遥感技术在广东省丰顺县地质灾害详细调查中的应用
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摘要
广东省梅州市丰顺县地处粤东北部地质灾害高发区,是广东地质灾害重点防治区之一。地质灾害的频繁发生,严重影响国家发展和人民生命财产安全。本文以SOPT、ETM+影像和Google Earth Pro软件中的多时相高空间分辨率影像为主要数据,在丰顺县进行遥感地质灾害解译调查,建立了丰顺县地区滑坡、崩塌、不稳定斜坡等地质灾害的解译标志,共解译滑坡52处,不稳定斜坡33处,崩塌10处,地质环境点8处。通过三维多时相高分辨率影像,精细解译地质灾害,分析灾害形成诱因和发育地质环境条件。研究结果表明,遥感技术可以快速、高效地解译出丰顺县地质灾害的种类、规模以及分布特征,完成地质灾害详细调查的前期任务,为地面详细调查提供方向和路线。
Fengshun County is located in the high risk area of geological disasters in the northeastern Guangdong Province. It is one of the major geological hazards prevention and control areas in Guangdong Province. Frequent geological hazards have seriously affected the national development and the safety of people's lives and property. In this paper, the multi-temporal and high spatial resolution images in SOPT, ETM+ images, and Google Earth Pro software are used as the main data to interpret the remote sensing geological hazards in Fengshun County, Meizhou, Guangdong province and establishes the interpretation signs of landslides, collapses, unstable slopes and other geological disasters. 52 landslides, 33 unstable slopes, 10 collapses, and 8 geological environment points were interpreted. Though 3 D multi-temporal high-resolution images, The geological disasters are explained in detail, and the causes of geological disasters and the conditions for the development of geological environment are analyzed. The results show that remote sensing technology can quickly and efficiently interpret the types, scale and distribution characteristics of geological hazards in Fengshun County, complete the preliminary task of detailed investigation of geological hazards, and provide direction and route for detailed investigation on the ground.
Fengshun County is located in the high risk area of geological disasters in the northeastern Guangdong Province. It is one of the major geological hazards prevention and control areas in Guangdong Province. Frequent geological hazards have seriously affected the national development and the safety of people's lives and property. In this paper, the multi-temporal and high spatial resolution images in SOPT, ETM+ images, and Google Earth Pro software are used as the main data to interpret the remote sensing geological hazards in Fengshun County, Meizhou, Guangdong province and establishes the interpretation signs of landslides, collapses, unstable slopes and other geological disasters. 52 landslides, 33 unstable slopes, 10 collapses, and 8 geological environment points were interpreted. Though 3 D multi-temporal high-resolution images, The geological disasters are explained in detail, and the causes of geological disasters and the conditions for the development of geological environment are analyzed. The results show that remote sensing technology can quickly and efficiently interpret the types, scale and distribution characteristics of geological hazards in Fengshun County, complete the preliminary task of detailed investigation of geological hazards, and provide direction and route for detailed investigation on the ground.
引文
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[11] 蒋培荡.遥感技术在江西永丰县地质灾害调查中的应用[J].中国地质灾害与防治学报,2015,26(01):82-86+107.
[2] 王治华.滑坡、泥石流遥感回顾与新技术展望[J].国土资源遥感,1999,11(3):10-15+39.
[3] 张景华,张建龙.遥感技术在泸定县地质灾害调查中的应用[J].中国地质灾害与防治学报,2009,20(02):100-105.
[4] 姚鑫,戴福初,陈剑.金沙江干热河谷区地质灾害遥感研究[J].长江流域资源与环境, 2007,16(5):655-660.
[5] 牛宝茹,马贺平,吕录仕,等.川藏公路海竹段地质灾害的遥感分析[J].地球信息科学,2000,2(4):29-31.
[6] 刘玉山,王红明,邓长青.沪蓉高速公路西段线路工程地质遥感解译[J].山地学报,2004,22(3):352-356.
[7] 张明华.西藏墨脱公路工程地质灾害遥感勘察与解译方法[J].中国地质灾害与防治学报, 2005,16(3):54-58.
[8] 童立强.“5·12”汶川大地震极重灾区地震堰塞湖应急遥感调查[J].国土资源遥感,2008,20(3):61-63+112.
[9] 苏凤环,刘洪江,韩用顺.汶川地震山地灾害遥感快速提取及其分布特点分析[J].遥感学报,2008,12(6):956-963.
[10] 张志军,庄永成.基于GF-1数据的地质灾害遥感调查——以青海省大通县为例[J].科学技术与工程,2017,17(18):9-17.
[11] 蒋培荡.遥感技术在江西永丰县地质灾害调查中的应用[J].中国地质灾害与防治学报,2015,26(01):82-86+107.
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