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Library Numerical assessments of the impacts of climate change on regional groundwater systems in a paddy-dominated alluvial fan

Numerical assessments of the impacts of climate change on regional groundwater systems in a paddy-dominated alluvial fan

Numerical assessments of the impacts of climate change on regional groundwater systems in a paddy-dominated alluvial fan

Resource information

Date of publication
December 2016
Resource Language
ISBN / Resource ID
AGRIS:US201600101860
Pages
93-103

Quantitative assessment of the impacts of climate change on groundwater levels is important for sustainable groundwater use. This study examined the Tedori River alluvial fan in Ishikawa Prefecture, Japan, where paddy fields occupy 45 % of the total area. A regional groundwater flow model simulated future groundwater levels in response to 38 climate change projections generated for each of three GCMs, using three GHG emission scenarios with the ELPIS-JP datasets. The numerical groundwater flow model consisted of a 1-D unsaturated water flow model (HYDRUS-1D) for estimating groundwater recharge and a 3-D groundwater flow model (MODFLOW). Variable parameters consisted of daily air temperature, precipitation, humidity, solar radiation, and wind speed, which influence groundwater through infiltration, evapotranspiration, snowfall, and snowmelt. Groundwater levels had both decreasing and increasing trends, depending on climate change. There were more decreasing than increasing trends, and the maximum groundwater drawdown during 2010–2090 was ~1 m. Groundwater level was most sensitive to change in rate of precipitation during the non-irrigation period. Variations of relatively low-intensity precipitation days, when daily precipitation was

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Authors and Publishers

Author(s), editor(s), contributor(s)

Yoshioka, Yumi
Nakamura, Kimihito
Horino, Haruhiko
Kawashima, Shigeto

Publisher(s)
Data Provider
Geographical focus