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Groundwater balance estimation in karst by using a conceptual rainfall-runoff model (CROSBI ID 149411)

Prilog u časopisu | izvorni znanstveni rad | međunarodna recenzija

Jukić, Damir ; Denić-Jukić, Vesna Groundwater balance estimation in karst by using a conceptual rainfall-runoff model // Journal of hydrology, 373 (2009), 3-4; 302-315. doi: 10.1016/j.jhydrol.2009.04.035

Podaci o odgovornosti

Jukić, Damir ; Denić-Jukić, Vesna

engleski

Groundwater balance estimation in karst by using a conceptual rainfall-runoff model

A conceptual rainfall-runoff model is proposed for the estimation of groundwater balance components including the influences of time-variant catchment boundaries and intercatchment groundwater flows. Karst underground is considered as a lumped system that contains: (1) soil cover, (2) epikarst zone and (3) vadose and phreatic zones. The soil-cover receives an average rainfall in catchment as the input into the system. The epikarst zone is composed of a production store and a routing store. The production store contributes to the loss of water in process of evapotranspiration. The routing store contributes to the retention of percolated water and the lateral distribution of groundwater recharge between internal runoff and diffuse infiltration. The vadose and phreatic zones accumulate groundwater in fissures, fractures and vertical shafts, and produce the vadose seepage, vadose flow and shaft flow components of the karst spring discharge. The parameter estimation and calculation procedure assemble the moisture balance and the groundwater balance approaches. The rainfall-runoff model is divided in two sub-models. The sub-model based on the moisture balance of soil cover and epikarst production store calculates effective rainfalls. The sub-model based on the groundwater balance of vadose and phreatic zone calculates groundwater recharges. The difference between the effective rainfalls and the groundwater recharges represents the contribution of epikarst zone and non-conservative and time-variant components to the groundwater balance. The proposed methodology is applied to the Jadro Spring located near the city of Split in Croatia. The calculated groundwater balance shows that the Jadro Spring aquifer contains a significant storage capacity in the vadose and phreatic zones. During the year, the aquifer may accumulate up to 140 millions m3. The variability of calculated catchment area is explained with the time-variant catchment boundary dependent on groundwater levels and the intercatchment groundwater flows from neighboring catchments. The average catchment area of 396 km2 is estimated by using the average monthly effective rainfalls and the average monthly groundwater recharges.

Karst hydrology; Rainfall-runoff model; Groundwater recharge; Transfer function; Water balance

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Podaci o izdanju

373 (3-4)

2009.

302-315

objavljeno

0022-1694

10.1016/j.jhydrol.2009.04.035

Povezanost rada

Građevinarstvo

Poveznice
Indeksiranost