Cyclic fluctuations of water level as a basis for determining aquifer transmissibility
In coastal areas, wells near bodies of tidal water frequently exhibit sinusoidal fluctuations of water level, in response to periodic changes of tidewater stage. Inland, the regulation of a surface reservoir often produces correlative changes of ground-water stage in wells adjacent either to the reservoir or to its attendant stream. As the stage of the surface water rises, the head upon the subaqueous outcrop of the aquifer increases and thereby either increases the rate of inflow to the aquifer or reduces the rate of outflow therefrom. The increase in recharge or reduction in discharge results in a general recovery of water level in the aquifer. On the subsequent falling stage this pattern is reversed. When the stage of the surface body fluctuates as a simple harmonic motion a train of sinusoidal waves is propagated shoreward through the sub-outcrop of the aquifer. With increasing distance from the sub-outcrop, the amplitude of the transmitted wave decreases and the time lag of a given maximum or minimum increases.
Citation Information
Publication Year | 1952 |
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Title | Cyclic fluctuations of water level as a basis for determining aquifer transmissibility |
DOI | 10.3133/70133368 |
Authors | John G. Ferris |
Publication Type | Report |
Publication Subtype | USGS Unnumbered Series |
Series Number | Note 1 |
Index ID | 70133368 |
Record Source | USGS Publications Warehouse |