Hydrology of Small Oceanic Islands — Influence of Atmospheric Pressure on the Water Table

<p> There is a spectrum of sea&hyphen;level fluctuations that affect the water table of a small, permeable oceanic island. At the high&hyphen;frequency end of the spectrum are the semi&hyphen;diurnal and diurnal components of the astronomical tides. Also affecting sea&hyphen;level elevation are atmospheric pressure and the temperature and salinity (hence density) of the ocean column.</p><p> Changes in atmospheric pressure cause sea&hyphen;level changes on the order of up to about 30 cm, by what oceanographers call the &ldquo;inverted barometer effect.&rdquo; As a result, pressure changes, like tides, generate waves that migrate across the water table. Amplitudes of the resultant pressure&hyphen;related water&hyphen;table fluctuations diminish inland. However, owing to the relatively long period of the pressure&hyphen;related fluctuations, their inland attenuation is far less than that of the hydraulically analogous tides. In fact, in Bermuda for example, the pressure&hyphen;related water&hyphen;table fluctuations completely dominate water&hyphen;table statistics that reflect day&hyphen;to&hyphen;day changes in elevation.</p><p> Because a drop in pressure and corresponding rise in the water table accompanies passage of a storm front, which also brings a rainfall, there is commonly a coincidental, and very misleading, correlation between rainfalls and water&hyphen;table rises. In island and coastal settings, non&hyphen;tidal sea&hyphen;level changes and their effect on the water table must be taken into account, if recharge is to be correctly evaluated from water&hyphen;table data.</p>