Sediment supply controls equilibrium channel geometry in gravel rivers

机译：泥沙供应控制砾石河流中的平衡河道几何形状

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In many gravel-bedded rivers, floods that fill the channel banks create just enough shear stress to move the median-sized gravel particles on the bed surface (D50). Because this observation is common and is supported by theory, the coincidence of bankfull flow and the incipient motion of D50 has become a commonly used assumption. However, not all natural gravel channels actually conform to this simple relationship; some channels maintain bankfull stresses far in excess of the critical stress required to initiate sediment transport. We use a database of >300 gravel-bedded rivers and >600 ¹⁰Be-derived erosion rates from across North America to explore the hypothesis that sediment supply drives the magnitude of bankfull shear stress relative to the critical stress required to mobilize the median bed surface grain size (

τ_{b f}^{*} / τ_{c}^{*}

). We find that

τ_{b f}^{*} / τ_{c}^{*}

is significantly higher in West Coast river reaches (2.35, n = 96) than in river reaches elsewhere on the continent (1.03, n = 245). This pattern parallels patterns in erosion rates (and hence sediment supplies). Supporting our hypothesis, we find a significant correlation between upstream erosion rate and local

τ_{b f}^{*} / τ_{c}^{*}

at sites where this comparison is possible. Our analysis reveals a decrease in bed surface armoring with increasing

τ_{b f}^{*} / τ_{c}^{*}

, suggesting channels accommodate changes in sediment supply through adjustments in bed surface grain size, as also shown through numerical modeling. Our findings demonstrate that sediment supply is encoded in the bankfull hydraulic geometry of gravel bedded channels through its control on bed surface grain size.

机译：在许多砾石床河流中，充满河道的洪水产生的剪切应力恰好足以使中等大小的砾石颗粒在河床表面移动（D50）。因为这种观察是普遍的并且得到理论的支持，所以堤满流和D50的初始运动的重合已成为一种常用的假设。但是，并非所有天然砾石通道实际上都符合这种简单关系。一些河道保持的堤岸应力远远超过启动沉积物输送所需的临界应力。我们使用了一个数据库，该数据库包含来自北美洲的300多个砾石河床和> 600 ^{10 Be得出的侵蚀率，以探讨以下假设：相对于临界应力，沉积物供应驱动河岸全剪应力的大小调动中层床表面晶粒尺寸所需的（<数学xmlns：mml =“ http://www.w3.org/1998/Math/MathML” id =“ i1”溢出=“ scroll”> τ b f * < / mrow> / τ c * < / mrow> ）。我们发现 ${< mi>τ}_{bf*/τc*在西海岸的河段（2.35，n = 96）明显高于在该大陆其他地方的河段（1.03，n = 245）。这种模式与侵蚀速率（和沉积物供应）的模式相似。支持我们的假设，我们发现上游侵蚀率与局部< mrow> τbf*/τc*在可能进行比较的站点上。我们的分析表明，随着τbf*/τc*，这表明通过调节床表面颗粒尺寸来适应沉积物供应的变化，这也通过数值模型得到了证明。我们的发现表明，通过控制河床表面颗粒尺寸，在沙砾河床渠道的全部水力几何结构中编码了沉积物供应。}$}

著录项

期刊名称 Proceedings of the National Academy of Sciences of the United States of America
作者
Allison M. Pfeiffer; Noah J. Finnegan; Jane K. Willenbring;
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作者单位

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年(卷),期 2017(114),13
年度 2017
页码 3346–3351
总页数 6
原文格式 PDF
正文语种
中图分类
关键词
river channel geometry sediment supply sediment transport;

机译：河道的几何形状;泥沙供应;泥沙输送;
入库时间 2022-08-17 12:45:36

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1. THE EFFECT OF LAND USE ON CHANNEL GEOMETRY AND SEDIMENT DISTRIBUTION IN GRAVEL MANTLED BEDROCK STREAMS, ILLINOIS RIVER WATERSHED, ARKANSAS [J] . S. L. SHEPHERD, J. C. DIXON, R. K. DAVIS, Regulated Rivers Research & Management . 2011,第7期

机译：土地利用对阿肯色州伊利诺伊河河床碎石基岩流道几何形状和沉积物分布的影响
2. Discharge and suspended sediment time series as controls on fine sediment ingress into gravel river beds [J] . Mathers Kate L., Rice Stephen P., Wood Paul J. Catena: An Interdisciplinary Journal of Soil Science Hydrology-Geomorphology Focusing on Geoecology and Landscape Evolution . 2019,第期

机译：放电和悬浮沉积时间序列作为对砾石河床的细泥沙进入的控制
3. Channel response to sediment replenishment in a large gravel-bed river: The case of the Saint-Sauveur dam in the Bueech River (Southern Alps, France) [J] . Brousse Guillaume, Arnaud-Fassetta Gilles, Liebault Frederic, River Research and Applications . 2020,第6期

机译：大型砾石河河流沉积物补充的渠道响应：Bueech River中的Saint-Sauveur大坝的情况（法国南阿尔卑斯山）
4. Two-dimensional Simulation of Hydrodynamic and Sediment Transport in a Gravel Bed Channel: The Salt River [C] . Dong Chen, Yaoxin Zhang, Jennifer G Duan, World Environmental and Water Resources Congress . 2007

机译：砾石床通道流体动力学和沉积物运输的二维模拟：盐河
5. Fine-grained channel margin deposits in a typical gravel bed river: Spatial and temporal controls on the distribution, quantity, and residence time and implications for centennial-scale sediment and mercury cycling. [D] . Skalak, Katherine Joanne. 2009

机译：典型砾石河中的细粒度河道边缘沉积物：时空分布，数量和停留时间的控制以及对百年规模沉积物和汞循环的影响。
6. Aquatic macroinvertebrates stabilize gravel bed sediment: A test using silk net-spinning caddisflies in semi-natural river channels [O] . Lindsey K. Albertson, Leonard S. Sklar, Scott D. Cooper, 2012

机译：水生大型无脊椎动物稳定砾石床沉积物：在半天然河道中使用纺丝丝网虫进行的试验
7. EQUILIBRIUM CROSS-SECTIONAL GEOMETRY OF GRAVEL RIVERS TRANSPORTING SUSPENDED SEDIMENT [O] . Norihiro Izumi, Gary Parker 1997

机译：平衡砂轮横截面几何，传输悬浮沉积物

Sediment supply controls equilibrium channel geometry in gravel rivers

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