Abstract
In a lake catchment system, we analyzed the lake water-level responses to precipitation. Moreover, we identified the average precipitation retention time—due to subsurface flows—from the delay time calculated using the response function with data of water level and catchment precipitation (both rainfall and snowfall) collected over 30 years of continuous observations of Lake Biwa, Japan. We focused on the snow reserves and the water-level response delay due to the snowmelt of Lake Biwa catchment. We concluded that the average precipitation retention time of the catchment subsurface flow (i.e., above the impermeable layer) in Lake Biwa was approximately 45 days. Additionally, the precipitation retention time during snowmelt was shorter than that during the dry season. Overall, the shape of the response function reflects the lake system. This knowledge improves the understanding of lake systems and can be helpful for lake resource managers. Furthermore, finding the delay time from the response function may be useful for determining the contribution of rainfall to increasing the water levels of other lakes. Therefore, our results can contribute to the development of management strategies to address inland aquatic ecosystems and conservation.
Highlights
The standard point of baseline of ±0 m (BSL) changed from Toriigawa to an average of five points (Katayama, Omizo, Hikone, Katata, and Mihogasaki; Figure 1) in 1992
In the snowmelt season (March), two clear peaks appeared at approximately 25–35 and 45 days in the snowmelt season when the soil was saturated with snowmelt water (Figure 6b). These results suggest that the precipitation retention time during the snowmelt season was shorter than that in other seasons
We estimated the timescale of the response in Lake Biwa by calculating response functions
Summary
Lakes in arid or semi-arid areas are vulnerable to climate change due to the limited water availability. For such regions, drivers of water shortage include increased water withdrawal during droughts and intensified agricultural use in the contributing catchment [1]. Many other lakes in arid areas are reportedly shrinking and disappearing, presenting severe global issues [2,3,5]. While water storage is already an acute problem for lakes in arid areas, this problem is receiving increasing attention for wet subtropical lakes due to changes in the water cycles caused by climate change
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