Forcing uncertainty and salinity response to dredging in a tidal freshwater river

IF 2.2 Q3 WATER RESOURCES

International Journal of River Basin Management Pub Date : 2021-08-17 DOI:10.1080/15715124.2021.1961795

Robert L. Miller

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引用次数: 3

Abstract

ABSTRACT This study evaluates the salinity response to dredging under different forcing regimes for a 75-kilometer segment of the flood-prone Vermilion River located in coastal Louisiana, USA. The Vermilion is a tidal freshwater river affected by baseflow regulation, rapid urbanization, and hydromodification. This river also serves as major freshwater resource for the region. An efficient one-dimensional model calibrated previously for stage and water temperature is used to analyse the salinity impacts due to a large-scale flood control dredging. The analysis is based on 200 alternative scenarios based on combinations of uncertain key forcing variables for a critical 13-day intrusion period. The analysis reveals a nonlinear effect on mean salinities and position of the brackish water limit as a function of uncertain forcing variables. Dredging also increases the variability of salinity encroachment effects due to uncertainty in future forcing conditions (e.g. relative sea level rise, baseflow diversion volumes, and salinities at the river mouth). The robust analysis presented here provides a foundation for future model-based assessments of under-studied tidal freshwater rivers and provides key insights for coastal management and sustainability efforts in general.

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潮汐淡水河疏浚的强迫不确定性和盐度响应

摘要本研究评估了美国路易斯安那州沿海易发洪水的弗米利翁河75公里河段在不同强迫条件下对疏浚的盐度响应。弗米利翁是一条受基流调节、快速城市化和水力改良影响的潮汐淡水河。这条河也是该地区的主要淡水资源。使用先前针对水位和水温校准的有效一维模型来分析大规模防洪疏浚对盐度的影响。该分析基于200种替代场景，这些场景基于关键13天入侵期内不确定关键强制变量的组合。该分析揭示了作为不确定强迫变量的函数的对平均盐度和微咸水极限位置的非线性影响。由于未来强迫条件的不确定性（如相对海平面上升、基流分流量和河口盐度），疏浚还会增加盐度侵蚀效应的可变性。本文提供的稳健分析为未来对研究不足的潮汐淡水河进行基于模型的评估奠定了基础，并为沿海管理和总体可持续性工作提供了关键见解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

International Journal of River Basin Management WATER RESOURCES-

CiteScore

6.00

自引率

4.00%

发文量

期刊介绍： include, but are not limited to new developments or applications in the following areas: AREAS OF INTEREST - integrated water resources management - watershed land use planning and management - spatial planning and management of floodplains - flood forecasting and flood risk management - drought forecasting and drought management - floodplain, river and estuarine restoration - climate change impact prediction and planning of remedial measures - management of mountain rivers - water quality management including non point source pollution - operation strategies for engineered river systems - maintenance strategies for river systems and for structures - project-affected-people and stakeholder participation - conservation of natural and cultural heritage