Use of the 3D Radon Transform to Examine the Properties of Oceanic Rossby Waves

Abstract

One of the most successful applications of satellite-borne radar altimeter data over the oceans in recent years has been the extraction of information about long-wavelength baroclinic Rossby (or planetary) waves, which play a significant role in ocean circulation and climate dynamics. These waves cross ocean basins from east to west at speeds of a few centimeters per second at midlatitudes. The cross-basin propagation time may therefore be several months or even years, and an accurate estimation of the speed of the waves is important. Methods are reviewed for obtaining information on Rossby wave velocity from altimetry data, particularly the two-dimensional Radon transform. Unfortunately, the use of longitude–time plots, although it allows the estimation of the zonal phase speeds, does not give any information on the velocity vector when the propagation of the waves is not purely zonal (east–west). As shown here, the two-dimensional Radon transform can be generalized to three dimensions, enabling... Abstract One of the most successful applications of satellite-borne radar altimeter data over the oceans in recent years has been the extraction of information about long-wavelength baroclinic Rossby (or planetary) waves, which play a significant role in ocean circulation and climate dynamics. These waves cross ocean basins from east to west at speeds of a few centimeters per second at midlatitudes. The cross-basin propagation time may therefore be several months or even years, and an accurate estimation of the speed of the waves is important. Methods are reviewed for obtaining information on Rossby wave velocity from altimetry data, particularly the two-dimensional Radon transform. Unfortunately, the use of longitude–time plots, although it allows the estimation of the zonal phase speeds, does not give any information on the velocity vector when the propagation of the waves is not purely zonal (east–west). As shown here, the two-dimensional Radon transform can be generalized to three dimensions, enabling...