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国土资源遥感 2015

资源卫星三号DEM数据在活动构造定量研究中的应用评价

DOI: 10.6046/gtzyyg.2015.04.19, PP. 122-130

宿渊源,张景发,何仲太,姜文亮,蒋洪波,李强

Keywords: 资源三号测绘卫星(ZY-3),数字高程模型(DEM),大青山山前断裂,遥感解译

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Abstract:

为评价资源三号测绘卫星(ZY-3)DEM数据在地质领域的应用效果,结合ZY-3卫星的在轨测试工作,选择内蒙古大青山山前断裂为实验区,从数据精度和可用性2个方面对ZY-3DEM数据在活动构造定量研究中的应用进行评估。参考1:5万比例尺DEM和实验区野外实测高精度GPS数据,对比ASTER传感器立体像对生产的30m分辨率GDEM数据,采用检查点法和剖面法对ZY-3立体像对生产的5m分辨率DEM数据进行了精度评价。实验结果表明:ZY-3DEM的高程精度略优于ASTERGDEM;ZY-3DEM受地表形态因素影响更为显著。通过对大青山山前断裂呼和浩特段的地貌特征进行遥感数据统计分析与微地貌研究发现,该区域以中、低陡坡为主(约占该段山体的92%),发育有4级夷平面和1级山前沉积台地,越靠近东部断裂末段,断裂的活动性越弱;断裂呈线性展布,其活动性以张性为主,兼具左行水平滑移。研究结果表明,ZY-3提供的高分辨率光学影像、多光谱影像和DEM可有效地应用于活动构造的定量研究。

References

[1]	Toutin T H.Elevation modelling from satellite visible and infrared(VIR) data[J].International Journal of Remote Sensing, 2001, 22(6):1097-1125.
[2]	Hooper D M, Bursik M, Webb F H.Application of high-resolution, interferometric DEMs to geomorphic studies of fault scarps, Fish Lake Valley, Nevada-California, USA[J].Remote Sensing of Environment, 2003, 84(2):255-267.
[3]	张会平, 杨农, 张岳桥, 等.基于DEM的岷山构造带构造地貌初步研究[J].国土资源遥感, 2004, 16(4):54-58. Zhang H P, Yang N, Zhang Y Q, et al.A GIS-based research on morpho structural features of the Minshan Tectonic Belt[J].Remote Sensing for Land and Resources, 2004, 16(4):54-58.doi:10.6046/gtzyyg.2004.04.14.
[4]	高卫军, 孙立, 王长杰, 等. "资源三号"高分辨率立体测绘卫星三线阵相机设计与验证[J].航天返回与遥感, 2012, 33(3):25-34. Gao W J, Sun L, Wang C J, et al.Design and verification of three-line array camera for ZY-3 high resolution stereo mapping satellite[J].Spacecraft Recovery and Remote Sensing, 2012, 33(3):25-34.
[5]	唐新明, 谢俊峰.资源三号卫星在轨测试与应用分析[J].地理信息世界, 2013, 20(2):37-51. Tang X M, Xie J F.On-orbit test and application analysis of ZY-3 satellite[J].Geomatics World, 2013, 20(2):37-51.
[6]	李霖, 罗恒, 唐新明, 等.资源三号卫星多光谱图像特征分析和质量评价[J].国土资源遥感, 2014, 26(1):17-24. Li L, Luo H, Tang X M, et al.Characteristic analysis and quality assessment of ZY-3 multi-spectral image[J].Remote Sensing for Land and Resources, 2014, 26(1):17-24.doi:10.6046/gtzyyg.2014.01.04.
[7]	刘斌, 孙喜亮, 邸凯昌, 等.资源三号卫星传感器校正产品定位精度验证与分析[J].国土资源遥感, 2012, 24(4):36-40. Liu B, Sun X L, Di K C, et al.Accuracy analysis and validation of ZY-3's sensor corrected products[J].Remote Sensing for Land and Resources, 2012, 24(4):36-40.doi:10.6046/gtzyyg.2012.04.07.
[8]	汤国安, 刘学军, 闾国年.数字高程模型及地学分析的原理与方法[M].北京:科学出版社, 2005:4-5. Tang G A, Liu X J, Lv G N.DEM and Method and Theory of Geographical Analysis[M].Beijing:Science Press, 2005:4-5.
[9]	陈正位, 申旭辉, 曹忠全, 等.基于数字高程模型对亚东—谷露构造带第四纪活动习性的研究[J].地震, 2004, 24(sl):40-46. Chen Z W, Shen X H, Cao Z Q, et al.Study of quaternary activity features of the Yadong-Gulu Tectonic Belt based on the digital elevation model[J].Earthquake, 2004, 24(sl):40-46.
[10]	洪顺英, 申旭辉, 荆凤, 等.基于SRTM-DEM的阿尔泰山构造地貌特征分析[J].国土资源遥感, 2007, 19(3):62-66. Hong S Y, Shen X H, Jing F, et al.An analysis of geomorphology characteristics of the Altai mountain based on DEM[J].Remote Sensing for Land and Resources, 2007, 19(3):62-66.doi:10.6046/gtzyyg.2007.03.14.
[11]	江娃利, 肖振敏, 王焕贞, 等.内蒙大青山山前活动断裂带的地震破裂分段特征[J].地震地质, 2001, 23(1):24-34. Jiang W L, Shen Z M, Wang H Z, et al.Segmentation character of seimic surface ruptures of the piedmont active fault of Mt.Daqingshan, Inner Mongolia[J].Seismology and Geology, 2001, 23(1):24-34.
[12]	李克, 吴卫民, 杨发, 等.大青山山前断裂分段性研究[G]//中国地震学会地震地质专业委员会.中国活动断层研究.北京:地震出版社, 1994:102-113. Li K, Wu W M, Yang F, et al.Segment research of Daqingshan piedmont fault[G]//Committee on Seismogeology, Seismological Society of China.Research of Active Faults in China.Beijing:Seismological Press, 1994:102-113.
[13]	冉勇康, 张培震, 胡博, 等.大青山山前断裂呼和浩特段晚第四纪古地震活动历史[J].中国地震, 2002, 18(1):15-27. Ran Y K, Zhang P Z, Hu B, et al.Paleoseismic activity on the Hohhot segment of Daqingshan piedmont fault in the Late Quaternary history[J].Earthquake Research in China, 2002, 18(1):15-27.
[14]	唐新明, 林宗坚, 吴岚.基于等高线和高程点建立DEM的精度评价方法探讨[J].遥感信息, 1999(3):7-10. Tang X M, Lin Z J, Wu L.Accuracy discussion of DEM extracted based on contours and elevation points[J].Remote Sensing Information, 1999(3):7-10.
[15]	Nikolakopoulos K G, Kamaratakis E K, Chrysoulaks N.SRTM vs ASTER elevation products.comparison for two regions in Crete, Greece[J].International Journal of Remote Sensing, 2006, 27(21):4819-4838.
[16]	郭笑怡, 张洪岩, 张正祥, 等.ASTER GDEM与SRTM3数据质量精度对比分析[J].遥感技术与应用, 2011, 26(3):334-339. Guo X Y, Zhang H Y, Zhang Z X, et al.Comparative analysis of the quality and accuracy between ASTER GDEM and SRTM3[J].Remote Sensing Technology and Application, 2011, 26(3):334-339.
[17]	马保起, 李克, 吴卫民, 等.大青山河谷地貌特征及新构造意义[J].地理学报, 1999, 54(4):327-335. Ma B Q, Li K, Wu W M, et al.Features and neotectonic significance of river valley landforms in Mt.Daqingshan[J].Acta Geographica Sinica, 1999, 54(4):327-335.
[18]	丁国瑜.全新世断层活动的不均匀性[J].中国地震, 1990, 6(1):1-9. Ding G Y.The inhomogeneity of faulting in Holocene[J].Earthquake Research in China, 1990, 6(1):1-9.
[19]	冉勇康, 张培震, 陈立春.河套断陷带大青山山前断裂晚第四纪古地震完整性研究[J].地学前缘, 2003, 10(sl):207-216. Ran Y K, Zhang P Z, Chen L C.Research on the completeness of paleoseismic activity history since Late Quaternary along the Daqingshan piedmont fault in Hetao Depression Zone, North China[J].Earth Science Frontiers, 2003, 10(sl):207-216.
[20]	吴中海, 吴珍汉.大青山晚白垩世以来的隆升历史[J].地球学报, 2003, 24(3):205-210. Wu Z H, Wu Z H.Uplift history of the Daqing Mountain since the Late Cretaceous[J].Acta Geoscientia Sinica, 2003, 24(3):205-210.
[21]	郑亚东, Davis G A, 王琮, 等.内蒙古大青山大型逆冲推覆构造[J].中国科学:D辑, 1998, 28(4):289-295. Zheng Y D, Davis G A, Wang Z, et al.Large thrust nappe structure in Mt Daqinngshan[J].Science in China:Series D, 1998, 28(4):289-295.
[22]	刘群.内蒙古大青山山前断裂带构造变形特征[J].世界地质, 2012, 31(1):113-119. Liu Q.Structural deformation characteristics of Daqingshan piedmont fault in Inner Mongolia[J].Global Geology, 2012, 31(1):113-119.

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