Einat Magal scite author profile

Einat Magal

3Publications

103Citation Statements Received

56Citation Statements Given

How they've been cited

122

How they cite others

Affiliations

Geological Survey of Israel, Ben-Gurion University of the Negev, Ministry of Energy

Publications

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Integrated cave drip monitoring for epikarst recharge estimation in a dry Mediterranean area, Sif Cave, Israel

Sheffer

Cohen

Morin

et al. 2011

Hydrological Processes

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Abstract:Understanding recharge mechanisms and controls in karst regions is extremely important for managing water resources because of the dynamic nature of the system. The objective of this study was to evaluate water percolation through epikarst by monitoring water flow into a cave and conducting artificial irrigation and tracer experiments, at Sif Cave in Wadi Sussi, Israel from 2005 through 2007.The research is based on continuous high-resolution direct measurements of both rainfall and water percolation in the cave chamber collected by three large PVC sheets which integrate drips from three different areas (17, 46, and 52 m 2 ). Barrels equipped with pressure transducers record drip rate and volume for each of the three areas. The combined measured rainfall and cave data enables estimation of recharge into the epikarst and to better understand the relationship of rainfall-recharge. Three distinct types of flow regimes were identified: (1) 'Quick flow' through preferential flow paths (large fractures and conduits); (2) 'Intermediate flow' through a secondary crack system; and (3) 'Slow flow' through the matrix. A threshold of ¾100 mm of rain at the beginning of the rainy season is required to increase soil water content allowing later rainfall events to percolate deeper through the soil and to initiate dripping in the cave. During winter, as the soil water content rises, the lag time between a rain event and cave drip response decreases. Annual recharge (140-160 mm in different areas in the cave) measured represents 30-35% of annual rainfall (460 mm).

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The use of fluorescent dyes as tracers in highly saline groundwater

Magal

Weisbrod

Yakirevich

et al. 2008

Journal of Hydrology

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Line‐Source Multi‐Tracer Test for Assessing High Groundwater Velocity

et al. 2010

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Segmented line-source multi-tracer injection is suggested as an effective method for assessing groundwater velocities and flow directions in subsurfaces characterized by high water flux. Modifying the common techniques of injecting a tracer into a well became necessary after point-source natural and forced gradient tracer tests ended with no reliable information on the local groundwater flow. The tracer's line-source increases the likelihood of success of the test and could provide additional information regarding the lateral heterogeneity of the aquifer. In a field experiment conducted in the northwestern part on the Dead Sea coast, tracers were injected into an 8-m-long line injection system perpendicular to the assumed flow direction. The injection system was divided into four separate segments with four different tracers. An array of five boreholes located within a 10 × 10 m area downstream was used for monitoring the tracers' transport. Two dye tracers (uranine and Na naphthionate) were injected in a long pulse of several hours into two of the injection pipe segments. Two other tracers (Rhenium oxide and Gd-DTPA) were instantaneously injected into the other two segments. The tracers were detected 0.7 to 2.3 h after injection in four of the five observation wells, located 2.3 to 10 m away from the injection system. The groundwater velocity was determined to be ∼80 to 170 m/d, based on the recoveries of the tracers. The groundwater flow direction was derived based on the arrival of the tracers and was found to be quite consistent with the apparent direction of the hydraulic gradient.

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Einat Magal

Integrated cave drip monitoring for epikarst recharge estimation in a dry Mediterranean area, Sif Cave, Israel

The use of fluorescent dyes as tracers in highly saline groundwater

Line‐Source Multi‐Tracer Test for Assessing High Groundwater Velocity

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