Abstract
The Ohashi River is a narrow water stream that connects two brackish lakes in Japan. Intermittent saline water intrusion often occurs in Lake Shinji from Lake Nakaumi through Ohashi River. In this study, two approaches were discussed to reproduce the hydrodynamic conditions of a morphologically complex river. In the first approach, the river sinuosity was straightened. The straightening of the river resulted in a higher flow velocity and water flux coefficient due to the reduction in the flow path and the resistance, and this approach was found to be appropriate for the reproduction of the flow velocity. However, the river shape was visually quite different from the actual river morphology. In the second approach, the prime focus was given to the shape and bathymetry to quantitively reproduce the flowrate of the saline water intrusion. This approach resulted in an underestimation of the flow velocity, which was compensated by increasing the cross-sectional area of the river. A slower flow velocity causes up to a 3-h time lag for the water mass to pass through the Ohashi River, which in principle should affect the temporal variations of the water temperature and salinity. Fortunately, as the typical time scale for water temperature and salinity fluctuations in the Ohashi River is a few days, a 3-h time lag did not cause any problems.
Highlights
Jian ShenSaline water intrusion plays a critical role in the ecosystem of semi-enclosed coastal water bodies and brackish lake systems
The topmost-layer salinity was assumed as the surface salinity (Sout ) while the bottom-layer salinity was considered as Sin
The most accurate trial was the one in which the surface salinity was calculated by taking an average of the three surface layers (S0m, S0.5m, and S1m ), while the bottom salinity was taken by the average of the bottom three layers
Summary
Saline water intrusion plays a critical role in the ecosystem of semi-enclosed coastal water bodies and brackish lake systems. It often drives the fluctuations of benthic and pelagic species, altering the ecosystem structure [1]. In addition to controlling the pelagic and benthic species, the saline water intrusion makes a halocline in brackish lakes, enhancing the density gradient, and ends up declining the bottom dissolved oxygen [2]. Several studies were conducted in the past, focusing on saline water intrusion and its role in the cycling of matter, especially inorganic nutrients, in brackish lakes [3,4,5]. The aforementioned studies highlight the importance of saline water intrusion
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