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滦河中游现代河流沉积构造与水动力的关系

高健 严钦尚 许世远

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文章导航 > 沉积学报  > 1983 >  1(1): 27-41
高健, 严钦尚, 许世远. 滦河中游现代河流沉积构造与水动力的关系[J]. 沉积学报, 1983, 1(1): 27-41.
引用本文: 高健, 严钦尚, 许世远. 滦河中游现代河流沉积构造与水动力的关系[J]. 沉积学报, 1983, 1(1): 27-41.
shu
Gao Jian, Yan Qinshang, Xu Shiyuan. THE RELATIONSHIP BETWEEN SEDIMENTARY STRUCTURES AND HYDRODYNAMICS IN THE MIDDLE REACH OF THE LUAN RIVER,HEPEI PROVINCE[J]. Acta Sedimentologica Sinica, 1983, 1(1): 27-41.
Citation: Gao Jian, Yan Qinshang, Xu Shiyuan. THE RELATIONSHIP BETWEEN SEDIMENTARY STRUCTURES AND HYDRODYNAMICS IN THE MIDDLE REACH OF THE LUAN RIVER,HEPEI PROVINCE[J]. Acta Sedimentologica Sinica, 1983, 1(1): 27-41.
shu

滦河中游现代河流沉积构造与水动力的关系

  • 华东师范大学地理系, 上海

THE RELATIONSHIP BETWEEN SEDIMENTARY STRUCTURES AND HYDRODYNAMICS IN THE MIDDLE REACH OF THE LUAN RIVER,HEPEI PROVINCE

  • Deparmens of Geography,East china Normal University, Shanghai

    摘要
  • 摘要: 原生沉积构造,特别是层理的研究,它有助于恢复古代沉积物沉积时的水动力状况。随着沉积学研究的深入发展,出现了以人工水渠为水槽、用热水流模拟天然冷水流等不同途径,力求使实验接近天然水流,以取得底形形成的定量数据。1979—1981年间,作者选择了季节性变化明显的滦河中游河段作为“天然水槽”,一方面观察谷底微地貌和层理结构、构造特征,另方面分析实测水底地形和水文资料,两者对应取得了较好的效果。本文是在此工作基础上,试图对滦河中游(迁安县桑园村至滦县)现代沉积构造与水动力的关系进行初步探讨。
    Abstract: logy were in almost ever- respects. It is under this blessingatmosphere, the AC-TA SEDIIIIE\TOLOGICASI\ICA" Were given birth.
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    • 参考文献(1)
  • [1] (1) Harms, J.C. et al.,1975, Depositional environments as interpreted from prim-ary sedimentary strutures and stratification sequences:Tulsa, Okla.,Soc.Econ.paleontologists and bfineralolgists, Dallas,Short Course NO.2.LectLre Notes,161.

    (2) Harms, J.C.&Fahnestock, R.K.,1965, Stratification, bedforms, and flog- ph- enomena(with an eyample from the Rio Grande),SEPM.Spe;ial Publication 121977, P.84-115.

    (3) Harms, J.C.,1979, Primary sedimentary- strutures, Am.Rea Earth Plaret.Sci.M.7,227-298.

    (4) Vanoni,V,A.,1974。Factors determining bed forms of allu、·ial streams,Proc.Am.Soc.civil. Eng.,T.Hydraul.Di}".,100, 363-377.

    (5) Simons, 1961,Forms of bed rough in alluvial channels,.Amer.Soc.Ciuil.Eng.proc 87(3),87-105.

    (6) Simons, D.B.,Richardsons, E.V1962,Resistance to flow in alluvial channelsAm.Soc.Cio.Eregrs.Trana.127, 927-953.

    (7) W iddleton, G.V,1977, Introduction-process in hpdraulie interpretation o` sedi- mentar5- structures, SEPhS.Reprint Series Number 3,1-15.

    (8) Kennedy, J.F.,1963, The mechanics of dunes and antidunes in erodible-bed chaannels. J.Fluid Mech.,16, 521-544.

    (9) lilein,G.D.,1970, Deposional and disperasal dynamics of intcrtidal sand bars.J.Sed.Petro.,40, 1095-11?7.

    (10)Athaullan, M.,1968, Prediction of bed forms in erodible channels. phD Disse- rtation, Colorado State Univ.,F ort C ollins C olorado, 161.

    (11) Allen,J.R.L.,1970, Aquantitative model of grain size and sedimentary struc-tures is lateral deposits, Geo.J.7,129-146.

    (12) Alan.jr.J.,1965,Hydraulic fators controlling the shape of laminae in laboratory deltas, J.Sed.Petro.,35(4),777-791.

    (13) Picard, M.D.&High, L.R.,1973, Sedimentary structures of ephemeral strea-ms,Developments in Sedimentology 17, Elsevier Sci.Pub.Co.,Amsterdam,223p.

    (14) Pettijohn, Potter, Siever, 1972, Sand and sandstone,New York. Sprinser-Var- lag, 618p。

    (15) Visher, G.S.,1969, Grain size distribution and depositional processes,J.Sed. Pet.39, 1074-1106。

    (16) Allen, J.R.L1964, Studies in: flurviatile sedirnentation. Sedimer:tology, 3, 163-198。

    (17) Simons, channels, D.B.et a1., 1965, Sedimentary structures generated by flow in alluvial SEMP.Special Publication 12, 34-52.

    (18) Middleton,G.V.,1977,Sedimentary process:hydraulic interpretation of primary sedimentary structures, SEPM.Reprint Series Number 3,400p.

    (19) Nanson, G.C.,1980, Point bar and floodplain formation of the meandering Be-atton River, northeastern British Columbia, Canada, Sedimentology, 27(1),3一31。

    (20) Kennedy, J.F.,Stationary waves and anti-dunes in alluvial channels,Rep KH- R一2,Keck Lab.,Hvd and water Resources. Ca1if.Inst.Tech, 1961. :46p.

    (21)中国科学院地贡研究所,197数学地贡引论,地贡出版社,404页
    • 相关文章
  • [1] 李忠.  “从最高到最深”—从第17届国际沉积学大会看沉积学研究前沿 . 沉积学报, 2006, (6): 928-933.
    [2] 李 忠.  “从最高到最深”—从第17届国际沉积学大会看沉积学研究前沿 . 沉积学报, 2006, 24(06): 928-933.
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出版历程
  • 收稿日期:  1982-03-12
  • 刊出日期:  1983-03-10

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    滦河中游现代河流沉积构造与水动力的关系

    • 华东师范大学地理系, 上海
    • 收稿日期: 1982-03-12
    • 刊出日期: 1983-03-10

    摘要: 原生沉积构造,特别是层理的研究,它有助于恢复古代沉积物沉积时的水动力状况。随着沉积学研究的深入发展,出现了以人工水渠为水槽、用热水流模拟天然冷水流等不同途径,力求使实验接近天然水流,以取得底形形成的定量数据。1979—1981年间,作者选择了季节性变化明显的滦河中游河段作为“天然水槽”,一方面观察谷底微地貌和层理结构、构造特征,另方面分析实测水底地形和水文资料,两者对应取得了较好的效果。本文是在此工作基础上,试图对滦河中游(迁安县桑园村至滦县)现代沉积构造与水动力的关系进行初步探讨。

    English Abstract

    高健, 严钦尚, 许世远. 滦河中游现代河流沉积构造与水动力的关系[J]. 沉积学报, 1983, 1(1): 27-41.
    引用本文: 高健, 严钦尚, 许世远. 滦河中游现代河流沉积构造与水动力的关系[J]. 沉积学报, 1983, 1(1): 27-41.
    shu
    Gao Jian, Yan Qinshang, Xu Shiyuan. THE RELATIONSHIP BETWEEN SEDIMENTARY STRUCTURES AND HYDRODYNAMICS IN THE MIDDLE REACH OF THE LUAN RIVER,HEPEI PROVINCE[J]. Acta Sedimentologica Sinica, 1983, 1(1): 27-41.
    Citation: Gao Jian, Yan Qinshang, Xu Shiyuan. THE RELATIONSHIP BETWEEN SEDIMENTARY STRUCTURES AND HYDRODYNAMICS IN THE MIDDLE REACH OF THE LUAN RIVER,HEPEI PROVINCE[J]. Acta Sedimentologica Sinica, 1983, 1(1): 27-41.
    shu

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