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WATER RESOURCES RESEARCH,
VOL. 33, NO. 6,
PAGES 1429–1435,
1997
A Two-Dimensional Analytical Solution of Groundwater Response to Tidal Loading in an Estuary
Hongbing Sun
Department of Geology, Temple University, Philadelphia, Pennsylvania
Abstract
A two-dimensional transient groundwater flow equation for a confined nonleaky aquifer is solved analytically with an estuary
tidal-loading boundary condition. The amplitude and phase of the tide varies with position and time, respectively.
These variations, called the “damping coefficient,” for amplitude, and “separation constant,” for phase along the
coastline, are considered in the analysis. The solution presented is more advanced than the traditional one-dimensional
analytical solution with a one-dimensional tidal-loading boundary condition. The damping coefficient and separation
constant in the application study are obtained from the harmonic analysis of the observed tidal level in Apalachicola
Bay, Florida. The analytical solution is compared to a two-dimensional finite difference solution. A numerical simulation
illustrates the response of piezometric head to tidal loading. The piezometric head and phase from both solutions match
closely. The analytical and numerical solutions show that a piezometric head along both sides of the estuary can be
predicted given a tidal elevation at the entry of an estuary. The fluctuation of piezometric head in response to tidal
loading diminishes rapidly inland and diminishes slowly along the coastline of an estuary. There are also obvious
phase shifts associated with spatial variations as the wave propagates.
Received 10
July
1996;
accepted 12
February
1997.
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Citation: Sun, H.
(1997),
A Two-Dimensional Analytical Solution of Groundwater Response to Tidal Loading in an Estuary,
Water Resour. Res.,
33(6),
1429–1435.
Copyright 1997 by the American Geophysical Union.
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