国家自然灾害防治研究院发布第一代地震崩滑真实概率计算原始结果
发布时间: 2021-02-10
来源: 办公室
国家自然灾害防治研究院地质灾害研究中心研发了地震崩滑真实概率第一代模型,可计算各种地形、地质、水文等因子组合下经历任何地震动下的崩滑真实概率,为解决重特大地震崩滑灾害链灾情难以预估,信息获取缓慢,灾情评估误差大,决策支持不到位等问题提出了一个切实有效的科学方案。为便利同行使用,我们发布十组原始数据,分别为我国经历0.1g、0.2g、0.3g、0.4g、0.5g、0.6g、0.7g、0.8g、0.9g、1.0g地震动峰值加速度条件下的崩滑发生真实概率(图1~10)。结合重特大地震的地震动峰值加速度分布预测结果,震区人口、道路与房屋分布等数据,可在亚分钟时间内快速计算出同震崩滑真实概率空间分布,以及地震崩滑直接导致的人员伤亡、公路阻断与房屋压埋等空间分布。
原始数据供科学研究使用。
下载链接:http://pan.baidu.com/s/1TYgVkt8Ng1Yl9zdZXoEYOg
提取码:4ks9
联系人:chongxu@ninhm.ac.cn
模型详见:
[1]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.
[2]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.
其中用到的基础滑坡数据详见:
[1]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.
[2]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.
[3]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.
[4]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.
[5]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.
[6] 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.
[7]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.
[8]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.
[9] 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 spatial distribution. Journal of Earth Science, 31(4): 853-866.
[10]Tian Y, Xu C, Ma S, Xu X, Wang S, Zhang H (2019) Inventory and spatial distribution of landslides triggered by the 8th August 2017 Mw6.5 Jiuzhaigou earthquake, China. Journal of Earth Science, 30(1): 206-217.
[11]Liao HW, Lee CT (2000) Landslides triggered by the Chi-Chi earthquake. Proceedings of the 21st Asian Conference on Remote Sensing, Taipei, 1-2: 383-388.
原始数据供科学研究使用。
下载链接:http://pan.baidu.com/s/1TYgVkt8Ng1Yl9zdZXoEYOg
提取码:4ks9
联系人:chongxu@ninhm.ac.cn
模型详见:
[1]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.
[2]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.
其中用到的基础滑坡数据详见:
[1]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.
[2]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.
[3]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.
[4]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.
[5]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.
[6] 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.
[7]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.
[8]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.
[9] 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 spatial distribution. Journal of Earth Science, 31(4): 853-866.
[10]Tian Y, Xu C, Ma S, Xu X, Wang S, Zhang H (2019) Inventory and spatial distribution of landslides triggered by the 8th August 2017 Mw6.5 Jiuzhaigou earthquake, China. Journal of Earth Science, 30(1): 206-217.
[11]Liao HW, Lee CT (2000) Landslides triggered by the Chi-Chi earthquake. Proceedings of the 21st Asian Conference on Remote Sensing, Taipei, 1-2: 383-388.
[12]Basharat M, Rohn J, Baig MS, Khan MR (2014) Spatial distribution analysis of mass movements triggered by the 2005 Kashmir earthquake in the Northeast Himalayas of Pakistan. Geomorphology, 206: 203-214.
图1 中国经历0.1g加速度下崩滑发生概率
图2 中国经历0.2g加速度下崩滑发生概率
图3 中国经历0.3g加速度下崩滑发生概率
图4 中国经历0.4g加速度下崩滑发生概率
图5 中国经历0.5g加速度下崩滑发生概率
图6 中国经历0.6g加速度下崩滑发生概率
图7 中国经历0.7g加速度下崩滑发生概率
图8 中国经历0.8g加速度下崩滑发生概率
图9 中国经历0.9g加速度下崩滑发生概率
图10 中国经历1.0g加速度下崩滑发生概率