Advanced Search
Volume 13 Issue S1
Turn off MathJax
Article Contents
Article Navigation >  Acta Sedimentologica Sinica  > 1995  >  13(S1): 71-78

Li Congxian, Zhang Gui jia, Li Tiesong. Rhythms of Tidal Flat Sedimentation and Cyclisity of Affecting Factors[J]. Acta Sedimentologica Sinica, 1995, 13(S1): 71-78.
Citation: Li Congxian, Zhang Gui jia, Li Tiesong. Rhythms of Tidal Flat Sedimentation and Cyclisity of Affecting Factors[J]. Acta Sedimentologica Sinica, 1995, 13(S1): 71-78.
shu

Rhythms of Tidal Flat Sedimentation and Cyclisity of Affecting Factors

  • Department of Marine Geology and Geophysics Tongji University, Shanghai 200092

  • Publish Date: 1995-12-10
  • Tidalites in Zhejiang Ordovician System and the recent and subrecent tidal flat deposits in the Yangtze delta are studied,utilizing the method commonly-used abaord for tide-channel and tide-flat research.The tide-flat laminae and micro-sequences are measured, and the results are analyzed by time-series analytical method to achieve "spring-neap tidal cycles". Consequently, the sedimention rate on the tidal flats is calculated to be 3. 0-4. 5m/a. However, the sedimention rate, speculated from the sea-walls built in various ages in the Yangtze Delta and measured by Ph21o, is only 2. 2-4. 0cm/a. The former is approximately one hundred times greater than the latter.Sedimentary observation on modern tidal flat show that, laminae and micro-sequences are formed by changing of current velosity during single tidal cycle; whereas, single layer and small-sequences in tidal flat sediments are the results of the intercourse of storm and calm weathers. The laminae can be eroded and destroyed by ensuing strong tidal currents,and the small-sequences can be reworked by ensuing strong storm waves. Statistical data show that the number of preserved laminae and micro-sequences is less than 10% of the experienced cycles; and the nmuber of the preserved single layer and small-sequences is less than 10% of the experienced storms. This asymmetry betweent the preserved rhythms and the cycles of the affecting factors in the basic reason for the error in speculating sedimentary rates from the sedimention rhythms on the tidal flats.Sedimentation on tidal flats in mainly vertical aggradation, while in tidal channels is mainly lateral deposition. Erosion can eliminate the tide-flat rhythms. However, the tide-channel rhythms can be eroded also, but the number of the rhythms remains unchanged. Therefore, the method of calculating sedimentation duration and sedimention rate,developed from the concepts of the "tidal bundle" and "spring-neap tidal cycle" in tidal channels, is inapplicable to tidal flat sediments.
  • [1] 1.Boesma, J. R.,1969, Internet structures of some tidal mega一ripples on shoal in the Westerschelde Estuary, the Netherlands. Geol. Mijnbouw. 48:409一411.

    2.Visser, M. J.,1980, Neap一spring cycles reflected in Holocone subtidal large一scale bedform deposits. A preliminary mote. Geology, 8:543一546.

    3.Boesma, J. R. and Terwindt, J. H. J.,1981,Neap一spring tide sequences of intertidal shoal deposits in a mega一tidal estuary. Sedimentology. 28s151一170.

    4.Allen, P, and Homewood, P.,1984, Evolution and mechanics of a Miocene tidal sand一wave, sedimentology. 31:63一 81.

    5.de Boer, P. L.,Oost, A. P. and Visser, M. J.,1989, The diurnal inequality of the tide as a parameter for recognizing tidal influences, J. Sediment. Petrlo.,59(6):912一921.

    6.Dalrymple, R. W.,Makino, Y. and Zailtin, B. A.,1990, Timporal and spatial patterns of mud flat sedimentation in a macrotidal esyuary, Cobequid Bay一Salmon River Estuary. In, D. G. Smith. G. E. Rienson and B. A. Zaitlin (Editors).

    7.Kuecher, G. J.,Woodland ,tidal cycles from the Francis B. G. and Broasthurat, F. M.,1990, Evidence of deposition from individual tides and of Creek Shale (host rock to the Mazon Creek Biota). Westphallian D (Pennsylvanian),nothereastern Illinois. Sediment. Geol.,68:211一221.

    8.Kvale, E. O.,Aecher. A. W. and Johnson, H. R.,1989, Daily, monthly and yearly tidal cycles within laminated silt-stones of the Mansfiedld Formation (Pennsylvarian) of Indiana, Geology. 17,365一368.

    9.Kvale, E. O. and Archer, A. W:,1990, Tidal deposits associated with low一sulfur coals. Brazil FM. (Lower Pennsyl-vanian). Indiana. J. Sediment. Petro.,60(4),563一574.

    10.Terwindt, J. H. J.1988, Paleotidal reconstructions of inshore tidal depositional Nio (Editor). Tidal一Influenced Sedimentary Environmentsenvironments. In: P. L. de Bier. A.van Gelder and S. D.and Facies. Reidel, Dordrecht, p. 23一263.

    11.Teessier, B. and Gigot, P.,1989, A vertical record of different tidal cyclicities: an example from the Miocene Marine Molasse of Digne (Haute Province: France). Sedimentology 36:767一776.

    12.Shi, Z.,1991, Tidal bedding and tidal oyclisities withnthe inertidal sediments of a microtidal estuary, Dyfi River Estu- ary, Sedimentary Geology, 73:43一58.

    13.李从先、韩昌甫、王平,1992,低能海岸的垂直层序和风基沉积,沉积学报,10(4):119-128,

    14.Yang, C. S. and Nio, S. D.,1985, The estimation of palaeo一hydrodynamic processes from subtidal deposits using time series analysis methods. Sedimentology. 32:41一57.

    15.Schof, D.,1980,Palacoceanography.

    16.李从先、杨君、庄振业、减启远、吴世迎,1965,淤泥质潮间浅滩的形成和演变,山东海洋学院学报,第1期.

    17.]Allen, J. R. L.,1985, Principles of physical sedimentology, George Allen & Unwin, Lodon, Boston, Sydney.

    18.李从先、李萍,1982,淤泥质海岸的沉积与砂体,海洋与湖沼,13(1):48-59,

    19.任美得等,1983,风暴潮对淤泥海岸的影响,海洋地质与第四纪地质,3(4):1-24,

    20.许世远、邵虚生,1984,杭州湾北部滨海的风暴沉积,中国科学(B辑),(12):1136-1143,

    21.Seilacher A.,1985, The Jetam Model, event condesation in a modern intertidal environment, 336一341. Sedimentary and evolutionary cycles, ed. U. BayerA Seilacher eds. Sedimentary and evolutionary cycles, 336一341.

    22.Ager. D. V.,1980, The nature of the stratigraphical record, (2nd ed),New York, Wiley, p. 122.

    23.Dott Jr.R. H.,1988, A Episodic view of shallow marine clastic sedimentation, in P. L. de Boer. A. van'Gelder and S.D. Nio eds.,Tidal一influenced sedimentary envirotunents and fades. D. Reidel Publishing Company, p. 3一12.

    24.殷鸿福、徐道一、吴瑞裳.1988,地质演化突变观,中国地质大学出版社.
  • 加载中
通讯作者: 陈斌, bchen63@163.com
  • 1. 

    沈阳化工大学材料科学与工程学院 沈阳 110142

  1. 本站搜索
  2. 百度学术搜索
  3. 万方数据库搜索
  4. CNKI搜索
Get Citation
PDF
XML

Article Metrics

Article views(449) PDF downloads(455) Cited by()

Proportional views
Related
Publishing history
  • Published:  1995-12-10

Rhythms of Tidal Flat Sedimentation and Cyclisity of Affecting Factors

  • Department of Marine Geology and Geophysics Tongji University, Shanghai 200092
  • Publish Date: 1995-12-10

Abstract: Tidalites in Zhejiang Ordovician System and the recent and subrecent tidal flat deposits in the Yangtze delta are studied,utilizing the method commonly-used abaord for tide-channel and tide-flat research.The tide-flat laminae and micro-sequences are measured, and the results are analyzed by time-series analytical method to achieve "spring-neap tidal cycles". Consequently, the sedimention rate on the tidal flats is calculated to be 3. 0-4. 5m/a. However, the sedimention rate, speculated from the sea-walls built in various ages in the Yangtze Delta and measured by Ph21o, is only 2. 2-4. 0cm/a. The former is approximately one hundred times greater than the latter.Sedimentary observation on modern tidal flat show that, laminae and micro-sequences are formed by changing of current velosity during single tidal cycle; whereas, single layer and small-sequences in tidal flat sediments are the results of the intercourse of storm and calm weathers. The laminae can be eroded and destroyed by ensuing strong tidal currents,and the small-sequences can be reworked by ensuing strong storm waves. Statistical data show that the number of preserved laminae and micro-sequences is less than 10% of the experienced cycles; and the nmuber of the preserved single layer and small-sequences is less than 10% of the experienced storms. This asymmetry betweent the preserved rhythms and the cycles of the affecting factors in the basic reason for the error in speculating sedimentary rates from the sedimention rhythms on the tidal flats.Sedimentation on tidal flats in mainly vertical aggradation, while in tidal channels is mainly lateral deposition. Erosion can eliminate the tide-flat rhythms. However, the tide-channel rhythms can be eroded also, but the number of the rhythms remains unchanged. Therefore, the method of calculating sedimentation duration and sedimention rate,developed from the concepts of the "tidal bundle" and "spring-neap tidal cycle" in tidal channels, is inapplicable to tidal flat sediments.

Li Congxian, Zhang Gui jia, Li Tiesong. Rhythms of Tidal Flat Sedimentation and Cyclisity of Affecting Factors[J]. Acta Sedimentologica Sinica, 1995, 13(S1): 71-78.
Citation: Li Congxian, Zhang Gui jia, Li Tiesong. Rhythms of Tidal Flat Sedimentation and Cyclisity of Affecting Factors[J]. Acta Sedimentologica Sinica, 1995, 13(S1): 71-78.
shu

    HTML

Reference (1)

Catalog

    Links

    Journal Online

    Contact Us

    • Website Copyright © 2011 Editorial Office of Acta Sedimentologica Sinica
    • Address: 8 Tianshui Middle Road, Lanzhou
    • Post code: 730000   Tel:(0931)8264231
    • 陇ICP备2021001824号-28
    • 甘公网安备 62010202000673号
    Wechat

    Email alert

    RSS

    Supported by: Beijing Renhe Information Technology Co. Ltd

    /

    DownLoad:  Full-Size Img  PowerPoint
    Return
    Return