小江断裂带西支晚第四纪强震破裂特征

doi:10.3969/j.issn.0253-4967.2018.06.001

摘要/Abstract

摘要： 小江断裂带地处青藏高原东南缘，系川滇菱形地块与华南地块的边界断裂带。1833年小江断裂带西支曾发生过云南历史上最大的嵩明8级特大地震。研究小江断裂带晚第四纪地表变形和强震破裂行为对认识断裂带乃至川滇地区未来地震危险性以及青藏高原东南缘构造演化都至关重要。文中通过在小江断裂带西支开挖的多个大型探槽取得了一些新的认识：草海子探槽共揭露出6次古地震事件，从老到新依次为事件U、V、W、X、Y和Z，分别发生于40000—36300BC、35400—24800BC、9500BC—500AD、390—720AD、1120—1620AD和1750AD至今。干海子探槽共揭露出3次古地震事件，从老到新依次为事件GHZ-E1、GHZ-E2和GHZ-E3，分别发生于3300BC—400AD、770—1120AD和1460AD至今。大坟地探槽古地震事件分别为：事件E1，发生于22300—19600BC；事件E2，发生于18820—18400BC；事件E3，发生于18250BC至今。干海子探槽与草海子探槽同在小江断裂带西支上，且两探槽相距仅约400m，结合历史地震记录并使用古地震研究的逐次限定法可限定该段全新世晚期记录较完整的4次古地震事件发生时间分别是500—720AD、770—1120AD、1460—1620AD和AD1833，平均复发间隔约370～440a，这一结果小于前人所得的约900a的平均复发间隔。因此，应重新评估小江断裂带未来的地震危险性。结合前人研究结果发现，小江断裂带西支在晚更新世晚期至全新世早、中期很可能以分段破裂为主，而在全新世中晚期以来具有丛集及整个西支断裂全段破裂的特征。

关键词: 小江断裂带西支, 大型探槽, 古地震, 复发间隔, 断裂破裂特征

Abstract: The Xiaojiang fault zone is located in the southeastern margin of the Tibetan plateau, the boundary faults of Sichuan-Yunnan block and South China block. The largest historical earthquake in Yunnan Province, with magnitude 8 occurred on the western branch of the Xiaojiang Fault in Songming County, 1833. Research on the Late Quaternary surface deformation and strong earthquake rupture behavior on the Xiaojiang Fault is crucial to understand the future seismic risk of the fault zone and the Sichuan-Yunnan region, even crucial for the study of tectonic evolution of the southeastern margin of Tibetan plateau. We have some new understanding through several large trenches excavated on the western branch of the Xiaojiang fault zone. We excavated a large trench at Caohaizi and identified six paleoseismic events, named U through Z from the oldest to the youngest. Ages of these six events are constrained at 40000-36300BC, 35400-24800BC, 9500BC-500AD, 390-720AD, 1120-1620AD and 1750AD-present. The Ganhaizi trench revealed three paleoearthquakes, named GHZ-E1 to GHZ-E3 from the oldest to the youngest. Ages of the three events are constrained at 3300BC-400AD, 770-1120AD, 1460AD-present. The Dafendi trench revealed three paleoearthquakes, named E1 to E3 from the oldest to the youngest, and their ages are constrained at 22300-19600BC, 18820-18400BC, and 18250-present. Caohaizi and Ganhaizi trenches are excavated on the western branch of the Xiaojiang Fault, the distance between them is 400m. We constrained four late Holocene paleoearthquakes with progressive constraining method, which are respectively at 500-720AD, 770-1120AD, AD 1460-1620 and 1833AD, with an average recurrence interval of 370~440a. Large earthquake recurrence in the late Holocene is less than the recurrence interval of~900a as proposed in the previous studies. Thus, the seismic hazard on the Xiaojiang Fault should be reevaluated. We excavated a large trench at Dafendi, about 30km away south of Caohaizi trench. Combining with previous paleoseismological research, it is found that the western branch of Xiaojiang Fault was likely to be dominated by segmented rupturing in the period from late of Late Pleistocene to early and middle Holocene, while it was characterized by large earthquakes clustering and whole segment rupturing since late Holocene.

Key words: the western branch of the Xiaojiang fault zone, large scale trench, paleoearthquake, recurrence interval, rupture characteristics of the fault

中图分类号:

P315.2

李西, 冉勇康, 吴富峣, 马兴全, 张彦琪, 曹筠. 小江断裂带西支晚第四纪强震破裂特征[J]. 地震地质, 2018, 40(6): 1179-1203.

LI Xi, RAN Yong-kang, WU Fu-yao, MA Xing-quan, ZHANG Yan-qi, CAO Jun. RUPTURE CHARACTERISTICS OF LATE QUATERNARY STRONG EARTHQUAKES ON THE WESTERN BRANCH OF THE XIAOJIANG FAULT ZONE[J]. SEISMOLOGY AND GEOLOGY, 2018, 40(6): 1179-1203.

参考文献

陈睿, 李玶. 1988. 小江西支断裂的滑动速率与强震重复周期［J］. 地震地质, 10(2):1-13. CHEN Rui, LI Ping. 1988. Slip rates and earthquake recurrence intervals of the western branch of the Xiaojiang fault zone［J］. Seismology and Geology, 10(2):1-13(in Chinese).
陈立春, 王虎, 冉勇康, 等. 2010. 玉树M_S7. 1 级地震地表破裂与历史大地震［J］. 科学通报55(13):1200-1205. CHEN Li-chun, WANG Hu, RAN Yong-kang, et al. 2010. The M_S7.1 Yushu earthquake surface rupture and large historical earthquakes on the Garzê-Yushu Fault［J］. Chinese Science Bulletin, 55(31):3504-3509.
邓起东, 张培震, 冉勇康, 等. 2002. 中国活动构造基本特征［J］. 中国科学(D辑), 32(12):1021-1031. DENG Qi-dong, ZHANG Pei-zhen, RAN Yong-kang, et al. 2003. Basic characteristics of active tectonics of China［J］. Science in China(Ser D), 46(4):356-372.
韩竹军, 董绍鹏, 毛泽斌, 等. 2017. 小江断裂带南段全新世活动的地质地貌证据与滑动速率［J］. 地震地质, 39(1):1-19. doi:10.3969/j.issn.0253-4967.2017.01.001. HAN Zhu-jun, DONG Shao-peng, MAO Ze-bin, et al. 2017. The Holocene activity and strike-slip rate of the southern segment of Xiaojiang Fault in the southeastern Yunnan region, China［J］. Seismology and Geology, 39(1):1-19(in Chinese).
何宏林, 方仲景, 李玶. 1993. 小江断裂带西支断裂南段新活动初探［J］. 地震研究, 16(3):291-298. HE Hong-lin, FANG Zhong-jing, LI Ping. 1993. A preliminary approach to the fault activity of southern segment on Xiaojiang west branch fault［J］. Journal of Seismological Research, 16(3):291-298(in Chinese).
何宏林, 池田安隆, 宋方敏, 等. 2002. 小江断裂带第四纪晚期左旋走滑速率及其构造意义［J］. 地震地质, 24(1):14-26. HE Hong-lin, Ikeda Y, SONG Fang-min, et al. 2002. Late Quaternary slip rate of the Xiaojiang Fault and its implication［J］. Seismology and Geology, 24(1):14-26(in Chinese).
李传友, 张培震, 袁道阳, 等. 2010. 活动走滑断裂上断塞塘沉积特征及其构造含义:以西秦岭北缘断裂带断塞塘为例［J］. 地质学报, 84(1):90-105. LI Chuan-you, ZHANG Pei-zhen, YUAN Dao-yang, et al. 2010. Sedimentary characteristics of sag-pond on the active strike-slip fault and its tectonic implications:An example from sag pond along the West Qinling Fault［J］. Acta Geologica Sinica, 84(1):90-105(in Chinese).
李德威, 陈继乐, 陈桂凡, 等. 2014. 大陆地震构造系统:以青藏高原及邻区为例［J］. 地球科学(中国地质大学学报), 39(12):1763-1775. LI De-wei, CHEN Ji-le, CHEN Gui-fan, et al. 2014. Continental seismotectonic system:Example from Qinghai-Tibet Plateau and its adjacent areas［J］. Earth Science(Journal of China University of Geosciences), 39(12):1763-1775(in Chinese).
李西, 徐锡伟, 张建国, 等. 2018. 鲁甸M_S6.5地震发震断层地表破裂特征、相关古地震的发现和年代测定［J］. 地学前缘, 25(1):227-239. LI Xi, XU Xi-wei, ZHANG Jian-guo, et al. 2018. The surface rupture characteristics, paleoearthquakes and their dating on the seismogenic structure of the Ludian M_S6.5 earthquake［J］. Earth Science Frontiers, 25(1):227-239(in Chinese).
刘静, 张智慧, 文力, 等. 2008. 汶川8级大地震同震破裂的特殊性及构造意义［J］. 地质学报, 82(12):1707-1722. LIU Jing, ZHANG Zhi-hui, WEN Li, et al. 2008. The M_S8.0 Wenchuan earthquake co-seismic rupture and its tectonic implications［J］. Journal of Geology, 82(12):1707-1722(in Chinese).
冉勇康, 陈立春, 程建武, 等. 2008. 安宁河断裂冕宁以北晚第四纪地表变形与强震破裂行为［J］. 中国科学(D辑), 38:543-554. RAN Yong-kang, CHEN Li-chun, CHENG Jian-wu, et al. 2008. Late Quaternary surface deformation and rupture behavior of strong earthquake on the segment north of Mianning of the Anninghe Fault［J］. Science in China(Ser D), 51:1224-1237.
冉勇康, 王虎, 李彦宝, 等. 2012. 中国大陆古地震研究的关键技术与案例解析(1):走滑活动断裂的探槽地点, 布设与事件识别标志［J］. 地震地质, 34(2):197-210. doi:10.3969/j.issn.0253-4967.2012.02.001. RAN Yong-kang, WANG Hu, LI Yan-bao, et al. 2012. Key techniques and several cases analysis in mainland China(1):Trenching sites, layouts and paleoseismic indicators on active strike-slip faults［J］. Seismology and Geology, 34(2):197-210(in Chinese).
宋方敏, 汪一鹏, 俞维贤, 等. 1998. 小江活动断裂带［M］. 北京:地震出版社. SONG Fang-min, WANG Yi-peng, YU Wei-xian, et al. 1998. The Xiaojiang Active Fault Zone［M］. Seismological Press, Beijing(in Chinese).
唐文清, 刘宇平, 陈智梁, 等. 2006. 云南小江断裂中南段现今活动特征［J］. 沉积与特提斯地质, 26(2):21-24. TANG Wen-qing, LIU Yu-ping, CHEN Zhi-liang, et al. 2006. Modern activity in the southern and central parts of the Xiaojiang Fault in Yunnan［J］. Sedimentary Geology and Tethyan Geology, 26(2):21-24(in Chinese).
闻学泽, 马胜利, 雷兴林, 等. 2007. 安宁河-则木河断裂带过渡段及其附近新发现的历史大地震破裂遗迹［J］. 地震地质, 29(4):826-833. WEN Xue-ze, MA Sheng-li, LEI Xing-lin, et al. 2007. Newly found surface rupture remains of large historical earthquakes on and near the transition segment of the Anninghe and Zemuhe fault zones, western Sichuan, China［J］. Seismology and Geology, 29(4):826-833(in Chinese).
闻学泽, 杜方, 龙锋, 等. 2011. 小江和曲江-石屏两断裂系统的构造动力学与强震序列的关联性［J］. 中国科学(D辑), 41(5):713-724. WEN Xue-ze, DU Fang, LONG Feng, et al. 2011. Tectonic dynamics and correlation of major earthquake sequences of the Xiaojiang and Qujiang-Shiping fault systems, Yunnan, China［J］. Science in China(ser D), 54:1-13.
王虎. 2012. 川西安宁河-则木河断裂带上大地震复发及其相关性研究［D］. 北京:中国地震局地质研究所. WANG Hu. 2012. Recurrence behavior and interactions of large earthquakes on the Anninghe Fault and Zemuhe Fault along the eastern margin of the Sichuan-Yunnan faulted block［D］. Institute of Geology, China Earthquake Administration, Beijing.
王椿镛, Mooney W D, 王溪莉, 等. 2002. 川滇地区地壳上地幔三维速度结构研究［J］. 地震学报, 24(1):1-16. WANG Chun-yong, Mooney W D, WANG Xi-li, et al. 2002. A study on 3-D velocity structure of crust and upper mantle in Sichuan-Yunnan region, China［J］. Acta Seismologica Sinica, 24(1):1-16(in Chinese).
徐锡伟, 张培震, 闻学泽, 等. 2005. 川西及其邻近地区活动构造基本特征与强震复发模型［J］. 地震地质, 27(3):446-461. XU Xi-wei, ZHANG Pei-zhen, WEN Xue-ze, et al. 2005. Features of active tectonics and recurrence behaviors of strong earthquakes in the western Sichuan Province and its adjacent regions［J］. Seismology and Geology, 27(3):446-461(in Chinese).
俞维贤, 汪一鹏, 王彬, 等. 2004. 云南小江西支断裂古地震及现今地震危险性研究［J］. 地震研究, 27(S1):29-32. YU Wei-xian, WANG Yi-peng, WANG Bin, et al. 2004. Paleoearthquake and the current risk study on the west branch of the Xiaojiang Fault in Yunnan［J］. Journal of Seismological Research, 27(S1):29-32(in Chinese).
云南省地震局. 1988. 地震资料汇编［Z］. 北京:地震出版社。Earthquake Administration of Yunnan Province. 1988. Seismic Data Compilation of Yunnan Province［Z］. Seismological Press, Beijing(in Chinese).
张建国, 杨润海, 赵晋民, 等. 2011. 昆明活动断层探测［M］. 昆明:云南科技出版社. ZHANG Jian-guo, YANG Run-hai, ZHAO Jin-min, et al. 2011. Active Fault Detection of Kunming City in Yunnan Province, China［M］. Yunnan Science and Technology Press, Kunming(in Chinese).
张培震, 王琪, 马宗晋. 2002. 青藏高原现今构造变形特征与GPS速度场［J］. 地学前缘, 9(2):442-450. ZHANG Pei-zhen, WANG Qi, MA Zong-jin. 2002. GPS velocity field and active crustal deformation in and around the Qinghai-Tibet Plateau［J］. Earth Science Frontiers, 9(2):442-450(in Chinese).
张培震, 王敏, 甘卫军, 等. 2003a. GPS 观测的活动断裂滑动速率及其对现今大陆动力作用的制约［J］. 地学前缘, 10(S1):81-92. ZHANG Pei-zhen, WANG Min, GAN Wei-jun, et al. 2003a. Slip rates along major active faults from GPS measurements and constraints on contemporary continental tectonics［J］. Earth Science Frontiers, 10(S1):81-92(in Chinese).
张培震, 闵伟, 邓起东, 等. 2003b. 海原活动断裂带的古地震与强震复发规律［J］. 中国科学(D 辑), 33(8):705-713.
ZHANG Pei-zhen, MIN Wei, DENG Qi-dong, et al. 2005. Paleoearthquake rupture behavior and recurrence of great earthquakes along the Haiyuan Fault, northwestern China［J］. Science in China(Ser D), 48(3):364-375.
He H L, Oguchi T. 2008. Late Quaternary activity of the Zemuhe and Xiaojiang faults in southwest China from geomorphological mapping［J］. Geomorphology, 96(1):62-85.
Hu Y X, Deng R S. 1988. A paleoseismic profile at Dongguaying Village, Yangzhong Lake, Yunnan Province［J］. Journal of Seismological Research, 11(3):309-335.
King R W, Feng S, Burchfiel B C, et al. 1997. Geodetic measurement of crustal motion in Southwest China［J］. Geology, 25(2):179-182.
Li X, Ran Y K, Chen L C, et al. 2015a. Late Quaternary large earthquakes on the western branch of the Xiaojiang Fault and their tectonic implications［J］. Acta Geologica Sinica(English edition), 89(5):1516-1530.
Li X, Xu X W, Ran Y K, et al. 2015b. Compound fault rupture in the 2014 M_S6.5 Ludian, China, earthquake and significance to disaster mitigation［J］. Seismological Research Letters, 86(3):764-774.
Liu Y K, Xu C, He J K, et al. 2005. Three-dimensional velocity images of the crust and upper mantle beneath the north-south zone in China［J］. Bulletin of the Seismological Society of America, 95(3):916-925.
Liu-Zeng J, Klinger Y, Xu X W, et al. 2007. Millennial recurrence of large earthquakes on the Haiyuan Fault near Songshan, Gansu Province, China［J］. Bulletin of the Seismological Society of America, 97(1B):14-34.
Ren Z K. 2013. Geometry and deformation features of the most recent co-seismic surface ruptures along the Xiaojiang Fault and its tectonic implications for the Tibetan plateau［J］. Journal of Asian Earth Sciences, 77(21):21-30.
Shen J, Wang Y P, Song F M. 2003. Characteristics of the active Xiaojiang fault zone in Yunnan, China:A slip boundary for the southeastward escaping Sichuan-Yunnan block of the Tibetan plateau［J］. Journal of Asian Earth Sciences, 21(10):1085-1096.
Wen X Z, Du F, Long F, et al. 2011. Tectonic dynamics and correlation of major earthquake sequences of the Xiaojiang and Qujiang-Shiping fault systems, Yunnan, China［J］. Science China(ser D), 54(10):1563-1575.
Tapponnier P, Xu Z Q, Roger F, et al. 2001. Oblique stepwise rise and growth of the Tibetan plateau［J］. Science, 294:1671-1677.
Wang H, Ran Y K, Li Y B, et al. 2013. Holocene paleoseismologic record of large, infrequent earthquakes on the Zemuhe Fault on the southeastern margin of the Tibetan plateau［J］. Geophysical Journal International, doi:10.1093/gji/ggs095.
Wang C Y, Lou H, Wang X L, et al. 2009. Crustal structure in Xiaojiang fault zone and its vicinity［J］. Earthquake Science, 22(4):347-356.
Wang E Q, Burchfiel B C. 2000. Late Cenozoic to Holocene deformation in southwestern Sichuan and adjacent Yunnan, China, and its role in formation of the southeastern part of the Tibetan plateau［J］. Geological Society of America Bulletin, 112(3):413-423.
Xu Y, Herrmann R B, Koper K D. 2010. Source parameters of regional small-to-moderate earthquakes in the Yunnan-Sichuan region of China［J］. Bulletin of the Seismological Society of America, 100(5B):2518-2531.
Xu X W, Wen X Z, Yu G H, et al. 2009. Coseismic reverse-and oblique-slip surface faulting generated by the 2008 M_W7.9 Wenchuan earthquake, China［J］. Geology, 37(6):515-518.
Xu X W, Xu C, Yu G H, et al. 2015. Primary surface ruptures of the Ludian M_W6.2 earthquake, southeastern Tibetan plateau［J］. Seismological Research Letters, 86(6):1622-1635.

[1]	刘庆, 刘韶, 张世民. 大凉山断裂带中段越西断裂晚第四纪古地震[J]. 地震地质, 2023, 45(2): 321-337.
[2]	李安, 万波, 王晓先, 计昊旻, 索锐. 金州断裂盖州北鞍山段古地震破裂的新证据[J]. 地震地质, 2023, 45(1): 111-126.
[3]	郑海刚, 姚大全, 赵朋, 杨源源, 黄金水. 郯庐断裂带赤山段全新世新活动的特征[J]. 地震地质, 2023, 45(1): 127-138.
[4]	杨源源, 李鹏飞, 路硕, 疏鹏, 潘浩波, 方良好, 郑海刚, 赵朋, 郑颖平, 姚大全. 郯庐断裂带中段F₅断裂淮河-女山湖段的古地震与垂直滑动速率[J]. 地震地质, 2022, 44(6): 1365-1383.
[5]	石文芳, 徐伟, 尹金辉, 郑勇刚. 秦岭北缘古地震基岩崩塌和滑坡施密特锤暴露年龄[J]. 地震地质, 2022, 44(6): 1384-1402.
[6]	刘兴旺, 袁道阳, 姚赟胜, 邹小波. 三危山断裂敦煌段古地震活动特征[J]. 地震地质, 2021, 43(6): 1398-1411.
[7]	常祖峰, 常昊, 李鉴林, 毛泽斌, 臧阳. 维西-乔后断裂全新世活动与古地震[J]. 地震地质, 2021, 43(4): 881-898.
[8]	冯嘉辉, 陈立春, 王虎, 刘姣, 韩明明, 李彦宝, 高帅坡, 卢丽莉. 大凉山断裂带北段石棉断裂的古地震[J]. 地震地质, 2021, 43(1): 53-71.
[9]	马骏, 周本刚, 王明明, 安力科. 鲜水河断裂带折多塘断裂西北段全新世活动的地质地貌依据[J]. 地震地质, 2020, 42(5): 1021-1038.
[10]	张玲, 杨晓平, 李胜强, 黄伟亮, 杨海波. 秋里塔格褶皱带东段探槽的古地震事件[J]. 地震地质, 2020, 42(5): 1039-1057.
[11]	黄帅堂, 胡伟华, 杨攀新, 李帅, 伊力亚尔. 东天山唐巴勒-塔斯墩断裂带晚第四纪活动特征[J]. 地震地质, 2020, 42(5): 1058-1071.
[12]	王莅斌, 尹功明, 袁仁茂, 王盈, 苏刚. 金沙江中游永胜昔格达层软沉积变形构造[J]. 地震地质, 2020, 42(5): 1072-1090.
[13]	胡宗凯, 杨晓平, 杨海波, 吴国栋, 李军, 周本刚. 北天山博罗可努-阿齐克库都克断裂精河段的古地震事件[J]. 地震地质, 2020, 42(4): 773-790.
[14]	覃金堂, 陈杰, 李涛. 阿尔金断裂带中段现代沉积物样品钾长石红外激发后红外释光的残留信号——对年轻古地震事件测年的指示意义[J]. 地震地质, 2020, 42(4): 981-992.
[15]	邵延秀, 袁道阳, 刘静, Jerome Van der Woerd, 李志刚, 吴磊, 刘方斌. 阿尔金断裂中段南月牙山古地震地表破裂带及其构造意义[J]. 地震地质, 2020, 42(2): 435-454.