Abstract
Water temperature near the surface of a lake increases with increasing air temperature, which results in stratification. The strength of stratification substantially influences the transport of water parcels from the surface to the bottom of a lake. In recent years, the stratification in Lake Biwa—the largest freshwater lake in Japan—has been stronger. However, it is difficult to reproduce the stratification well in the simulations. In the present study, we built a hydrodynamic model for the purpose of analyzing the structure of the stratification in detail. Using the model, we evaluated the reproducibility of the seasonal and annual changes of vertical water distribution and flow field in Lake Biwa from 2007 to 2011. The hydrodynamic model results show that the vertical water distribution approximately agrees with the field observations based on the statistical analysis. The seasonal change of thermal stratification is reasonably reproduced by the hydrodynamic model simulations. In the simulation, there are mainly two circulation flows at the surface layer of the lake. The first flows anticlockwise and the second flows clockwise in the northern part of Lake Biwa. In order to compensate for the surface water flow, the water under the thermocline sometimes flows in the opposite direction under each circulation flow.
Highlights
In a warm season, water temperature near the surface of a lake increases with increasing air temperature
We investigated the differences of change in the water temperature at various depths
The water thethe line passing from to east through thelayers monitoring point the water in the distributions surface layer along reaches lower layers, andwest the temperature of all becomes the in
Summary
Water temperature near the surface of a lake increases with increasing air temperature. The thermocline disrupts the transport of substances such as dissolved oxygen between the surface layer and the layer under the thermocline. The period of stratification tends to be prolonged in lakes worldwide. Livingstone reported that in Lake Zurich (Switzerland), the rate of increase in water temperature at the surface was different from that in the deep layer from the 1950s to the 1990s due to climate change. The thermal stability of the water rose by 20% and the period of the stratification was extended for two to three weeks [1]
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