Abstract Quantitative reconstruction of cross-sectional dimensions and hydrological parameters of gravelly fluvial channels developed in a forearc basin setting under a temperate climatic condition, central Japan
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首页> 外文期刊>Sedimentary geology >Quantitative reconstruction of cross-sectional dimensions and hydrological parameters of gravelly fluvial channels developed in a forearc basin setting under a temperate climatic condition, central Japan
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Quantitative reconstruction of cross-sectional dimensions and hydrological parameters of gravelly fluvial channels developed in a forearc basin setting under a temperate climatic condition, central Japan

机译:在日本中部温带气候条件下,前河流域环境中砾石冲积河道的断面尺寸和水文参数的定量重建

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摘要

AbstractReconstructions of the dimensions and hydrological features of ancient fluvial channels, such as bankfull depth, bankfull width, and water discharges, have used empirical equations developed from compiled data-sets, mainly from modern meandering rivers, in various tectonic and climatic settings. However, the application of the proposed empirical equations to an ancient fluvial succession should be carefully examined with respect to the tectonic and climatic settings of the objective deposits. In this study, we developed empirical relationships among the mean bankfull channel depth, bankfull channel depth, drainage area, bankfull channel width, mean discharge, and bankfull discharge using data from 24 observation sites of modern gravelly rivers in the Kanto region, central Japan. Some of the equations among these parameters are different from those proposed by previous studies. The discrepancies are considered to reflect tectonic and climatic settings of the present river systems, which are characterized by relatively steeper valley slope, active supply of volcaniclastic sediments, and seasonal precipitation in the Kanto region. The empirical relationships derived from the present study can be applied to modern and ancient gravelly fluvial channels with multiple and alternate bars, developed in convergent margin settings under a temperate climatic condition. The developed empirical equations were applied to a transgressive gravelly fluvial succession of the Paleogene Iwaki Formation, Northeast Japan as a case study. Stratigraphic thicknesses of bar deposits were used for estimation of the bankfull channel depth. In addition, some other geomorphological and hydrological parameters were calculated using the empirical equations developed by the present study. The results indicate that the Iwaki Formation fluvial deposits were formed by a fluvial system that was represented by the dimensions and discharges of channels similar to those of the middle to lower reaches of the modern Kuji River, northern Kanto region. In addition, no distinct temporal changes in paleochannel dimensions and discharges were observed in an overall transgressive Iwaki Formation fluvial system. This implies that a rise in relative sea level did not affect the paleochannel dimensions within a sequence stratigraphic framework.
机译: 摘要 对古代河道的尺寸和水文特征的重建,例如河岸深度,河岸宽度和排水量,都使用了经验方程式从主要在不同构造和气候环境中蜿蜒的现代河流收集的数据集开发而成。但是,应针对目标沉积的构造和气候环境,仔细研究提议的经验公式在古代河流演替中的应用。在这项研究中,我们使用来自日本中部关东地区现代砾石河的24个观测点的数据,开发了平均河岸满河深度,河岸满河深度,排水面积,河岸满河道宽度,平均流量和河岸满水流量之间的经验关系。这些参数中的某些方程式与先前研究提出的方程式不同。这些差异被认为反映了当前河流系统的构造和气候环境,其特征是相对较陡的山谷坡度,活跃的火山碎屑沉积物供应以及关东地区的季节性降水。从本研究得出的经验关系可以适用于在温带气候条件下在会聚的边缘环境中发育的具有多个和交替的钢筋的现代和古代砾石河道。将开发的经验方程式应用到日本东北古近纪岩城组的海侵碎屑河流相演替中作为案例研究。棒状沉积物的地层厚度用于估算河床的河床深度。此外,使用本研究开发的经验公式计算了一些其他地貌和水文参数。结果表明,岩城组河流相沉积物是由河流系统形成的,河流系统的大小和流量与现代关东地区北部久慈河的中下游相似。另外,在整个海侵岩城组河流系统中,没有观测到古河道尺寸和流量的明显时间变化。这意味着相对海平面的上升不会影响层序地层学框架内的古河道尺度。

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