Abstract
Although the climate change projections are produced by global models, studying the impact of climatic change on water resources is commonly investigated at catchment scale where the measurements are taken, and water management decisions are made. For this study, the Frome catchment in the UK was investigated as an example of midland England. The DiCaSM model was applied using the UKCP09 future climate change scenarios. The climate projections indicate that the greatest decrease in groundwater recharge and streamflow was projected under high emission scenarios in the 2080s. Under the medium and high emission scenarios, model results revealed that the frequency and severity of drought events would be the highest. The drought indices, the Reconnaissance Drought Index, RDI, Soil Moisture Deficit, SMD and Wetness Index, WI, predicted an increase in the severity of future drought events under the high emission scenarios. Increasing broadleaf forest area would decrease streamflow and groundwater recharge. Urban expansion could increase surface runoff. Decreasing winter barley and grass and increasing oil seed rape, would increase SMD and slightly decrease river flow. Findings of this study are helpful in the planning and management of the water resources considering the impact of climate and land use changes on variability in the availability of surface and groundwater resources.
Highlights
Changes in the land surface hydrology are attributed to the multiple effects of the changes in climate, vegetation, and soil [1]
This study analysed the impact of climate change on the possible occurrence of drought events and the changes in streamflow and groundwater recharge of the Frome catchment
As the reconnaissance drought index, calculated from the actual evapotranspiration and the net rainfall, showed slightly better results than the Standardized Precipitation Index (SPI), soil moisture deficit (SMD) and wetness index (WI), the Reconnaissance Drought Index (RDI) was used as an indicator to identify future drought events
Summary
Changes in the land surface hydrology are attributed to the multiple effects of the changes in climate, vegetation, and soil [1]. It is important to understand the combined impact of climate and land use changes on water resource availability. Social and ecological impacts; there is no universal consensus about the definition of drought [2]. Drought occurs due to an extended period receiving below average rainfall. This is considered a meteorological drought, which progresses into agricultural, hydrological, and socio-economic drought [3]. The general perception is that the UK is not a drought-prone country; the UK has experienced frequent occurrence of drought events such as those of the 1970s, 1980s and 1990s, where summer drought events were the outcome of increased variability in climate [4]
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