Time-lapse microgravity surveys reveal water storage heterogeneity of a karst aquifer
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Publication Date
6-1-2010
Publication Title
Journal of Geophysical Research Solid Earth
Volume Number
115
Issue Number
6
Abstract
Time‐lapse microgravity surveying combined with absolute gravity measurements is used to investigate water storage changes in a karst aquifer of ∼100 km 2 area. The survey consists of 40 gravity stations measured with a relative gravimeter; absolute gravity is measured at three stations for each survey. In total, four gravity surveys are performed over a 2 year time period during consecutive wet and dry periods. Survey precisions range between 2.4 and 5 μ Gal, enabling statistically significant detection of 10 μ Gal change, i.e., ∼0.25 m equivalent water level change. Observed gravity changes are coherent between consecutive survey periods, i.e., net water withdrawal and net water recharge is observed, reaching changes as high as 22 μ Gal. Observed gravity changes allow refining evapotranspiration estimates, which may serve to improve the water budget of the aquifer. High‐and low‐gravity amplitude zones characterize the karst system, demonstrating spatially variable storage behavior. Geomorphologic considerations are invoked to explain the location of preferential zones of water storage, and a conceptual model of water storage is discussed for the studied karst.
Document Type
Article
Digital Object Identifier (DOI)
https://doi.org/10.1029/2009JB006616
Language
English
Recommended Citation
Jacob, Thomas; Bayer, Roger; Chery, Jean; and Le Moigne, Nicolas, "Time-lapse microgravity surveys reveal water storage heterogeneity of a karst aquifer" (2010). KIP Articles. 9250.
https://digitalcommons.usf.edu/kip_articles/9250
