Size Distribution of Submarine Landslides Along the Middle Continental Slope of the East China Sea

Size Distribution of Submarine Landslides Along the Middle Continental Slope of the East China Sea

下载PDF

导出

摘要 This paper investigates the size distribution of submarine landslides on the middle continental slope of the East China Sea (ECS) using the size of the landslide source regions. Geomorphometric mapping is used to identify 102 mass movements from multibeam bathymetric data and to extract morphological information about the head scarps and side walls. These mass movements have areas ranging between 0.06 km2 and 15.51 km2 and volumes between 0.002 km3 and 2 km3. The area vs volume relationship of these failure scarps is approximately linear, suggesting a fairly uniform failure thickness in each event with scarce deep excavating landslides. The cumulative area distribution of the slope failures can be described by an inverse power law. The submarine landslides on the mid-ECS continental slope could be considered as a large-scale self-organizing system because they have the characteristics of a dissipative system in a critical state. This paper investigates the size distribution of submarine landslides on the middle continental slope of the East China Sea （ECS） using the size of the landslide source regions. Geomorphometric mapping is used to identify 102 mass movements from multibeam bathymetric data and to extract morphological information about the head scarps and side walls. These mass movements have areas ranging between 0.06 km2 and 15.51 km2 and volumes between 0.002 km3 and 2 km3. The area vs volume relationship of these failure scarps is approximately linear, suggesting a fairly uniform failure thickness in each event with scarce deep excavating landslides. The cumulative area distribution of the slope failures can be described by an inverse power law. The submarine landslides on the mid-ECS continental slope could be considered as a large-scale self-organizing system because they have the characteristics of a dissipative system in a critical state.

作者 HU Guanghai YAN Tong LIU Zhenxia Maarten Vanneste DONG Lifeng

机构地区 College of Marine Geo-science First Institute of Oceanography International Centre of Geohazards

出处《Journal of Ocean University of China》 SCIE CAS 2009年第4期322-326,共5页 中国海洋大学学报（英文版）

基金 funded by the National Science Foundation of China (NSFC) (Nos.40506018, 40576033,40421150011, 40706038 and 40606026) the Ministry of Science and Technology of China (No. 2003cb716706) the Open Research Foundation of State Key Labora-tory of Geohazard Prevention and Geoenvironment Pro-tection (No. GZ2006-01)

关键词 MULTIBEAM power law distribution submarine geomorphology self-organizing criticality East China Sea 海底滑坡东中国海大陆坡粒度分布 Sea 中东耗散系统滑坡分布

分类号 O414.2 [理学—理论物理] X16 [环境科学与工程—环境科学]

引文网络
相关文献

参考文献11

1刘忠臣,陈义兰,丁继胜,张卫红,吴永亭,郭发滨.东海海底地形分区特征和成因研究[J].海洋科学进展,2003,21(2):160-173. 被引量：35
2Chaytor, J. D,ten Brink, U. S,Solow, A. R,Andrews B. D.Size distribution of submarine landslides along the U.S. Atlantic margin[].Marine Geology.2009
3Georgiopoulou, A,Krastel, S,Masson, D. G,Wynn, R. B.Repeated instability of the NW African margin related to buried landslide scarps[].Submarine Mass Movements and their Consequences rd Interna-tional Symposium.2007
4Hu G. H,Yan, T,Wu, Y. T,Chen, Y. L,Zhao, Y. X.Methodology for morphological analysis of submarine mass movement in the continental slope of the East China Sea[].Period Ocean Univ China.2009
5Leynaud, L,Mienert, J,Vanneste, M.Submarinemass movements on glaciated and non-glaciated Europeancontinental margins: A review of triggering mechanisms andpreconditions to failure[].Marine and Petroleum Geology.2009
6Masson, D. G,Harbitz, C. B,Wynn, R. B,Pedersen, G,Lovholt, F.Submarine landslides: processes, triggers and hazard prediction[].Philosophical Transactions of the Royal Society of London.2006
7Micallef, A,Berndt, C,Masson, D. G,Stow, D. A. V.Scale invariant characteristics of the Storegga Slide and implications for large-scale submarine mass movements[].Marine Geology.2008
8ten Brink, U. S,Giest, E. L,Andrews, B. D.Size distribution of submarine landslides and its implication to tsunami hazard in Puerto Rico[].Geophysical Research Letters.2006
9Twichell, D. C,Chaytor, J. D,ten Brink, U. S,Buczkowski, B.Morphology of late quaternary submarine landslides along the U.S. Atlantic continental margin[].Marine Geology.2009
10Zhao,Y. X.Morphology and dominant controlling fac-tors of submarine canyons in the slope of the East China Sea[]..2006

二级参考文献6

1刘振夏.中国陆架潮流沉积研究新进展[J].地球科学进展,1996,11(4):414-416. 被引量：15
2Liu Z C, et al. The magnetic anomaly pattern and spreading history of Okinawa Trough[A]. Proceeding of Western Pacific Geophysics Meeting, American Fifth International Symposium[C]. Brisbane AGU, 1996, 17(22):T22A-9.
3Lee C S. Okinawa Trough: Origin of a back-ark basin[J], Marine Geol. , 1980, 35 (1-3) : 219-241.
4Ye Y C,et al. Bedform morphologies of the continental shelf off Changjiang River mouth and their environmental conditions[A]. Proceedings of SSCS[C]. Beijing: China Ocean Press, 1983. 762-774.
5汤毓祥.东海M_2分潮的数值模拟[J].东海海洋,1989,7(2):1-12. 被引量：6
6刘振夏,夏东兴,王揆洋.中国陆架潮流沉积体系和模式[J].海洋与湖沼,1998,29(2):141-147. 被引量：50

共引文献34

1WU ZiYin,JIN XiangLong,CAO ZhenYi,LI JiaBiao,ZHENG YuLong,SHANG JiHong.Distribution,formation and evolution of sand ridges on the East China Sea shelf[J].Science China Earth Sciences,2010,53(1):101-112. 被引量：10
2方银霞,高金耀,黎明碧,唐勇.冲绳海槽天然气水合物与地质构造的关系[J].海洋地质与第四纪地质,2005,25(1):85-91. 被引量：14
3吴自银,曹振轶,王小波,郑玉龙.海底沙脊地貌的研究现状及进展[J].海洋学研究,2006,24(3):53-63. 被引量：11
4杜文博,叶银灿,庄振业.东海Zk23孔的古沙脊沉积环境[J].海洋地质与第四纪地质,2007,27(2):11-16. 被引量：7
5郭军华,吴时国,徐宁,范奉鑫.冲绳海槽西侧陆坡及其邻区天然气水合物成藏构造特征[J].海洋与湖沼,2007,38(5):432-437. 被引量：9
6葛淑兰,石学法,吴永华,熊应乾,韩贻兵,唐保根.东海北部外陆架EY02-1孔磁性地层研究[J].海洋学报,2008,30(2):51-61. 被引量：11
7苏大鹏,胡刚,刘健,张宪军.东海陆架区潮流沙脊的沉积动力学[J].海洋地质动态,2008,24(6):15-18. 被引量：3
8任惠茹,康建成,王甜甜,安琰.东海黑潮热核的时空变化[J].海洋地质与第四纪地质,2008,28(5):77-84. 被引量：7
9胡光海,阎通,吴永亭,陈义兰,赵月霞.东海陆坡海底块体运动地形分析方法[J].中国海洋大学学报（自然科学版）,2009,39(2):309-312.
10杜文博,叶银灿,庄振业.Sedimentary Environment Analysis of Ancient Sand Ridges from Zk23 Hole in the East China Sea[J].Marine Science Bulletin,2009,11(2):72-80.

1张璇,石晓勇,温婷婷,张传松,韩秀荣.Distribution of dissolved inorganic nitrogen over the continental slope of the Yellow Sea and East China Sea[J].Chinese Journal of Oceanology and Limnology,2013,31(1):227-236.
2尹延鸿.海岸侵蚀和海底滑坡[J].海洋地质动态,1995,11(8):4-6. 被引量：5
3WANG Zhongtao,LI Xinzhong,LIU Peng,TAO Yanqi.Numerical analysis of submarine landslides using a smoothed particle hydrodynamics depth integral model[J].Acta Oceanologica Sinica,2016,35(5):134-140. 被引量：2
4徐肇廷,徐昊,沈国瑾.Evolution of Interface Soliton over Topography[J].China Ocean Engineering,2007,21(1):39-49. 被引量：1
5颜文涛,陈建文,范德江.海底滑坡与天然气水合物之间的相互关系[J].海洋地质动态,2006,22(12):38-40. 被引量：8
6黄琴（编译）,刘廷元（审校）.天然气水合物分解引起的海底滑坡：初步定量分析[J].能源科学进展,2007,3(4):14-14.
7汪景庸.东中国海中风暴潮的一次数值模拟[J].山东海洋学院学报,1985,15(3):40-47. 被引量：4
8曾繁彩,蔡秋蓉,陈宏文,梁世容.天然气水合物的环境效应[J].海洋地质,2003,19(3):1-10. 被引量：2
9邬建国.耗散结构、等级系统理论与生态系统[J].应用生态学报,1991,2(2):181-186. 被引量：53
10秦继兴,张仁和,骆文于,吴立新,江磊,张波.大陆坡海域二维声传播研究[J].声学学报,2014,39(2):145-153. 被引量：18

Journal of Ocean University of China

2009年第4期

浏览历史

内容加载中请稍等...

Size Distribution of Submarine Landslides Along the Middle Continental Slope of the East China Sea

参考文献11

二级参考文献6

共引文献34

相关作者

相关机构

相关主题

浏览历史