中国软沉积物变形构造及地震岩研究简评<sup>①</sup>

doi:10.7605/gdlxb.2017.01.002

摘要/Abstract

摘要： 近30年(1987—2016)来,中国的软沉积物变形构造、地震岩、震积岩及古地震研究,取得了很大的进展和成绩。但是,在国内中文期刊中已发表的约140篇文章和已出版的一些专著中,几乎都把具软沉积物变形构造的岩层当作地震岩。可喜的是,中国石油大学(华东)的老师们和学生们,对山东青岛灵山岛下白垩统中的软沉积物变形构造的研究,却有多种不同的观点,呈现出了一种活跃的学术气氛。笔者等的看法是: (1)软沉积物变形构造是一种沉积构造,它有多种成因,它是一个很好的沉积学和地质学术语,应继续地和更广泛地使用下去。(2)地震岩是专指由地震引起的具软沉积物变形构造的岩层,它是具多成因的软沉积物变形构造的岩层的一种,不能把所有的具软沉积构造的岩层都当作地震岩。有的地质学家建议废弃地震岩这一术语。(3)震积岩是“seismites”(地震岩)的误译,不宜再继续使用。(4)由于地震岩和震积岩这两个术语在国内外已使用多年,要废弃它们或不再继续使用它们,应得到国内外的多数地质学家的同意才行。

关键词: 软沉积变形构造地震岩震积岩灵山岛 “, 多成因的软沉积物变形构造及地震岩”, 专题研讨会

Abstract: During the past 30 years(1987-2016),a great progress has been made in researches of soft-sediment deformation structures(SSDS),seismites and palaeoearthquakes in China. However,the research thought of this academic field is not open-minded. It is almost with one viewpoint,i.e.,almost all the papers published in journals of China considered the beds with SSDS as seismites. On the other hand,the authors are very glad to learn that the professors and students of China University of Petroleum(East China)have proposed different academic viewpoints on the origin of SSDS in Lingshan Island,Qingdao,Shandong Province,China. It is a very active academic atmosphere. The authors?? ideas are as follows: (1)The SSDS are sedimentary structures with multi-origin. The term “SSDS”is a good sedimentary and geological term and should be utilized continually. (2)The term “seismites”is a term which is definitely assigned to the beds with SSDS induced by earthquakes. It is one type of the beds with SSDS. It is not equal to SSDS. Some geologists suggested obsoleting the term “seismites”. (3)“Zhenjiyan”(震积岩)is a mistranslated term of“seismites”and should not be uesd any more. (4)Since the “seismites”and “Zhenjiyan”have been used for a long time in China and other countries,these problems should be diacussed and determined by geologists in China and other countries.

Key words: soft-sediment deformation structures(SSDS), seismites, Zhenjiyan, Lingshan Island, symposium of “multi-origin of soft-sediment deformation structures and seismites”

中图分类号:

P588.2

冯增昭, 鲍志东, 郑秀娟, 王媛. 中国软沉积物变形构造及地震岩研究简评^①[J]. 古地理学报, 2017, 19(1): 7-12.

Feng Zengzhao Bao Zhidong Zheng Xiujuan Wang Yuan. Researches of soft-sediment deformation structures and seismites in China: A brief review[J]. JOPC, 2017, 19(1): 7-12.

http://www.gdlxb.cn/CN/Y2017/V19/I1/7

参考文献

1 布拉特,米德顿,穆雷著.《沉积岩成因》翻译组译校. 1978. 准同生变形作用. 见: 沉积岩成因. 北京: 科学出版社,122-126 . [Blatt H,Middleton G V,Millon R C. 1978. The Attributes of Sedimentary Rocks. Beijing: Science Press: 122-126]
2 董晓朋,吕洪波,张星,张海春,王俊,张素菁. 2013. 山东灵山岛早白垩世复理石软沉积物变形期次解析. 地质论评,59(6): 1060-1067. [Dong X P,Lü H B,Zhang X,Zhang H C,Wang J,Zhang S J. 2013. Stage analysis on the soft-sediment deformation in the Early Cretaceous Flysch,Lingshan Island,Shandong Province. Geological Review,59(6): 1060-1067]
3 董晓朋,吕洪波,张星,张海春,王俊,张素菁. 2014. 灵山岛北端早白垩世复理石中的滑塌断崖. 地质论评,60(4): 771-779. [Dong X P,Lü H B. Zhang,X,Zhang H C,Wang J,Zhang S J. 2014. Slump scarp outcrop found in Early Cretaceous Flysch,north of Lingshan Island,Qingdao,Shandong. Geological Review,60(4): 771-779]
4 葛毓柱,钟建华,樊晓芳,任启强,邵珠福. 2015. 山东灵山岛滑塌体内部沉积构造特征研究. 地质论评,61(3): 634-644. [Ge Y Z,Zhong J H,Fan X F,Ren Q Q,Shao Z F. 2015. Study on internal sedimentary and structural features of the slump body in Lingshan Island,Qingdao. Shandong Geological Review,61(3): 634-644]
5 龚一鸣. 1987. 事件沉积. 地质科技情报,6(3): 21-26. [Gong Y M. 1987. Event deposits. Geological Science and Technology Information,6(3): 21-26]
6 龚一鸣. 1988. 风暴岩、震积岩、海啸岩: 几个名词含义的商榷. 地质论评,34(5): 481-482. [Gong Y M. 1988. Tempestite,seismite and tsunamite: A discussion of several sedimentological terms. Geological Review,34(5): 481-482]
7 吕洪波,王俊,张海春. 2011. 山东灵山岛中生代滑塌沉积层的发现及区域构造意义初探. 地质学报,85(6): 938-946. [Lü H B,Wang J,Zhang H C. 2011. Discovery of the Late Mesozoic slump beds in Lingshan Island,Shandong,and a pilot research on the regional tectonics. Acta Geologica Sinica,85(6): 938-946]
8 吕洪波,张海春,王俊,张素菁,董晓朋,张星. 2012. 山东胶南灵山岛中生代浊积岩中发现巨大滑塌岩块. 地质论评,58(1): 80-81. [Lü H B,Zhang H C,Wang J,Zhang S J,Dong X P,Zhang X. 2012. The discovery of great slump blook in the Mesozoic turbidited in Lingshan Island,Jiaonan,Shandogn Province. Geological Review,58(1): 80-81]
9 吕洪波,张海春,王俊,张素菁,董晓朋,张星. 2013. 灵山岛早白垩世复理石不是陆内三角洲沉积: 答钟建华教授. 地质论评,59(1): 11-14. [Lü H B,Zhang H C,Wang J,Zhang S J,Dong X P,Zhang X. 2013. The Island Early Cretaceous flysch in Lingshan Island was not intracontinental delta sediments: A reply to Professor Zhong Jianhua. Geological Review,59(1): 11-14]
10 乔秀夫,宋天锐,高林志,李海兵,彭阳,张传恒,章雨旭,等. 2006. 地层中地震记录(古地震). 北京: 地质出版社,1-263. [Qiao X F,Song T R,Gao L Z,Li H B,Peng Y,Zhang C H,Zhang Y X,and others. 2006. Seismic Records in Strata(Ancient Earthquakes). Beijing: Geological Publishing House,1-263]
11 乔秀夫,李海兵,邱祝礼. 2013. 震积岩: 沉积岩中的古地震记录. 见: 冯增昭主编. 2013. 中国沉积学(第二版). 北京: 石油工业出版社,507-615. [Qiao X F,Li H B,Qiu Z L. 2013. Seismites: Palaeoseismic records in sedimentary rocks. In: Feng Z Z(ed). 2013. Sedimentology of China(Second Edition). Beijing: Petroleum Industry Press,507-615]
12 邵珠福,钟建华,李勇,毛毳,刘圣鑫,倪良田,田媛,刘云田,崔新颖,王晓楠,李伟华,林则山. 2014a. 青岛灵山岛纹层控制的砂级颗粒支撑叠瓦构造的发现及其意义. 中国科学: 地球科学,44(8): 1761-1776. [Shao Z F,Zhong J H,Li Y,Mao C,Liu S X,Ni L T,Tian Y,Liu Y T,Cui X Y,Wang X N,Li W H,Lin Z S. 2014a. Characteristics and sedimentary processes of lamina-controlled sand-particle imbricate structure in deposits on Lingshan Island,Qingdao,China. Science China: Earth Sciences,44(8): 1761-1776]
13 邵珠福,钟建华,李勇,倪良田,刘圣鑫,范莉红,陈彬. 2014b. 青岛灵山岛晚中生代重力流沉积特征及环境分析. 地质论评, 60(3): 555-566. [Shao Z F,Zhong J H,Li Y,Ni L T,Liu S X,Fan L H,Chen B. 2014b. Sedimentary Characteristics and environmental analysis of Late Mezozoic gravity flows in Lingshan Island. Geological Review,60(3): 555-566]
14 宋天锐. 1988. 北京十三陵前寒武纪碳酸盐岩地层中的一套可能的地震—海啸序列. 科学通报,33(8): 609-611. [Song T R. 1988. A possible seismic-tsunami succession in the Precambrian carbonate rocks in the Ming Tombs,Beijing. Chinese Science Bulletin,33(8): 609-611]
15 王安东,周瑶琪,闫华,王瑞,张振凯,王子阳. 2013. 山东省灵山岛早白垩世软沉积物变形构造特征. 古地理学报,15(5): 717-728. [Wang A D,Zhou Y Q,Yan H,Wang R,Zhang Z K,Wang Z Y. 2013. Characteristics of soft-sediment deformation structures of the Early Cretaceous in Lingshan Island of Shandong Province. Journal of Palaeogeography(Chinese Edition),15(5): 717-728]
16 张海春,吕洪波,李建国,王俊,张素菁,董晓朋,张星,黄振才,舒云超,任星民. 2013. 山东青岛早白垩世新地层单位: 灵山岛组. 地层学杂志,37(2): 216-222. [Zhang H C,Lü H B,Li J G,Wang J,Zhang S J,Dong X P,Zhang X,Huang Z C,Shu Y C,Ren X M. 2013. The Lingshandao Formation: A new lithostratigraphic unit of the Early Cretaceous in Qingdao,Shandong,China. Journal of Stratigraphy,37(2): 216-222]
17 钟建华. 2012. 灵山岛中生代沉积岩是深水远洋浊积岩、还是陆内三角洲沉积?. 地质论评,58(6): 1180-1182. [Zhong J H. 2012. In Lingshan Island are the Mesozoic sedimentary rocks deep water oceanic turidites or the delta sediments?. Geological Review , 58(6): 1180-1182]
18 钟建华,倪良田,邵珠福,李勇,刘选,毛毳,刘圣鑫,孙宁亮,陈彬,王凯,罗可,王韶洁,刘闯,刘宝,熊志强. 2016. 青岛灵山岛下白垩统风暴岩与风暴沉积的发现及意义. 古地理学报, 18(3): 381-398. [Zhong J H,Ni L T,Shao Z F,Li Y,Liu X,Mao C,Liu S X,Sun N L,Chen B,Wang K,Luo K,Wang S J,Liu C,Liu B,Xiong Z Q. 2016. Tempestites and storm deposits in the Lower Gretaceous from Lingshan Island,Qingdao. Journal of Palaeogeography(Chinese Edition),18(3):381-398]
19 Blatt H,Middleton G V,Murry R C. 1972. Penecontemporaneous deformation. In: Origin of Sedimentary Rocks. New Jersey: Prentice-Hall,Inc.,Englewood Cliffs,170-174.
20 Moretti M,Owen G,Tropeano M. 2011. Soft-sediment deformation induced by sinkhole activity in shallow marine environments: A fossil example in the Apulian Foreland(Southern Italy). Sedimentary Geology,235(3-4SI),331-342.
21 Moretti M,Sabato L. 2007. Recognition of trigger mechanisms for soft-sediment deformation in the Pleistocene lacustrine deposits of the Sant?Arcangelo Basin(Southern Italy): Seismic shock vs. overloading. Sedimentary Geology,196(1-4),31-45.
22 Moretti M,Soria J,Alfaro P,Walsh N. 2001. Asymmetrical soft-sediment deformation structures triggered by rapid sedimentation in turbiditic deposits(Late Miocene,Guadix Basin,southern Spain). Facies,44(1): 283-294.
23 Moretti M,Van Loon A J. 2014. Restrictions to the application of'diagnostic�� criteria for recognizing ancient seismites. Journal of Palaeogeography,3(2): 162-173.
24 Shanmugam G. 2016. The seismite problem. Journal of Palaeogeography,5(4): 318-362.
25 Van Loon A J. 2009. Soft-sediment deformation structures in siliciclastic sediments: An overview. Geologos,15(1):3-55.
26 Van Loon A J. 2014. The life cycle of seismite research. Geologos,20(2): 61-66.
27 Van Loon A J,Pisarska-Jamrozy M,Nartišs M,Krievāns M,Soms J. 2016. Seismites resulting from high frequency,high magnitude earthquakes in Latvia caused by Late Glacial glacio-isostatic uplift. Journal of Palaeogeography,5(4): 363-380.

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