li G, Pei X, Xu Q, Huang R (2019) Earthquake-induced chains of geologic hazards: patterns, mechanisms and impacts. Reviews of Geophysics, 57(2): 421-503.

[339] Jiang G, Wang Y, Wen Y, Liu Y, Xu C, Xu C (2019) Afterslip evolution on the crustal ramp of the Main Himalayan Thrust fault following the 2015 Mw 7.8 Gorkha, Nepal, earthquake. Tectonophysics, 758: 29-43.

[340] Li W, Deng G, Cao W, Xu C, Chen J, Lee ML (2019) Discrete element modeling of the Hongshiyan landslide triggered by the 2014 Ms 6.5 Ludian earthquake in Yunnan, China. Bulletin of Engineering Geology and the Environment, 78: 520.

[341] Tan X, Liu Y, Lee Y-H, Lu R, Xu X, Suppe J, Shi F, Xu C (2019) Parallelism between the maximum exhumation belt and the Moho ramp along the eastern Tibetan Plateau margin: Coincidence or consequence? Earth and Planetary Science Letters, 507: 73-84.

[342] Yang Y, Yang J, Xu C, Xu C, Song C (2019) Local-scale landslide susceptibility mapping using the B-GeoSVC model. Landslides, 16(7): 1301-1312.

[343] 崔玉龙, 许冲*, 焦其松, 罗毅, 徐锡伟, 傅贵, 鲍鹏鹏 (2019) 金沙江白格两次滑坡几何形态分析与体积计算. 工程地质学报, 27(S): 269-275.

[344] 扶敏, 詹涛, 许冲, 谢超 (2019) 318国道拉萨—日喀则段地质灾害特点与发育规律. 地震研究, 42(3): 438-446.

[345] 黄远东, 许冲* (2019) 2018年兴文Ms5.7地震触发滑坡分布规律分析. 工程地质学报, 27(S): 185-192.

[346] 李凯, 许冲*, 谭明, 陈建波, 李帅, 罗炬, 吴国栋 (2019) 基于GIS和逻辑回归模型的2012年和静地震滑坡危险性评价. 工程地质学报, 27(S): 262-268.

[347] 马思远, 许冲*, 田颖颖, 徐锡伟 (2019) 基于逻辑回归模型的九寨沟地震滑坡危险性评估. 地震地质, 41(1): 162-177.

[348] 马思远, 许冲*, 王涛, 刘甲美 (2019) 应用2类Newmark简易模型进行2008年汶川地震滑坡评估. 地震地质, 41(3): 774-788.

[349] 许冲*, 徐锡伟, 周本刚, 沈玲玲 (2019) 同震滑坡发生概率研究——新一代地震滑坡危险性模型. 工程地质学报, 27(5): 1121-1129.

（2018年）

[350] Xu C, Ma S, Tan Z, Xie C, Toda S, Huang X. 2018. Landslides triggered by the 2016 Mj 7.3 Kumamoto, Japan, earthquake. Landslides, 15(3): 551-564.

[351] Cui Y, Deng J, Xu C. 2018. Volume estimation and stage division of the Mahu landslide in Sichuan Province, China. Natural Hazards, 93(2): 941-955.

[352] Tan X, Yue H, Liu Y, Xu X, Shi F, Xu C, Ren Z, Shyu JBH, Lu R, Hao H. 2018. Topographic loads modified by fluvial incision impact fault activity in the Longmenshan thrust belt, eastern margin of the Tibetan plateau. Tectonics, 37(9): 3001-3017.

[353] Zhuang J, Peng J, Xu C, Li Z, Densmore A, Milledge D, Iqbal J, Cui Y. 2018. Distribution and characteristics of loess landslides triggered by the 1920 Haiyuan Earthquake, Northwest of China. Geomorphology, 314: 1-12.

[354] Shen L, Lu L, Hu T, Lin R, Wang J, Xu C. 2018. Homogeneity test and correction of daily temperature and precipitation data (1978-2015) in North China. Advances in Meteorology, Article ID 4712538: 17 pages.

[355] Hong H, Tsangaratos P, Ilia I, Liu J, Zhu A-X, Xu C. 2018. Applying genetic algorithms to set the optimal combination of forest fire related variables and model forest fire susceptibility based on data mining models. The case of Dayu County, China. Science of the Total Environment, 630: 1044-1056.

[356] 王伟, 刘静, Godard V, 张金玉, 许冲, 李志刚, 徐心悦, 许强, 王鹏, 谢克家. 2018. 汶川地震同震滑坡物质在震区的滞留和运移及其对龙门山地形演化的影响. 地球物理学报, 61(5): 1970-1983.

[357] 许冲, 王世元, 徐锡伟, 张合, 田颖颖, 马思远, 房立华, 鲁人齐, 陈立春, 谭锡斌. 2018. 2017年8月8日四川省九寨沟Ms7.0地震触发滑坡全景. 地震地质, 40(1): 232-260.

[358] 许冲, 田颖颖, 沈玲玲, 马思远, 徐锡伟, 周本刚, 黄学强, 马俊学, 陈曦. 2018. 2015年尼泊尔廓尔喀Mw7.8地震滑坡数据库. 地震地质, 40(5): 1115-1128.

[359] Xu C. 2018. Landslides triggered by the 2015 Gorkha, Nepal earthquake. The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, XLII-3: 1989-1993.

[360] Chen, J., Li, Y., Zhou, W., Xu, C., Wu, S., Yue, W. 2018. AHP-based susceptibility assessment on debris flows in semiarid mountainous region: A case of Benzilan-Changbo segment in the upper Jinsha River, China. International Conference on Geo-Spatial Knowledge and Intelligence, Springer, Singapore, 495-509.

[361] 吴玮莹, 许冲*. 2018. 2014年鲁甸Mw6.2地震触发滑坡新编目. 地震地质, 40(5): 1140-1148.

[362] 鲁人齐, 徐锡伟, 陈立春, 陈桂华, 姚琪, 孙建宝, 任俊杰, 任治坤, 许冲, 魏占玉, 谭锡斌, 董绍鹏, 石峰, 吴熙彦. 2018. 2017年8月8日九寨沟Ms7.0地震构造与震区三维断层初始模型. 地震地质, 40(1): 1-11.

[363] 马思远, 许冲. 2018. 2018年地震滑坡机理与评估研讨会概述. 地震地质, 40(3): 718-719.

[364] 许冲. 2018. 环境地球科学之滑坡地震地质学. 工程地质学报, 26(1): 207-222.

[365] 许冲, 田颖颖, 马思远, 徐锡伟, 周本刚, 吴熙彦, 庄建琦, 高玉欣, 吴玮莹, 黄学强. 2018. 1920年海原8.5级地震高烈度区滑坡编录与分布规律. 工程地质学报, 26(5): 1188-1195.

[366] 许冲, 吴熙彦, 徐锡伟. 2018. 黄土高原及邻区的地震滑坡. 工程地质学报, 26(S): 260-273.

[367] 王世元, 许冲, 刘韶, 孔军, 王明明. 2018. 龙门山前山断裂南段强震崩塌与1327年天全地震. 大地测量与地球动力学, 38(6): 609-613.

（2017年）

[368] Xu C. 2017. The landslide that dammed Mengda Lake was not triggered by the 1927 Gulang, China, M8 earthquake. Journal of Paleolimnology, 57(2): 157-161.

[369] Xu C, Tian Y, Zhou B, Ran H, Lyu G. 2017. Landslide damage along Araniko Highway and Pasang Lhamu Highway and regional assessment of landslide hazard related to the Gorkha, Nepal earthquake of 25 April 2015. Geoenvironmental Disasters, 4(1): 14.

[370] Tian Y, Xu C*, Chen J, Hong H. 2017. Spatial distribution and susceptibility analyses of pre-earthquake and coseismic landslides related to the Ms 6.5 earthquake of 2014 in Ludian, Yunan, China. Geocarto International, 32(9): 978-989.

[371] Tian Y, Xu C*, Chen J, Zhou Q, Shen L. 2017. Geometrical characteristics of earthquake-induced landslides and correlations with control factors: A case study of the 2013 Minxian, Gansu, China, Mw 5.9 event. Landslides, 14(6): 1915-1927.

[372] Chen F, Yu B, Xu C, Li B. 2017. Landslide detection using probability regression, a case study of Wenchuan, northwest of Chengdu. Applied Geography, 89: 32-40.

[373] Chen H, Xie Q, Lan R, Li Z, Xu C, Yu S. 2017. Seismic damage to schools subjected to Nepal earthquakes, 2015. Natural Hazards, 88(1): 247-284.

[374] Hong H, Chen W, Xu C, Youssef AM, Pradhan B, Tien Bui D. 2017. Rainfall-induced landslide susceptibility assessment at the Chongren area (China) using frequency ratio, certainty factor, and index of entropy. Geocarto International, 32(2): 139-154.

[375] Hong H, Ilia I, Tsangaratos P, Chen W, Xu C. 2017. A hybrid fuzzy weight of evidence method in landslide susceptibility analysis on the Wuyuan area, China. Geomorphology, 290: 1-16.

[376] Hong H, Pradhan B, Sameen MI, Chen W, Xu C. 2017. Spatial prediction of rotational landslide using geographically weighted regression, logistic regression, and support vector machine models in Xing Guo area (China). Geomatics, Natural Hazards and Risk, 8(2): 1997-2022.

[377] Hong H, Pradhan B, Tien Bui D, Xu C, Youssef AM, Chen W. 2017. Comparison of four kernel functions used in support vector machines for landslide susceptibility mapping: a case study at Suichuan area (China). Geomatics, Natural Hazards and Risk, 8(2): 544-569.

[378] Hong H, Tsangaratos P, Chen W, Xu C. 2017. Comparing the performance of a logistic regression and a random forest model in landslide susceptibility assessments. the case of Wuyuan area, China. World Landslide Forum 4, 2: 1043-1050.

[379] Hong H, Xu C, Chen W. 2017. Providing a landslide susceptibility map in Nancheng County, China, by implementing support vector machines. American Journal of Geographic Information System, 6(1A): 1-13.

[380] Li B, Xing A, Xu C. 2017. Simulation of a long-runout rock avalanche triggered by the Lushan earthquake in the Tangjia Valley, Tianquan, Sichuan, China. Engineering Geology, 218: 107-116.

[381] Tan X, Xu X, Lee Y-H, Lu R, Liu Y, Xu C, Li K, Yu G, Kang W. 2017. Late Cenozoic thrusting of major faults along the central segment of Longmen Shan, eastern Tibet: Evidence from low-temperature thermochronology. Tectonophysics, 712-713: 145-155.

[382] Tsangaratos P, Ilia I, Hong H, Chen W, Xu C. 2017. Applying Information Theory and GIS-based quantitative methods to produce landslide susceptibility maps in Nancheng County, China. Landslides, 14(3): 1091-1111.

[383] Wang W, Godard V, Liu-Zeng J, Scherler D, Xu C, Zhang J, Xie K, Bellier O, Ansberque C, de Sigoyer J, ASTER Team. 2017. Perturbation of fluvial sediment fluxes following the 2008 Wenchuan earthquake. Earth Surface Processes and Landforms, 42(15): 2611-2622.

[384] Xie Q, Lü G, Chen H, Xu C, Feng B. 2017. Seismic damage to road networks subjected to earthquakes in Nepal, 2015. Earthquake Engineering and Engineering Vibration, 16(3): 649-670.

[385] 姚琪, 宋金, 程佳, 杨文, 许冲, 赵静. 2017. 大凉山次级块体的整体抬升和逆时针转动. 地质科学, 52(2): 328-342.

[386] 徐锡伟, 陈桂华, 王启欣, 陈立春, 任治坤, 许冲, 魏占玉, 鲁人齐, 谭锡斌, 董绍鹏, 石峰. 2017. 九寨沟地震发震断层属性及青藏高原东南缘现今应变状态讨论. 地球物理学报, 60(10): 4018-4026.

[387] Schmitt RG, Tanyas H, Jessee MAN, Zhu J, Biegel KM, Allstadt KE, Jibson RW, Thompson EM, van Westen CJ, Sato HP, Wald DJ, Godt JW, Gorum T, Xu C, Rathje EM, Knudsen KL (2017). An open repository of earthquake-triggered ground-failure inventories, US Geological Survey.

（2016年）

[388] Xu C, Shen L, Wang G. 2016. Soft computing in assessment of earthquake-triggered landslide susceptibility. Environmental Earth Sciences, 75(9): 767(761-717).

[389] Xu C, Xu X, Shen L, Yao Q, Tan X, Kang W, Ma S, Wu X, Cai J, Gao M, Li K. 2016. Optimized volume models of earthquake-triggered landslides. Scientific Reports, 6: 29797.

[390] Xu C, Xu X, Tian Y, Shen L, Yao Q, Huang X, Ma J, Chen X, Ma S. 2016. Two comparable earthquakes produced greatly different coseismic landslides: The 2015 Gorkha, Nepal and 2008 Wenchuan, China events. Journal of Earth Science, 27(6): 1008-1015.

[391] Shen L, Xu C*, Liu L. 2016. Interaction among controlling factors for landslides triggered by the 2008 Wenchuan, China Mw 7.9 earthquake. Frontiers of Earth Science, 10(2): 264-273.

[392] Tian Y, Xu C*, Xu X, Chen J. 2016. Detailed inventory mapping and spatial analyses to landslides induced by the 2013 Ms 6.6 Minxian earthquake of China. Journal of Earth Science, 27(6): 1016-1026.

[393] Hong H, Pradhan B, Jebur MN, Tien Bui D, Xu C, Akgun A. 2016. Spatial prediction of landslide hazard at the Luxi area (China) using support vector machines. Environmental Earth Sciences, 75(1): 40(41-14).

[394] Hong H, Xu C, Liu X, Chen W. 2016. Interpretation and research on landuse based on Landsat 7 ETM Plus remote sensing data. World Multidisciplinary Earth Sciences Symposium (WMESS 2016), IOP Conf. Series: Earth and Environmental Science, 44(032003): 1-5.

[395] Xiao JZ, Dai FC, Wei YQ, Xing YC, Cai H, Xu C. 2016. Analysis of mechanical behavior in a pipe roof during excavation of a shallow bias tunnel in loose deposits. Environmental Earth Sciences, 75(4): 293.

[396] Xiao JZ, Dai FC, Wei YQ, Xing YC, Cai H, Xu C. 2016. Comparative analysis of excavation schemes for a tunnel constructed through loose deposits. Journal of Performance of Constructed Facilities, 30(4): 04015061, 04015011 pages.

[397] 沈玲玲, 刘连友, 许冲, 王静璞. 2016. 基于多模型的滑坡易发性评价——以甘肃岷县漳县地震滑坡为例. 工程地质学报, 24(1): 19-28.

[398] 谢超, 周本刚, 李正芳, 章龙胜, 李姜一, 许冲, 刘红. 2016. 墨脱区域滑坡滑带土矿物谱学特征及其工程意义. 光谱学与光谱分析, 36(7): 2266-2270.

[399] 陈剑, 黎艳, 许冲. 2016. 金沙江干热河谷区泥石流易发性评价模型及应用. 山地学报, 34(4): 460-467.

（2015年）

[400] Xu C. 2015. Preparation of earthquake-triggered landslide inventory maps using remote sensing and GIS technologies: Principles and case studies. Geoscience Frontiers, 6(6): 825-836.

[401] Xu C, Xu X, Shyu JBH. 2015. Database and spatial distribution of landslides triggered by the Lushan, China Mw 6.6 earthquake of 20 April 2013. Geomorphology, 248: 77-92.

[402] Xu C, Xu X, Shyu JBH, Gao M, Tan X, Ran Y, Zheng W. 2015. Landslides triggered by the 20 April 2013 Lushan, China, Mw 6.6 earthquake from field investigations and preliminary analyses. Landslides, 12(2): 365-385.

[403] Xu C (2015). Inventory mapping of landslides caused by the 2013 Lushan, China Mw 6.6 earthquake. Emerging Economies, Risk and Development, and Intelligent Technology: Proceedings of the 5th International Conference on Risk Analysis and Crisis Response, June 1-3, 2015, Tangier, Morocco: 117-122.

[404] Xu C (2015). Landslides caused by the Mw 6.1 Ludian, China earthquake of August 3, 2014. Emerging Economies, Risk and Development, and Intelligent Technology: Proceedings of the 5th International Conference on Risk Analysis and Crisis Response, June 1-3, 2015, Tangier, Morocco: 449-453.

[405] Xu X, Xu C, Yu G, Wu X, Li X, Zhang J. 2015. Primary surface ruptures of the Ludian Mw 6.2 Earthquake, southeastern Tibetan Plateau, China. Seismological Research Letters, 86(6): 1622-1635.

[406] Guo D, He C, Xu C, Hamada M. 2015. Analysis of the relations between slope failure distribution and seismic ground motion during the 2008 Wenchuan earthquake. Soil Dynamics and Earthquake Engineering, 72: 99-107.

[407] Hong H, Pradhan B, Tien Bui D, Xu C (2015). Landslide susceptibility assessment at the Suichuan area (China) using support vector machine model. Emerging Economies, Risk and Development, and Intelligent Technology: Proceedings of the 5th International Conference on Risk Analysis and Crisis Response, June 1-3, 2015, Tangier, Morocco: 333-340.

[408] Hong H, Pradhan B, Xu C, Tien Bui D. 2015. Spatial prediction of landslide hazard at the Yihuang area (China) using two-class kernel logistic regression, alternating decision tree and support vector machines. Catena, 133: 266-281.

[409] Hong H, Xu C, Revhaug I, Tien Bui D (2015). Spatial prediction of landslide hazard at the Yihuang area (China): A comparative study on the predictive ability of backpropagation multi-layer perceptron neural networks and radial basic function neural networks. Cartography - Maps Connecting the World, 27th International Cartographic Conference 2015 - ICC2015: 175-188.

[410] Hong H, Xu C, Tien Bui D. 2015. Landslide susceptibility assessment at the Xiushui area (China) using frequency ratio model. Procedia Earth and Planetary Science, 15: 513-517.

[411] Li K, Xu X-W, Tan X-B, Chen G-H, Xu C, Kang W-J. 2015. Late Quaternary deformation of the Longquan anticline in the Longmenshan thrust belt, eastern Tibet, and its tectonic implication. Journal of Asian Earth Sciences, 112: 1-10.

[412] Liu L, Xu C, Xu X, Tian Y, Ran Y, Chen J. 2015. Interactive statistical analysis of predisposing factors for earthquake-triggered landslides: a case study of the 2013 Lushan, China Ms 7.0 earthquake. Environmental Earth Sciences, 73(8): 4729-4738.

[413] Tian Y, Xu C, Chen J (2015) Regional risk assessment of earthquake-triggered landslides. Journal of Risk Analysis and Crisis Response, 5(4): 234-245.

[414] Shen L, Liu L, Yang W, Xu C, Wang J (2015). Rainfall threshold analysis for the initiation of landslides in Sichuan Province of China. Emerging Economies, Risk and Development, and Intelligent Technology: Proceedings of the 5th International Conference on Risk Analysis and Crisis Response, June 1-3, 2015, Tangier, Morocco: 441-447.

[415] Shen LL, Liu LY, Wang JP, Xu C (2015). Earthquake-induced landslide susceptibility evaluation based on fuzzy logic and Shannon's entropy integrated information value models in the 2013 Minxian, China earthquake-affected area. Emerging Economies, Risk and Development, and Intelligent Technology: Proceedings of the 5th International Conference on Risk Analysis and Crisis Response, June 1-3, 2015, Tangier, Morocco: 217-222.

[416] Tian Y, Xu C, Chen J (2015). Spatial distribution analyses of pre-earthquake and coseismic landslides related to the 2014 Ludian Ms 6.5 Earthquake. Emerging Economies, Risk and Development, and Intelligent Technology: Proceedings of the 5th International Conference on Risk Analysis and Crisis Response, June 1-3, 2015, Tangier, Morocco: 391-397.

[417] Yao Q, Xing H, Xu C, Zhang W (2015). Dip angle and dissimilar materials in the Longmen Shan: Insights from numerical models. Emerging Economies, Risk and Development, and Intelligent Technology: Proceedings of the 5th International Conference on Risk Analysis and Crisis Response, June 1-3, 2015, Tangier, Morocco: 435-440.

[418] 许冲. 2015. 2008年汶川地震前的中国大陆地震单体滑坡与边坡地震响应. 科技导报, 33(1): 107-119.

[419] 许冲. 2015. 利用同震滑坡分析2014年鲁甸地震震源性质与破裂过程. 工程地质学报, 23(4): 755-759.

[420] 田颖颖, 许冲*, 徐锡伟, 吴赛儿, 陈剑. 2015. 2014年鲁甸Ms6.5地震震前与同震滑坡空间分布规律对比分析. 地震地质, 37(1): 291-306.

[421] 沈玲玲, 杨文涛, 刘连友, 许冲, 王静璞. 2015. 基于TRMM降雨数据的四川省地质灾害降雨阈值分析. 灾害学, 30(2): 220-227.

[422] 黎艳, 陈剑, 许冲, 李凌婧, 姚鑫. 2015. 基于AHP的半干旱区泥石流易发性评价：以金沙江上游奔子栏—昌波河段为例. 现代地质, 29(4): 975-982.

[423] 刘丽娜, 许冲*, 陈剑. 2015. 基于地貌信息熵与滑坡物源的芦山地震区泥石流危险性评价. 地震地质, 37(3): 880-892.

[424] 谭锡斌, 徐锡伟, 李元希, 袁仁茂, 于贵华, 许冲. 2015. 龙门山中段中央断裂和前山断裂的晚新生代垂向活动性差异及其构造意义. 地球物理学报, 58(1): 143-152.

[425] 龙维, 陈剑, 王鹏飞, 许冲, 刘辉, 孙进忠. 2015. 金沙江上游特米大型古滑坡的成因及古地震参数反分析. 地震研究, 38(4): 568-575.

（2014年）

[426] Xu C. 2014. Do buried-rupture earthquakes trigger less landslides than surface-rupture earthquakes for reverse faults? Geomorphology, 216: 53-57.

[427] Xu C. 2014. A preliminary spatial distribution analysis of landslides triggered by the 2010 Haiti earthquake. Landslide Science for a Safer Geoenvironment, Proceedings of World Landslide Forum 3, 2-6 June 2014, Beijing, 3: 183-190.

[428] Xu C, Shyu JBH, Xu X. 2014. Landslides triggered by the 12 January 2010 Port-au-Prince, Haiti, Mw = 7.0 earthquake: visual interpretation, inventory compiling, and spatial distribution statistical analysis. Natural Hazards and Earth System Sciences, 14(7): 1789-1818.

[429] Xu C, Xu X. 2014. The spatial distribution pattern of landslides triggered by the 20 April 2013 Lushan earthquake of China and its implication to identification of the seismogenic fault. Chinese Science Bulletin, 59(13): 1416-1424.

[430] Xu C, Xu X. 2014. Statistical analysis of landslides caused by the Mw 6.9 Yushu, China, earthquake of April 14, 2010. Natural Hazards, 72(2): 871-893.

[431] Xu C, Xu X, Gorum T, van Westen CJ, Fan XM. 2014. Did the 2008 Wenchuan earthquake lead to a net volume loss? Landslide Science for a Safer Geoenvironment, Proceedings of World Landslide Forum 3, 2-6 June 2014, Beijing, 3: 191-196.

[432] Xu C, Xu X, Pourghasemi HR, Pradhan B, Iqbal J. 2014. Volume, gravitational potential energy reduction, and regional centroid position change in the wake of landslides triggered by the 14 April 2010 Yushu earthquake of China. Arabian Journal of Geosciences, 7(6): 2129-2138.

[433] Xu C, Xu X, Shyu JBH, Zheng W, Min W. 2014. Landslides triggered by the 22 July 2013 Minxian-Zhangxian, China, Mw 5.9 earthquake: Inventory compiling and spatial distribution analysis. Journal of Asian Earth Sciences, 92: 125-142.

[434] Xu C, Xu X, Yao X, Dai F. 2014. Three (nearly) complete inventories of landslides triggered by the May 12, 2008 Wenchuan Mw 7.9 earthquake of China and their spatial distribution statistical analysis. Landslides, 11(3): 441-461.

[435] Gorum T, Korup O, van Westen CJ, van der Meijde M, Xu C, van der Meer FD. 2014. Why so few? Landslides triggered by the 2002 Denali earthquake, Alaska. Quaternary Science Reviews, 95: 80-94.

[436] Wang M, Yang WT, Shi PJ, Xu C, Liu LY. 2014. Diagnosis of vegetation recovery in mountainous regions after the Wenchuan Earthquake. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 7(7): 3029-3037.

[437] Wang PF, Chen J, Dai FC, Long W, Xu C, Sun JM, Cui ZJ. 2014. Chronology of relict lake deposits around the Suwalong paleolandslide in the upper Jinsha River, SE Tibetan Plateau: implications to Holocene tectonic perturbations. Geomorphology, 217: 193-203.

[438] Xiao JZ, Dai FC, Wei YQ, Min H, Xu C, Tu XB, Wang ML. 2014. Cracking mechanism of secondary lining for a shallow and asymmetrically-loaded tunnel in loose deposits. Tunnelling and Underground Space Technology, 43: 232-240.

[439] 许冲. 2014. 2008年汶川地震前的中国大陆地震滑坡研究. 科技导报, 32(16): 63-77.

[440] 许冲, 徐锡伟. 2014. 21世纪初几次大地震事件触发滑坡基础数据建设. 地震地质, 36(1): 90-104.

[441] 许冲, 徐锡伟. 2014. 2013年芦山地震滑坡空间分布样式对盲逆断层构造的反映. 科学通报, 59(11): 979-986.

[442] 许冲, 徐锡伟, 沈玲玲, 窦帅, 吴赛儿, 田颖颖, 李西. 2014. 2014年鲁甸Ms6.5地震触发滑坡编录及其对一些地震参数的指示. 地震地质, 36(4): 1186-1203.

[443] 肖建章, 戴福初, 闵弘, 许冲, 涂新斌, 王小东. 2014. 松散堆积体围岩隧道施工方案对比分析. 沈阳工业大学学报, 36(1): 106-113.

[444] 徐锡伟, 程佳, 许冲, 李西, 于贵华, 陈桂华, 谭锡斌, 吴熙彦. 2014. 青藏高原块体运动模型与地震活动主体地区讨论：鲁甸和景谷地震的启示. 地震地质, 36(4): 1116-1134.

[445] 刘丽娜, 许冲, 徐锡伟, 陈剑. 2014. GIS支持下基于AHP方法的2013年芦山地震区滑坡危险性评价. 灾害学, 29(4): 183-191.

[446] 刘丽娜, 许冲, 陈剑. 2014. GIS支持下基于CF方法的2013年芦山地震滑坡因子敏感性分析. 工程地质学报, 22(6): 1176-1186.

[447] 卢永兴, 肖建章, 许冲, 谢启智, 袁华. 2014. 蓄水与施工作用下滑坡变形机制与稳定性分析. 工程地质学报, 22(3): 386-395.

（2013年）

[448] Xu C. 2013. Assessment of earthquake-triggered landslide susceptibility based on expert knowledge and information value methods: A case study of the 20 April 2013 Lushan, China Mw6.6 earthquake. Disaster Advances, 6(13): 119-130.

[449] Xu C (2013). Correlations of earthquake-triggered landslides volume and seismogenic fault: A case study of the 12 May 2008 Wenchuan earthquake, China. International Symposium & 9th Asian Regional Conference of IAEG, Global View of Engineering Geology and the Environment. Taylor & Francis Group, London, ISBN 978-1-138-00078-0. Beijing: 93-98.

[450] Xu C (2013). Earthquake-triggered landslide susceptibility mapping in the 2010 Yushu, China earthquake struck area using artificial neural network model. International Symposium & 9th Asian Regional Conference of IAEG, Global View of Engineering Geology and the Environment. Taylor & Francis Group, London, ISBN 978-1-138-00078-0. Beijing: 217-223.

[451] Xu C. 2013. Preliminary study on landslides triggered by the April 20, 2013 Lushan, Mw 6.6 earthquake of China. Acta Geologica Sinica (English Edition), 87(S): 402-402.

[452] Xu C, Xu X. 2013. Controlling parameter analyses and hazard mapping for earthquake-triggered landslides: an example from a square region in Beichuan County, Sichuan Province, China. Arabian Journal of Geosciences, 6(10): 3827-3839.

[453] Xu C, Xu X, Yao Q, Wang Y. 2013. GIS-based bivariate statistical modelling for earthquake-triggered landslides susceptibility mapping related to the 2008 Wenchuan earthquake, China. Quarterly Journal of Engineering Geology and Hydrogeology, 46(2): 221-236.

[454] Xu C, Xu X, Yu G. 2013. Landslides triggered by slipping-fault-generated earthquake on a plateau: an example of the 14 April 2010, Ms 7.1, Yushu, China earthquake. Landslides, 10(4): 421-431.

[455] Xu C, Xu X, Zhou B, Yu G. 2013. Revisions of the M 8.0 Wenchuan earthquake seismic intensity map based on co-seismic landslide abundance. Natural Hazards, 69(3): 1459-1476.

[456] Xu C, Xu XW, Dai FC, Wu ZD, He HL, Wu XY, Xu SN, Shi F. 2013. Application of an incomplete landslide inventory, logistic regression model and its validation for landslide susceptibility mapping related to the May 12, 2008 Wenchuan earthquake of China. Natural Hazards, 68(2): 883-900.

[457] Pourghasemi HR, Jirandeh AG, Pradhan B, Xu C, Gokceoglu C. 2013. Landslide susceptibility mapping using support vector machine and GIS at the Golestan Province, Iran. Journal of Earth System Science, 122(2): 349-369.

[458] Xu XW, Wen XZ, Han ZJ, Chen GH, Li CY, Zheng WJ, Zhang SM, Ren ZK, Xu C, Tan XB, Wei ZY, Wang MM, Ren JJ, He ZT, Liang MJ. 2013. Lushan Ms 7.0 earthquake: A blind reserve-fault event. Chinese Science Bulletin, 58(28-29): 3437-3443.

[459] Yao Q, Xu X, Xing H, Xu C, Wang X. 2013. Decomposition and evolution of intracontinental strike-slip faults in eastern Tibetan Plateau. Acta Geologica Sinica (English Edition), 87(2): 304-317. （张树辉）

[460] Yuan RM, Deng QH, Cunningham D, Xu C, Xu XW, Chang CP. 2013. Density distribution of landslides triggered by the 2008 Wenchuan earthquake and their relationships to peak ground acceleration. Bulletin of the Seismological Society of America, 103(4): 2344-2355.

[461] Xu C, Xu X, Yu G (2013) Landslides and slope fissures triggered by the April 14, 2010 Yushu Earthquake, China. Earthquake Research in China, 27(1): 1-22.

[462] 许冲. 2013. 2010年海地太子港地震触发滑坡危险性区划和合理性检验. 科技导报, 31(12): 42-47.

[463] 许冲. 2013. 2013年芦山Ms7.0级地震滑坡易发性快速评价方法. 科技导报, 31(28/29): 15-23.

[464] 许冲. 2013. 基于最大似然法的地震滑坡信息自动提取及其可靠性检验. 中国地质灾害与防治学报, 24(3): 19-25.

[465] 许冲. 2013. 实际滑坡是滑坡危险性评价结果合理性检验最好的标准. 工程地质学报, 21(6): 908-911.

[466] 许冲, 肖建章. 2013. 2013年芦山地震滑坡空间分布分析——以太平镇东北方向的一个典型矩形区为例. 地震地质, 35(2): 436-451.

[467] 许冲, 徐锡伟. 2013. 2008年汶川地震导致的斜坡物质响应率及其空间分布规律分析. 岩石力学与工程学报, 32(S2): 3888-3908.

[468] 许冲, 徐锡伟. 2013. 玉树地震滑坡体积、重力势能降与造成的区域质心改变定量研究. 科技导报, 31(2): 22-29.

[469] 许冲, 徐锡伟. 2013. 地震滑坡编目图误差分析. 地质论评, 59(6): 1177-1188.

[470] 许冲, 徐锡伟, 于贵华. 2013. 基于证据权方法的玉树地震滑坡危险性评价. 地震地质, 35(1): 151-164.

[471] 许冲, 徐锡伟, 吴熙彦, 戴福初, 姚鑫, 姚琪. 2013. 2008年汶川地震滑坡详细编目及其空间分布规律分析. 工程地质学报, 21(1): 25-44.

[472] 许冲, 徐锡伟, 郑文俊. 2013. 2013年7月22日岷县漳县Ms6.6级地震滑坡编录与空间分布规律分析. 工程地质学报, 21(5): 736-749.

[473] 许冲, 徐锡伟, 郑文俊, 魏占玉, 谭锡斌, 韩竹军, 李传友, 梁明剑, 李志强, 王虎, 王明明, 任俊杰, 张世民, 何仲太. 2013. 2013年四川省芦山“4.20”7.0级强烈地震触发滑坡. 地震地质, 35(3): 641-660.

[474] 许冲, 徐锡伟, 郑文俊, 闵伟, 任治坤, 李志强. 2013. 2013年甘肃岷县漳县6.6级地震触发滑坡及其构造分析. 地震地质, 35(3): 616-626.

[475] 许冲, 戴福初, 徐素宁, 徐锡伟, 何宏林, 吴熙彦, 石峰. 2013. 基于逻辑回归模型的汶川地震滑坡危险性评价与检验. 水文地质工程地质, 40(3): 98-104.

[476] 田颖颖, 许冲, 徐锡伟, 陈剑. 2013. 2013年岷县漳县Ms6.6地震滑坡特征参数分析. 地震工程学报, 35(4): 761-767.

[477] 李传友, 徐锡伟, 甘卫军, 闻学泽, 郑文俊, 魏占玉, 许冲, 谭锡斌, 陈桂华, 梁明剑, 李新男. 2013. 四川省芦山Ms7.0地震发震构造分析. 地震地质, 35(3): 671-683.

[478] 肖建章, 戴福初, 闵弘, 许冲, 涂新斌, 王明龙. 2013. 浅埋偏压堆积体围岩隧道二次衬砌开裂机理分析. 现代隧道技术, 50(6): 101-109.

[479] 徐锡伟, 闻学泽, 韩竹军, 陈桂华, 李传友, 郑文俊, 张世民, 任治坤, 许冲, 谭锡斌, 魏占玉, 王明明, 任俊杰, 何仲, 梁明剑. 2013. 四川芦山7.0级强震: 一次典型的盲逆断层型地震. 科学通报, 58(20): 1887-1893.

[480] 廖彬秀, 戴福初, 闵弘, 王明龙, 许冲. 2013. 降雨条件下边坡水文响应及其变形过程分析——以深圳大龙山边坡为例. 水文地质工程地质, 40(4): 63-69.

[481] 谭锡斌, 李元希, 徐锡伟, 陈玟禹, 许冲, 于贵华. 2013. 低温热年代学数据对龙门山推覆构造带南段新生代构造活动的约束. 地震地质, 35(3): 506-517.

[482] 郑文俊, 袁道阳, 何文贵, 闵伟, 任治坤, 刘兴旺, 王爱国, 许冲, 葛伟鹏, 李峰. 2013. 甘肃东南地区构造活动与2013年岷县—漳县Ms6.6级地震孕震机制. 地球物理学报, 56(12): 4058-4071.

[483] 郑文俊, 闵伟, 何文贵, 任治坤, 刘兴旺, 王爱国, 许冲, 李峰. 2013. 2013年甘肃岷县漳县6.6级地震震害分布特征及发震构造分析. 地震地质, 35(3): 604-615.

（2012年）

[484] Xu C, Dai F, Xu X, Lee YH. 2012. GIS-based support vector machine modeling of earthquake-triggered landslide susceptibility in the Jianjiang River watershed, China. Geomorphology, 145-146: 70-80.

[485] Xu C, Xu X. 2012. Comment on “Spatial distribution analysis of landslides triggered by 2008.5. 12 Wenchuan Earthquake, China” by Shengwen Qi, Qiang Xu, Hengxing Lan, Bing Zhang, Jianyou Liu [Engineering Geology 116 (2010) 95–108]. Engineering Geology, 133-134: 40-42.

[486] Xu C, Xu X, Dai F, Saraf AK. 2012. Comparison of different models for susceptibility mapping of earthquake triggered landslides related with the 2008 Wenchuan earthquake in China. Computers & Geosciences, 46: 317-329.

[487] Xu C, Xu X, Dai F, Xiao J, Tan X, Yuan R. 2012. Landslide hazard mapping using GIS and weight of evidence model in Qingshui River watershed of 2008 Wenchuan earthquake struck region. Journal of Earth Science, 23(1): 97-120.

[488] Xu C, Xu X, Lee YH, Tan X, Yu G, Dai F. 2012. The 2010 Yushu earthquake triggered landslide hazard mapping using GIS and weight of evidence modeling. Environmental Earth Sciences, 66(6): 1603-1616.

[489] Xu C, Xu X, Yu G. 2012. Earthquake triggered landslide hazard mapping and validation related with the 2010 Port-au-Prince, Haiti earthquake. Disaster Advances, 5(4): 1297-1304.

[490] Tan XB, Yuan RM, Xu XW, Chen GH, Klinger Y, Chang CP, Ren JJ, Xu C, Li K. 2012. Complex surface rupturing and related formation mechanisms in the Xiaoyudong area for the 2008 Mw 7.9 Wenchuan Earthquake, China. Journal of Asian Earth Sciences, 58: 132-142.

[491] 许冲. 2012. 汶川地震滑坡分布规律与危险性评价. 岩石力学与工程学报, 31(2): 432-432.

[492] 许冲. 2012. 汶川地震滑坡详细编录及其与全球其他地震滑坡事件对比. 科技导报, 30(25): 18-26.

[493] 许冲, 徐锡伟. 2012. 走滑断裂型地震诱发的滑坡在断裂两盘的空间分布差异. 地质通报, 31(4): 532-540.

[494] 许冲, 徐锡伟. 2012. 俯冲带地区压扭断裂型地震触发滑坡及其剥蚀厚度空间分布规律分析. 工程地质学报, 20(5): 732-744.

[495] 许冲, 徐锡伟. 2012. 基于GIS与ANN模型的地震滑坡易发性区划. 地质科技情报, 31(3): 116-121.

[496] 许冲, 徐锡伟. 2012. 基于不同核函数的2010年玉树地震滑坡空间预测模型研究. 地球物理学报, 55(9): 2994-3005.

[497] 许冲, 徐锡伟. 2012. 逻辑回归模型在玉树地震滑坡危险性评价中的应用与检验. 工程地质学报, 20(3): 326-333.

[498] 许冲, 徐锡伟, 于贵华. 2012. 玉树地震滑坡分布调查及其特征与形成机制. 地震地质, 34(1): 47-62.

[499] 许冲, 徐锡伟, 于贵华, 吴熙彦. 2012. 玉树地震滑坡影响因子敏感性分析. 科技导报, 30(1): 18-24.

[500] Xu C, Xu X-W. 2012. Spatial prediction models for seismic landslides based on support vector machine and varied kernel functions: A case study of the 14 April 2010 Yushu earthquake in China. Chinese Journal of Geophysics, 55(6): 666-679.

[501] 李帅, 许冲, 陈建波, 谭明, 吴国栋, 常想德, 阿里木江, 罗炬 (2012) 新疆新源、和静交界Ms6.6地震地质灾害诱发因素浅析. 内陆地震, 26(4): 365-372.

[502] 赵洲, 侯恩科, 王建智, 邓念东, 许冲. 2012. 县域滑坡灾害风险管理信息系统研发与应用：以陕西省宁强县为例. 工程地质学报, 20(2): 170-182.

（2011年）

[503] Dai FC, Tu XB, Xu C, Gong QM, Yao X. 2011. Rock avalanches triggered by oblique-thrusting during the 12 May 2008 Ms 8.0 Wenchuan earthquake, China. Geomorphology, 132(3-4): 300-318.

[504] Dai FC, Xu C, Yao X, Xu L, Tu XB, Gong QM. 2011. Spatial distribution of landslides triggered by the 2008 Ms 8.0 Wenchuan earthquake, China. Journal of Asian Earth Sciences, 40(4): 883-895.

[505] 许冲, 徐锡伟, 戴福初, 王彦颖. 2011. 2010年4月14日玉树地震滑坡空间分布与控制变量分析. 工程地质学报, 19(4): 505-510.

[506] 许冲, 戴福初, 肖建章. 2011. “5.12” 汶川地震诱发滑坡特征参数统计分析. 自然灾害学报, 20(4): 147-153.

[507] 许冲, 戴福初, 徐锡伟. 2011. 基于GIS平台与证据权的地震滑坡易发性评价. 地球科学: 中国地质大学学报, 36(6): 1155-1164.

[508] 曹琰波, 戴福初, 许冲, 涂新斌, 闵弘, 崔芳鹏. 2011. 唐家山滑坡变形运动机制的离散元模拟. 岩石力学与工程学报, 30(S1): 2878-2887.

[509] 陈剑, 崔之久, 戴福初, 许冲. 2011. 金沙江奔子栏-达日河段大型泥石流堆积扇的成因机制. 山地学报, 29(3): 312-319.

（2010年）

[510] 许冲, 戴福初, 姚鑫, 赵洲, 肖建章. 2010. 基于GIS与确定性系数分析方法的汶川地震滑坡易发性评价. 工程地质学报, 18(1): 15-26.

[511] 许冲, 戴福初, 姚鑫, 陈剑, 涂新斌, 肖建章, 孙瑜. 2010. 汶川地震滑坡在两个典型区域内的分布研究. 中国科研实验室研究生院学报, 27(5): 621-631.

[512] 许冲, 戴福初, 姚鑫, 陈剑, 涂新斌, 曹琰波, 肖建章. 2010. 基于GIS的汶川地震滑坡灾害影响因子确定性系数分析. 岩石力学与工程学报, 29(S1): 2972-2981.

[513] 许冲, 戴福初, 徐锡伟. 2010. 汶川地震滑坡灾害研究综述. 地质论评, 56(6): 860-874.

（2009年）

[514] 许冲, 吉彬彬, 蒋日波, 刘灿. 2009. 基于SLOPE/W的汾离高速公路靳家庄1#滑坡研究. 中国地质灾害与防治学报, 19(4): 33-36.

[515] 许冲, 戴福初, 姚鑫. 2009. 汶川地震诱发滑坡灾害的数量与面积. 科技导报, 27(11): 79-81.

[516] 许冲, 戴福初, 姚鑫, 陈剑, 涂新斌, 孙瑜, 王志一. 2009. GIS支持下基于层次分析法的汶川地震区滑坡易发性评价. 岩石力学与工程学报, 28(S2): 3978-3985.

[517] 许冲, 戴福初, 陈剑, 涂新斌, 许领, 李维朝, 田伟, 曹琰波, 姚鑫. 2009. 汶川Ms8.0地震重灾区次生地质灾害遥感精细解译. 遥感学报, 13(4): 754-762.

[518] 许冲, 陈剑, 许领, 李维朝, 曹琰波. 2009. 可拓理论在地质工程领域应用中的改进. 科技导报, 27(3): 35-39.

[519] 姚鑫, 许冲, 戴福初, 张永双. 2009. 四川汶川Ms8级地震引发的滑坡与地层岩性、坡度的相关性. 地质通报, 28(8): 1156-1162.

[520] 许领, 戴福初, 邝国麟, 闵弘, 许冲. 2009. IKONOS影像在黑方台黄土滑坡调查中的应用. 遥感学报, 13(4): 723-734.

论著与科普： 

[1] Xu C, He X, Qi W, Meena SR, Yao Q, Yang W, Taylor L (2025). Prevention, mitigation, and relief of compound and chained natural hazards , volume II, Lausanne: Frontiers Media SA. ISBN: 9782832563908

[2] Xu C, He X, Qi W, Meena SR, Yao Q, Yang W, Taylor L (2024). Prevention, mitigation, and relief of compound and chained natural hazards, Lausanne: Frontiers Media SA. ISBN: 9782832552124

[3] 中国地震局地震预测研究所, 邵志刚, 张令心, 王晓青, 许冲, 王武星, 窦爱霞, 季灵运, 徐岳仁, 刘琦, 徐伟进, 石富强, 龙锋, 钟江荣, 余世舟, 邵霄怡, 王芃, 潘正洋, 丁香, 丁玲, 王书民, 袁小祥, 邹俊杰, 张辉, 刘晓霞, 冯蔚, 孙珂, 宋倩, 许月怡, 王振宇, 欧阳芳, 张冰, 梁泽毓, 李凯月 (2024). 2021~2030年中国大陆地震危险区与地震灾害损失预测研究. 北京, 地震出版社. ISBN: 9787502856229

[4] Chen S, Xu C, Li S (2024). Earthquake Engineering Technology and Its Application, MDPI. ISBN: 9783725821150

[5] Chen J, Xu C (2024). Geological Hazards and Risk Management, MDPI. ISBN: 9783725810116

[6] Wen H, Li W, Xu C, Daimaru H (2023). Landslides in Forests around the World: Causes and Mitigation, MDPI. ISBN: 9783036575063

[7] Jiang H, Xu C, Liu X, Adhikari BR, Tan X, Yuan RM (2023). Environmental change driven by climatic change, tectonism and landslide, Lausanne: Frontiers Media SA. ISBN: 9782832515259

[8] Xu C, Gorum T, Tanyas H (2022). Application of Remote Sensing and GIS in Earthquake-Triggered Landslides, Lausanne: Frontiers Media SA. ISBN: 9782889768332

[9] 许冲, 张英, 徐锡伟 (2021). 汛期知识与应急避险（科普绘本）. 北京, 地震出版社. ISBN: 9787502853242

[10] 邵志刚, 王武星, 刘琦, 窦爱霞, 王晓青, 武艳强, 季灵运, 张令心, 徐伟进, 许冲, 王芃, 魏文薪, 潘正洋, 刘晓霞, 尹晓菲, 冯蔚, 孙珂 (2024). 我国大陆地区未来10年地震危险性预测与地震风险评估——2021~2030年我国大陆地震重点监视防御区技术总结报告, 中国地震局地震预测研究所: 25 pages.（重要报告）

标准： 

[1] 地震滑坡概率危险性评价，T/CADP 13—2024，2024.12.30，团体标准，第一

[2] 地震滑坡概率危险性评价专题图制图规范，T/CADP 14—2024，2024.12.30，团体标准，第一

[3] 地震滑坡分布专题图制图规范，T/CADP 15—2024，2024.12.30，团体标准，第一

[4] 地质灾害应急救援专业术语，T/CAGHPER 100—2025，2025.10.30，团体标准，第一

[5] 地质灾害应急救援现场次生灾害防范指南，T/CAGHPER 099—2025，2025.10.30，团体标准，第二

[6] 突发地质灾害应急预案编制指南，T/CAGHPER 101—2025，2025.10.30，团体标准，第七

[7] 重大线性工程地质安全风险评价技术规范，已立项，团体标准，参与

[8] 历史文化街区防灾减灾能力评估指南，已立项，团体标准，参与

国家发明专利： 

[1] 一种森林火灾过火范围和烧毁程度的自动识别方法（第二），专利号：ZL202011395730.8，授权号：CN112613347B

[2] 一种航空遥感窄视场相机拍摄控制方法（第一），专利号：ZL202110415023.9，授权号：CN113252008B

[3] 一种用于高能级冲击防护的立柱与钢丝网韧性连接构造（第二），专利号：ZL202110982548.0，授权号：CN113718669B

[4] 一种可实现震后自复位功能的边坡韧性框架结构体系及施工方法（第五），专利号：ZL202111162741.6，授权号：CN113718806B

[5] 一种地震地质灾害与财产人口损失风险预测方法及系统（第二），专利号：ZL202211095071.5，授权号：CN115565062B

[6] 一种具备韧性消能功能的崩塌落石防护网结构及安装方法（第二），专利号：ZL202111162761.3，授权号：CN113756217B

[7] 一种面向强震前后不同阶段的地质灾害评价方法（第一），专利号：ZL202011473700.4，授权号：CN112613096B

[8] 一种爆破震动响应信号的去噪方法、装置及电子设备（第八），专利号：ZL202110602114.3，授权号：CN113221828B

[9] 一种爆破震动响应信号的去噪方法、装置及电子设备（第八），专利号：ZL202110604732.1，授权号：CN113239868B

[10] 一种用于地震滑坡涌浪对桥梁上部冲击的防倾覆装置（第四），专利号：ZL202210231288.8，授权号：CN114457672B

[11] 一种用于冰水域中地震滑坡涌浪对桥梁冲击时的防落梁装置及安装方法（第三），专利号：ZL202210231283.5，授权号：CN114635346B

[12] 一种巷道围岩安全状态的检测方法、装置及电子设备（第七），专利号：ZL202110611129.6，授权号：CN113420611B

[13] 多云地区地震滑坡遥感识别方法、系统、设备及存储介质（第二），专利号：ZL202211167149.X，授权号：CN115661675B，2024年10月18日

[14] 一种基于深度学习的InSAR同震三维形变场恢复方法（第五），专利号：ZL202410367606.2，授权号：CN118226529B，2025年2月28日

[15] 一种电力巡线道路风险评估方法、装置、计算机设备、存储介质和计算机程序产品（第3），专利号：ZL202411796136.8，授权号：CN119273163B，2025年4月11日

[16] 一种林业损失价值评估方法、装置、设备及存储介质（第2），专利号：ZL202510073859.3，授权号：CN119516389B，2025年5月2日

[17] 降雨群发滑坡危险性评估方法、装置、计算机设备（第3），专利号：ZL202411331606.3，授权号：CN119106928B，2025年5月30日

[18] 一种顾及地理空间约束采样的滑坡易发性预测方法（第2），专利号：ZL202410367603.9，授权号：CN118194129B，2025年6月6日

[19] 一种基于多源数据的形变斜坡提取方法、装置及设备（第2），专利号：ZL202411950623.5，授权号：CN119941774B，2025年8月8日

[20] 一种基于单次滑坡触发事件的浅层滑坡易发性预测方法及系统（第2），专利号：ZL202510510309.3，授权号：CN120032254B，2025年11月11日

[21] 降雨型群发滑坡风险区与隐患点综合识别与评价方法（第2），专利号：ZL202510094875.0，授权号：CN120197927B，2025年12月02日

[22] 概率地震经济损失计算方法及系统（第三），CN201910339717.1

[23] 一种去除区域滑坡形变检测结果噪声的方法（第三），申请号：CN202111167943.X

[24] 防波堤中高压旋喷桩布置的确定方法、装置及系统（第七），CN202110626136.3

[25] 桥梁环境评分的获取方法及装置（第三），CN202110636885.4

[26] 一种遥感影像对的相对偏移量偏差校正方法、装置及介质（第2），CN202410038929.7

[27] 一种考虑邻域特征和信息融合的全自动滑坡易发性评价方法及系统（第2），CN202311070466.4

[28] 一种基于地震滑坡发生概率的人口损失快速评估方法（第1），CN202211668795.4

[29] 一种滑坡识别模型的训练方法、滑坡识别方法及装置（第3），CN202311172624.7

[30] 非滑坡样本的选择方法、装置、计算机设备及存储介质（第3），CN202311168975.0

[31] 一种不同地震动下的地震滑坡破坏公路危险性评估方法（第1），CN202411510915.7

[32] 地震触发滑坡危险性检测方法、装置、计算机设备、可读存储介质和程序产品（第3），CN202411341928.6

[33] 一种风力发电场边坡稳定性监测方法及装置（第2），CN202410972417.8

[34] 一种降雨地质灾害危险性模拟方法及装置（第2），CN202410892748.0

[35] 一种地震影响区道路通行性评价方法、装置（第2），CN202410708687.8

实用新型专利： 

[1] 一种对地震和降雨诱发滑坡变形进行监测的装置（第2），实用新型专利，ZL202122479795.7，授权号：CN216482793U 

[2] 一种强震作用时可消能减震的钢管混凝土梁柱（第2），实用新型专利，ZL202122479792.3，授权号：CN216476615U 

软件著作权： 

[1] 地震滑坡WebGIS分析软件平台（R1），V1.0，2019SR0400530

[2] 山体滑坡自动提取软件（R1），V1.0，2019SR0202317

[3] 基于云计算的地震滑坡管理平台（R1），V1.0，2019SR0202318

[4] 滑坡易发性评价综合管理系统（R1），V1.0，2019SR0810608

[5] 地震滑坡几何特征自动提取软件（R1），V1.0，2019SR0653670

[6] 基于Matlab与逻辑回归的滑坡易发性评价软件，V1.0，2019SR0653999

[7] 地震滑坡WebGIS分析软件平台，V2.0，2019SR0924529

[8] 基于R语言与Matlab的滑坡逻辑回归评价软件，V1.0，2019SR0769101

[9] 地震震中WebGIS管理平台，V1.0，2019SR0769086

[10] 基于随机森林模型的高分影像滑坡提取软件，V1.0，2019SR1403262

[11] 基于Matlab的海量地震滑坡运动路径与几何参数提取软件，V1.0，2019SR1403269

[12] 滑坡易发性评价机器学习系统，V1.0，2020SR0105610

[13] 基于震例的同震滑坡WebGIS平台，V1.0，2020SR0156311

[14] 同震滑坡管理与查询系统，V1.0，2020SR0711098

[15] 同震滑坡分析与可视化系统，V1.0，2020SR0892583

[16] 同震滑坡管理与查询系统（Android版），V1.0，2020SR0892576

[17] 中国地震滑坡中长期发生概率查询和可视化系统，V1.0，2020SR0892462

[18] 地震滑坡发生概率速报和应急信息展示平台系统，V1.0，2020SR0892455

[19] 滑坡易发性快速机器学习系统，V1.0，2020SR1174990

[20] 遥感实时传输系统监控软件，V1.0，2020SR1870364

[21] 气象资料业务系统J文件分钟降雨数据批量提取系统，V1.0，2020SR1897270

[22] 三维场地地震动快速评估系统，V1.0，2021SR0804264

[23] 一种批量匹配日天气现象数据到小时中的软件系统，V1.0，2021SR1271368

[24] 基于Matlab平台的预测降雨诱发滑坡软件，V1.0，2021SR1628191

[25] 降水滑坡监测预警与风险评估应用系统，V1.0，2022SR0170558

[26] 全球自然灾害信息系统，V1.0，2022SR0765964

[27] 地震地质灾害应急快速分析与制图系统，V1.0，2023SR0340505

[28] 小行星撞击地表波动传播数值模拟系统，V1.0，2023SR0158761

[29] 地震烈度快速模拟与可视化系统，V1.0，2023SR0158762

[30] 一种引入空间信息的滑坡危险性评价软件，V1.0，2023SR0576547

[31] 基于长时序遥感数据的地表形变检测反演系统，V1.0，2023SR0880741

[32] 基于Python/GDAL的深度学习分类图像处理系统，V1.0，2023SR0740617

[33] 地震海啸传播场景推演平台，V1.0，2023SR1780432

[34] 基于蒙特卡洛方法的概率地震危险性计算软件，V1.0，2023SR0875498

[35] 基于Matlab平台任意场点地震动计算系统，V1.0，2023SR0719353

[36] 滑坡危险性评价集成化决策支持系统，V1.0，2024SR0364536

[37] 地震地质灾害应急与信息管理系统，V2.0，2024SR0467702

[38] 基于通道和空间特征提取的区域尺度滑坡识别软件，V1.0，2024SR1559146

[39] 震区道路通行性分析系统，V1.0，2024SR1571612

[40] 突发地震灾害损失风险快速评估系统，V1.0，2025SR0705394

[41] 地质灾害数值模拟与仿真推演系统 [简称：GHSS系统]，V1.0，2025SR0816224

[42] 地灾智问系统 [简称：地灾智问]，V1.0，2025SR0816113

[43] 强降雨驱动的浅层滑坡物理建模与概率危险性评价软件，V1.0，2025SR1477320

[44] 东南降雨型群发滑坡短临预警技术系统，V1.0，2026SR0081283

[45] 村庄地质灾害韧性智能云评价系统，V1.0，2026SR0464919

[46] 三峡库区消落区岩体劣化监测预警平台，V1.0，2026SR0491720

[47] 三峡库区地质灾害智能评价与风险区划系统，V1.0，2026SR0491705

[48] 三峡库区地质灾害数值模拟与风险推演平台，V1.0，2026SR0464937

更新日期：2026年3月31日星期二