Assessment of groundwater recharge in a Mediterranean karst system using chelsa and modis data
DOI:
https://doi.org/10.4408/IJEGE.2026-01.S-06Keywords:
groundwater recharge, karst aquifer, CHELSA, MODIS, APLIS methodAbstract
This study aims to quantify and map groundwater recharge in a Mediterranean karst aquifer in southern Italy over the period 2000–2018 by integrating analyses based on high-resolution climatological and remote sensing datasets. The approach uses annual precipitation (P) from the CHELSA v2.1 dataset, which provides ~1 km resolution climatological variables derived from downscaled ERA-interim reanalysis and ground observations. Actual evapotranspiration (AET) was obtained from the MODIS MOD16A3GF product (500 m resolution), based on the Penman– Monteith algorithm. GR was estimated through two methods employing groundwater recharge coefficients (GRCs). The first applied the APLIS model, a GIS-based empirical method specifically designed for karst aquifers, which determines a spatially distributed GRC as a function of five environmental variables. The second method used effective precipitation (P–AET) combined with lithology-dependent GRCs from the literature. Both recharge methods yielded slightly different GR estimates in terms of discharge rate at the basin scale, with values of 1.3 m3∙s-1 and 1.0 m3∙s-1 for the first and the second method, respectively. Locally, some spatial differences emerged due to methodological contrasts. Overall, the integrated GIS-based framework proved effective for estimating groundwater recharge in data-limited karst environments and demonstrates strong potential for application in other Mediterranean karst systems.
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Copyright (c) 2026 Silvio Coda, Delia Cusano, Daniele Lepore, Pasquale Allocca, Francesco Carotenuto, Pantaleone De Vita, Diego Di Martire, Paola Petrone, Vincenzo Allocca
This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.
