Karst groundwater vulnerability assessment: application of an integrative index-based approach to main catchments of middle Valseriana springs (Northern Italy)

Karst groundwater vulnerability assessment: application of an integrative index-based approach to main catchments of middle Valseriana springs (Northern Italy)

The study aim was to assess the intrinsic vulnerability of the middle Valseriana (northern Italy) through a methodology that could fully consider the peculiar characteristics of the Pre-Alps region. After applying classical methods for karst environments (COP and EPIK), the integrative COPA+K method...

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Bibliographic Details
Published in:Environmental earth sciences Vol. 80; no. 17
Main Authors: Citrini, Andrea, Camera, Corrado A. S., Alborghetti, Francesca, Beretta, Giovanni Pietro
Format: Journal Article
Language:English
Published: Berlin/Heidelberg Springer Berlin Heidelberg 01-09-2021
Springer Nature B.V
Subjects:
Aquifers
Biogeosciences
Catchment area
Catchments
Dispersion
Drainage systems
Drinking water
Earth and Environmental Science
Earth science
Earth Sciences
Environmental Science and Engineering
Geochemistry
Geology
Groundwater
Hydrology/Water Resources
Karst
Original Article
Recharge
Recharge areas
Spring
Terrestrial Pollution
Vulnerability
Water shortages
Water springs
Water supply
Italy
New method
Italian Pre-Alps Region
COPA+K method
Karst
Groundwater vulnerability map
Nossana and Ponte del Costone springs
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Summary:The study aim was to assess the intrinsic vulnerability of the middle Valseriana (northern Italy) through a methodology that could fully consider the peculiar characteristics of the Pre-Alps region. After applying classical methods for karst environments (COP and EPIK), the integrative COPA+K method was developed for the Nossana (dominant drainage system) and Ponte del Costone (dispersive circulation system) spring catchments. The COPA+K approach exploits the potential of the COP method with the addition of two factors: the influence of the main discontinuities on the water system according to their distance from the spring (A factor), and the development of the karst network (K factor). The COP and COPA+K maps were validated based on the characteristic correlation, for the study area, between the values of δ 18 O and the elevation of recharge areas. Compared to COP, the COPA+K results appeared more stringent in the identification of areas characterized by high vulnerability, which passed from 35.6% to 23.6% of the entire study area. COPA+K also made possible to better differentiate the behavior of the two catchments. In terms of high susceptible areas, their percentage difference increased by 12.3%, correctly emphasizing the greater susceptibility of the Nossana drainage system in comparison with the Ponte del Costone dispersive one. For the COPA+K map, in the Nossana catchment, the δ 18 O values indicated a good agreement between the mean elevation of high vulnerable and water recharge areas (± 106 m). For Ponte del Costone, the isotopic data indicated a possible mixing with the waters of the Serio River.
ISSN:1866-6280
1866-6299
DOI:10.1007/s12665-021-09860-8