黄河壶口逆源速率及其与韩城断裂的关系

doi:10.3969/j.issn.0253-4967.2016.04.009

地震地质 ›› 2016, Vol. 38 ›› Issue (4): 911-921.DOI: 10.3969/j.issn.0253-4967.2016.04.009

黄河壶口逆源速率及其与韩城断裂的关系

闫小兵¹, 李自红¹, 赵晋泉¹, 扈桂让¹, 郭瑾^1,2

1. 山西省地震局, 太原 030002;
2. 山西省地质环境监测中心, 太原 030024

收稿日期:2015-01-07 修回日期:2016-10-14 出版日期:2016-12-20 发布日期:2017-01-20
作者简介:闫小兵,男,1978年生,2008年于中国地震局地质研究所获构造地质学硕士学位,高级工程师,主要从事活动构造和地震活动断层研究,E-mail:42953033@qq.com。
基金资助:
中国地震局地震行业科研专项（200908001）与中国地震局地质研究所基本科研业务专项（IGCEA1416）共同资助

THE RETROGRESSIVE EROSION RATE AT HUKOU WATERFALL, YELLOW RIVER AND THE RELATION TO THE HANCHENG FAULT

YAN Xiao-bing¹, LI Zi-hong¹, ZHAO Jin-quan¹, HU Gui-rang¹, GUO Jin^1,2

1. Earthquake Administration of Shanxi Province, Taiyuan 030002, China;
2. Shanxi Center of Geo-environment Monitoring, Taiyuan 030024, China

Received:2015-01-07 Revised:2016-10-14 Online:2016-12-20 Published:2017-01-20

摘要/Abstract

摘要：

在查阅黄河壶口位置的史料记载的基础上，对黄河壶口沿线进行了野外调查，最终确定了黄河壶口在不同时期的具体位置，据此计算黄河壶口在不同时期的逆源侵蚀速率：夏朝至唐朝为1.66m/a，唐朝至元朝为1.01m/a，元朝至明朝为0.97m/a，明朝至民国为1.28m/a，民国至现今为0.6m/a。考虑到黄河沿线地质条件的复杂性，综合给出史料记载以来（先秦到现今）黄河壶口的逆源侵蚀的平均速率为1.51m/a。根据对韩城断裂邵家岭探槽和禹门口黄河阶地的研究，韩城断裂在晚更新世早、中期发生过多次强烈活动，累计断距为20.1m，上述断裂活动在黄河禹门口附近形成高20余m的陡坎（裂点），现今的黄河壶口可能是该裂点经过4~5万a的逆源侵蚀到达目前的位置。

关键词: 黄河壶口, 逆源侵蚀速率, 韩城断裂

Abstract:

On the basis of consulting historical records about the positions of Hukou waterfall at different times,we conduct a field geological survey along the Yellow River and ultimately determine the specific locations of the Hukou waterfall in the different periods.Based on this,the retrogressive erosion rates in different periods are calculated as about 1.66m/year during the Xia Dynasty to the Tang Dynasty period,about 1.01m/year in the Tang Dynasty to the Yuan Dynasty,about 0.97m/year in the Yuan Dynasty to the Ming Dynasty,about 1.28m/year in the Ming Dynasty to the Republican period,and 0.6m/year from the Republican period to the present.Considering the complex geological conditions along the Yellow River,the average retrogressive erosion rate of Hukou waterfall on the Yellow River is obtained to be 1.51m/year since the historical records (early Qin Dynasty to the present).Lithology surrounding the Hukou waterfall includes mainly the Triassic gray,gray-green thick-layered mid-grained feldspar sandstone and dark purple,yellow-green mudstone,this hardness and softness combination feature is the unique geological condition of the Yellow River.After abrasing the softer shale driven by water cyclotron at this position,water washes off the debris,causing the overlying feldspar sandstone suspended for a long period.Feldspar greywacke block collapses under accumulative water erosion in long years,and then retrogressive erosion occurs in Hukou waterfall.In the process of 1 ︰ 50 000 active fault mapping of Hancheng Fault,we excavated a trench at Shaojialing,and the trench profile shows that:in the early and middle period of late Pleistocene,there are obvious surface ruptures produced by the fault.Cumulative offset near the trench is more than 20 meters in height difference.Yellow River terraces survey at Yumenkou also confirms that a fault slip of about 20 meters occurred during the early and middle period of the late Pleistocene.Assuming the retrogressive erosion rate is constant,the author thinks the Hancheng Fault was activated at early and middle age of the Late Pleistocene,forming a 20~30m high scarp (knick point),and today's position of Hukou waterfall may be the position of this knick point after the retrogressive erosion of about 40 to 50ka.

Key words: Hukou, retrogressive erosion rate, Hancheng Fault

中图分类号:

P315.2

闫小兵, 李自红, 赵晋泉, 扈桂让, 郭瑾. 黄河壶口逆源速率及其与韩城断裂的关系[J]. 地震地质, 2016, 38(4): 911-921.

YAN Xiao-bing, LI Zi-hong, ZHAO Jin-quan, HU Gui-rang, GUO Jin. THE RETROGRESSIVE EROSION RATE AT HUKOU WATERFALL, YELLOW RIVER AND THE RELATION TO THE HANCHENG FAULT[J]. SEISMOLOGY AND GEOLOGY, 2016, 38(4): 911-921.

参考文献

程绍平,邓起东. 1998. 黄河晋陕峡谷河流阶地和鄂尔多斯高原第四纪构造运动［J］.第四纪研究, (3):238-248.
CHENG Shao-ping, DENG Qi-dong. 1998. Yellow River and Quaternary tectonic movement of the Ordos Plateau［J］. Quaternary Sciences, (3):238-248(in Chinese).
何宏林. 2011. 活动断层填图中的航片解译问题［J］.地震地质, 33(4):938-951.
HE Hong-lin. 2011. Some problems of aerial photo interpretation in active fault mapping［J］. Seismology and Geology, 33(4):938-951(in Chinese).
屈茂稳, 庞桂珍, 郭威, 等. 2002. 黄河壶口瀑布成因及与晋陕峡谷的关系［J］. 西安工程学院学报, 24(3):47-52.
QU Mao-wen, PANG Gui-zhen, GUO Wei, et al. 2002. On the genetic analysis of Hukou(Pot Hole)fall in the Yellow River and its relation with Jinshan gorge［J］. Journal of Xi-an Engineering University, 24(3):47-52(in Chinese).
冉勇康, 李彦宝, 杜鹏. 等. 2014. 中国大陆古地震研究的关键技术与案例解析(3):正断层破裂特征、环境影响与古地震识别［J］. 地震地质, 36(2):287-300.
RAN Yong-kang, LI Yan-bao, DU Peng, et al. 2014. Key techniques and several cases analysis in paleoseismic studies in mainland China(3):Rupture characteristics, environment impact and paleoseismic indicators on normal faults［J］. Seismology and geology, 36(2):287-300(in Chinese).
山西区域地质调查大队. 1978. 中华人民共和国区域地质调查报告(大宁幅)［M］. 武汉:中国地质大学出版社.
Shanxi Regional Geological Survey Brigade. 1978. Reports on the Regional Geological Survey of People's Republic of China(Daning)［M］. China University of Geosciences Press, Wuhan.
申屠炳明, 徐煜坚, 汪一鹏, 等. 1990. 韩城断裂的活动特征及断裂带古地震遗迹的初步研究［J］. 华北地震科学, 8(1):1-10.
SHENTU Bing-ming, XU Yu-jian, WANG Yi-peng, et al. 1990. Preliminary study of the characteristics of the activity of Hancheng Fault and earthquake vestiges near the fault［J］. North China Earthquake Sciences, 8(1):1-10(in Chinese).
徐国强, 刘树根, 李国蓉, 等. 2005. 向源潜流侵蚀岩溶作用及其成因机理:以塔河油田早海西风化壳岩溶洞穴层为例［J］. 中国岩溶, 24(1):81-86.
XU Guo-qiang, LIU Shu-gen, LI Guo-rong, et al. 2005. The mechanism of retrogressive erosion and karstification:A case study of cave formation in early Hersinian weathered crust in Tahe oilfield［J］. Carsologica Sinica, 24(1):81-86(in Chinese).
阎风忠,贺勇,安卫平, 等. 1987. 韩城-侯马断陷区主要活动断裂的调查［J］.山西地震, 3:9-13.
YAN Feng-zhong, HE Yong, AN Wei-ping, et al. 1987. The investigation on main active faults in the Hancheng-Houma faulted depression［J］. Earthquake Research in Shanxi, 3:9-13(in Chinese).
张兆琪. 2009. 黄河壶口瀑布地质遗迹成因［J］. 华北国土资源, (2):15-17.
ZHANG Zhao-qi. 2009. Genesis of geological vestige of Hukou Waterfall［J］. Huabei Land and Resources, (2):15-17(in Chinese).

[1]	扈桂让, 李自红, 闫小兵, 赵晋泉, 曾金艳, 郭瑾. 韩城断裂晚第四纪活动性研究[J]. 地震地质, 2017, 39(1): 206-217.
[2]	李自红, 李斌, 刘鸿福, 闫小兵, 扈桂让. 韩城断裂带NE段构造应力特征[J]. 地震地质, 2015, 37(2): 468-481.

黄河壶口逆源速率及其与韩城断裂的关系

THE RETROGRESSIVE EROSION RATE AT HUKOU WATERFALL, YELLOW RIVER AND THE RELATION TO THE HANCHENG FAULT

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