Determination of aquifer parameters based on measurements of tidal effects on a coastal aquifer near Beihai, China

Abstract

Measurements of the tide and groundwater levels in coastal zones are of importance in determining the properties of coastal aquifers. The solution to a one‐dimensional unsteady groundwater flow model in a coastal confined aquifer with sinusoidal fluctuation of the tide shows that the tidal efficiency decreases exponentially with distance and the time lag increases linearly with distance from the coast. The aquifer property described by the ratio of storage coefficient to transmissivity is determined if the damping constant of the tidal efficiency or the slope of the time lag with distance are obtained on the basis of tidal measurements. Hourly observations of the tide and groundwater levels at 10 wells on the northern coast near Beihai, China show that with distance from the coast, tidal efficiency decreases roughly exponentially and the time lag increases roughly linearly. The estimated ratio of storage coefficient to transmissivity of the confined aquifer ranges from 1·169 × 10^−6^ d m^−2^ to 1·83 × 10^−7^ d m^−2^. For a given transmissivity of 750 m^2^ d^−1^, the storage coefficient of the aquifer is 8·7675 × 10^−4^ with the tidal efficiency method and 1·3725 × 10^−4^ with the time lag method. The damping constant of the tidal efficiency with distance can be defined as the tidal propagation coefficient. The value of the confined aquifer is determined as 0·0018892 m^−1^. Copyright © 2007 John Wiley & Sons, Ltd.