A tide gauge, which is one component of a modern water level monitoring station, is fitted with sensors that continuously record the height of the surrounding water level. This data is critical for many coastal activities, including safe navigation, sound engineering, and habitat restoration and preservation.
Before computers were used to record water levels (especially tides), special “tide houses” sheltered permanent tide gauges. Housed inside was the instrumentation—including a well and a mechanical pen-and-ink (analog) recorder—while attached outside was a tide or tidal staff. Essentially a giant measuring stick, the tide staff allowed scientists to manually observe tidal levels and then compare them to readings taken every six minutes by the recorder. Tide houses and the data they recorded required monthly maintenance, when scientists would collect the data tapes and mail them to headquarters for manual processing.
The computer age led to tide gauges that use microprocessor-based technologies to collect sea-level data. While older tide-measuring stations used mechanical floats and recorders, modern monitoring stations use advanced acoustics and electronics. Today’s recorders send an audio signal down a half-inch-wide “sounding tube” and measure the time it takes for the reflected signal to travel back from the water’s surface. Data is still collected every six minutes, but while the old recording stations used mechanical timers to tell them when to take a reading, a Geostationary Operational Environmental Satellite (GOES) controls the timing on today’s stations.
In addition to measuring tidal heights more accurately, modern water level stations are capable of measuring 11 other oceanographic and meteorological parameters, including wind speed and direction, air and water temperature, and barometric pressure. NOAA uses this information for many purposes, among them to ensure safe navigation, record and predict sea-level trends and other oceanographic conditions via nowcasts and forecasts, and publish annual tide predictions.