Residual currents over a uniform slope due to breaking of internal waves in a two‐layer system

Hydrological Research Letters

Shintani

et al. 2013

Self Cite

Abstract:Climate change has been revealed to increase the occurrence of natural disasters and to damage ecological systems. In coastal regions, there are many environmentally significant areas from the viewpoint of biodiversity, such as areas registered under the Ramsar Convention. The Kushiro Wetland is the largest wetland and one of the most significant natural systems in Japan, remaining mostly unaffected by human activity. In the wetland, there are many species, which do not tolerate saltwater. When the sea level rises, the communities of freshwater plants and fish may die out due to the extension of salt wedge intrusion along the Kushiro River. Therefore, in this study we make an attempt to understand the impact of sea level rise on the ecological system of the wetland by using a three-dimensional numerical model, which allows us to evaluate the effect of sea level rise on salt wedge intrusion. It is revealed that the National Park area may be affected by salt water when sea level rise reaches about 0.15 m. Also, the maximum sea level rise may induce saltwater intrusion into the Ramsar area. As a result, we proposed an adaptive management strategy for protecting the ecological system of the wetland from salt wedge intrusion.

Section: Methodsmentioning

confidence: 83%

Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Adaptive management in Kushiro Wetland in the context of salt wedge intrusion due to sea level rise

Nakamoto

Hydrological Research Letters

Shintani

et al. 2013

Self Cite

“…A three‐dimensional nonhydrostatic model, FANTOM3D, was used to clarify the role of negative wind curl on the occurrence of the depression of the isopycnals due to Ekman transport [ Maruya et al ., ; Nakayama et al ., ; Nakamoto et al ., ] and the associated anticyclonic horizontal circulation. FANTOM3D is an object‐oriented programming model for the analysis of environmental fluid mechanics.…”

Section: Numerical Solutionsmentioning

confidence: 99%

Horizontal and residual circulations driven by wind stress curl in Tokyo Bay

J. Geophys. Res. Oceans

Shintani

Shimizu

et al. 2014

This study investigates the horizontal and residual circulations in Tokyo Bay using field observations, numerical simulations, and theoretical analysis. Numerical simulations show that the observed deepening of isopycnals and associated anticyclonic horizontal circulation in the bay head are mainly driven by negative wind stress curl. The effects of river discharge, surface heat fluxes, and tides are found to be small. Under strong wind events, the wind stress curl over the bay head can be large enough to make the surface Ekman layer strongly nonlinear. Theoretical and numerical analyses show that, under large negative wind stress curl, the nonlinearity tends to induce positive pumping velocity (at the base of the surface mixed layer) that counteracts the Ekman pumping; however, the typical duration of wind events in the bay head is not long enough to induce positive pumping under negative wind stress curl. These results and historical wind data suggest that the average horizontal circulation and residual circulation immediately below the surface mixed layer in Tokyo Bay are, respectively, cyclonic and convergent in summer but anticyclonic and divergent in winter.

“…The sludge and the polluted sediments lead to consumption of dissolved oxygen (DO), which can lead to hypoxia when stratification suppresses the supply of DO-saturated surface water to the lower layers of the bay head (Wolanski, 2006). Since hypoxia is harmful to many aquatic organisms, upwelling of hypoxic water under certain wind conditions or vertical mixing due to internal wave breaking can have severe ecological consequences (Stevens and Imberger, 1996;Maruya et al, 2010;Nakayama and Imberger, 2010;Nakayama et al, 2012). Even though enclosed bays are connected to the open ocean where nutrient concentrations are generally low, the exchange of water between the inner bay and the open ocean is sometimes suppressed by the shape of the bay, such that nutrients may accumulate and enhance eutrophication (Okada et al, 2011).…”

Section: Introductionmentioning

confidence: 99%

Projection of “strong wind” events related to recovery from hypoxia in Tokyo Bay, Japan

Maruya

Nakaegawa

et al. 2013

Hydrological Processes

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Abstract:This study describes the projection of sudden recovery from hypoxia in Tokyo Bay. Three different horizontal resolution of the Meteorological Research Institute Atmospheric General Circulation models (with a 20-km mesh resolution), and eight Coupled Model Intercomparison Project phase 3 (CMIP3 models) outputs were applied to project the occurrence of strong negative (south-west) winds, which enhance rapid recovery from hypoxia in the bay. South-west wind energy, KEw, was successfully reproduced in all models by using bias correction based on a cumulative distribution function from the present day (1980)(1981)(1982)(1983)(1984)(1985)(1986)(1987)(1988)(1989)(1990)(1991)(1992)(1993)(1994)(1995)(1996)(1997)(1998). The MRI-AGCM3.1S with a 20-km mesh resolution suggested an increase in the number of days with the square of southwesterly winds > 100 m 2 s À2 , but the other 10 models showed no significant difference in the future. As a result, it appears likely that recovery from hypoxia will not occur more frequently in the future if we assume that the other meteorological and hydrological conditions remain constant.