Abstract
While the effects of climate change on the thermal regimes of surface waters have already been assessed by many studies, there is still a lack of knowledge on the effects on groundwater temperature and on the effects on spring water quality. The online available dataset of the Campania Environmental Agency (ARPAC) was analysed via spatial, temporal and statistical analyses to assess the impact of climate variability on 118 springs, monitored over the period from 2002 to 2017. The meteorological dataset was used to compute average annual precipitation and atmospheric temperatures. Spring water temperatures, electrical conductivity, pH, chloride and fluoride were selected to determine if climate variations had a significant impact on spring water quality. This study shows that the Campania region has experienced an increase of spring water temperatures of approximately 2.0 °C during the monitored period. This is well-linked with the increase of atmospheric minimum temperatures, but not with average and maximum atmospheric temperatures. The spring water temperature increases were not reflected by a concomitant change of the analysed water quality parameters. The latter were linked to the precipitation trend and other local factors, like spring altitude and the presence of geothermal heat fluxes.
Highlights
The climate on Earth has been continuously changing for billions of years, and will continue to change in the future
This study has shown a clear correlation between the increase of yearly average minimum atmospheric temperatures and the concurrent increase of the yearly average spring water temperatures of the Campania region, located in Southern Italy
The investigated area has experienced an increase of spring water temperatures of approximately 2.0 ◦ C in the period from 2002 to 2017
Summary
The climate on Earth has been continuously changing for billions of years, and will continue to change in the future. One of the main drivers affecting groundwater quality evolution with climate change and land use change is temperature. For this reason, new studies dealing with surface water and groundwater temperature change are needed, to. A study from Houben et al [18] in Germany demonstrated that groundwater temperature data follow air temperature trends remarkably well This holds true especially for the last 50 years, where both air and groundwater recharge temperatures have shown an increase of. The thermal response of groundwater to climate change and land use, as well as the concurrent shift of biogeochemical reactions occurring within the aquifers are relevant for groundwater quality and for surface water, since baseflow-dominated systems and aquifers are inextricably linked [13]. A 16 years dataset on air and spring water temperatures and water quality parameters is analysed to unravel if the increase of atmospheric temperatures has induced changes in spring water temperature and quality in the Campania region
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