按沙粒分区计算的沙床河流沉积物预算

IF 3.5 2区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY
Christina M. Leonard, John C. Schmidt
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引用次数: 0

摘要

沉积物预算被广泛用于测量河段范围内的沉积物积累和疏散。然而,这种测量方法无法确定何时干扰较大,测得的泥沙质量失衡反映了河流正在调整到新的平衡状态,而何时干扰较小,质量失衡反映了河流正在其现有行为机制内进行调整。河道和洪泛区之间的泥沙分选会对河流如何应对扰动产生很大影响。细泥沙可能会在冲积平原上堆积,而较粗的泥沙则会从河床上侵蚀下来。我们证明,如果沉积物预算不考虑不同粒径的行为和去向,预算就无法揭示重要的河道调整。在这项研究中,我们通过将泥沙预算划分为淤泥/粘土和五种沙粒,评估了沙床河流如何应对泥沙供应的增加。平均而言,每年有 12 公吨/米(下游)的沙子从该系统中排出,但分选导致河道边缘的表现不同于植被丰富的岛屿,揭示了河流在缺水时如何略微变窄。在河道几何形状几乎没有变化的情况下,洪泛区刨削和河床粗化带走了泥沙,这与河流在其行为机制中适应轻微干扰的情况是一致的。这项研究提醒我们,泥沙量失衡并不总能导致河道变化。洪泛区刨削和河床纹理变化等机制有助于河流吸收轻微扰动并抵御河道变化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Sediment Budget for a Sand Bed River Partitioned by Sand Fractions

Sediment budgets are widely used to measure reach-scale sediment accumulation and evacuation. Such measurements, however, cannot determine when the disturbance is major and the measured sediment mass imbalance is reflective of a river adjusting to a new equilibrium state, as opposed to situations when the disturbance is minor, and the mass imbalance is reflective of a river adjusting within its existing behavioral regime. Sediment sorting among channels and floodplains can have a large effect on how a river responds to a disturbance. Fine sediment may accumulate in the floodplains while coarser sediment erodes from the channel bed. We demonstrate that if a sediment budget does not account for the different behavior and destination of grain sizes, the budget cannot reveal important channel adjustments. In this study, we evaluated how a sand bed river responded to increases in sediment supply by partitioning a sediment budget among silt/clay and five sand fractions. On average, 12 metric tons/meter (downstream)/year of sand was evacuated from the system, but sorting caused channel margins to behave differently from vegetated islands, revealing how a river can slightly narrow while in deficit. Floodplain shaving and bed coarsening evacuated sediment while channel geometry barely changed, consistent with a river adjusting to a minor disturbance within its behavioral regime. This study is an important reminder that sediment mass imbalance does not always lead to channel change. Mechanisms such as floodplain shaving and bed textural change help rivers absorb minor disturbances and resist channel change.

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来源期刊
Journal of Geophysical Research: Earth Surface
Journal of Geophysical Research: Earth Surface Earth and Planetary Sciences-Earth-Surface Processes
CiteScore
6.30
自引率
10.30%
发文量
162
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