This work was funded through the Oceanographer of the Navy’s Center for Tactical Oceanographic Warfare Support program office at the Naval Research Laboratory, Code 7406, Stennis Space Center, MS, under the PE 0604218N R1740 drifting buoy project. Metocean Data Systems Ltd. of Dartmouth, Nova Scotia, Canada, developed and built the AN/WSQ-6 drifters.
Dailey, C. H., 1991: Analysis of wind and rainfall measurements from acoustic drifters. M.S. thesis, Dept. of Oceanography, Naval Postgraduate School, 109 pp. [Available from Superintendent, Code 043, Naval Postgraduate School, Monterey, CA 93943-5000 or from Defense Technical Information Center, Cameron Station, Alexandria, VA 22304-6145.].
Evans, D. L., D. R. Watts, D. Halpern, and S. Bourassa, 1984: Oceanic winds measured from the seafloor. J. Geophys. Res.,89, 3457–3461.
Farmer, D. M., and D. D. Lemon, 1984: The influence of bubbles on ambient noise in the ocean at high wind speeds. J. Phys. Oceanogr.,14, 1762–1778.
———, and S. Vagle, 1988: On the determination of breaking wave distributions using ambient sound. J. Geophys. Res.,93, 3591–3600.
Goodberlet, M. A., C. T. Swift, and J. C. Wilkerson, 1989: Remote sensing of ocean surface winds with the Special Sensor Microwave/Imager. J. Geophys. Res.,94, 14 547–14 555.
Heindsman, T. E., R. H. Smith, and A. D. Arneson, 1955: Effect of rain upon underwater noise levels. J. Acoust. Soc. Amer.,27, 378–379.
Knudsen, V. O., R. S. Alford, and J. W. Emling, 1948: Underwater ambient noise. J. Mar. Res.,1, 410–429.
Lemon, D. D., D. M. Farmer, and D. R. Watts, 1984: Acoustic measurements of wind speed and precipitation over a continental shelf. J. Geophys. Res.,89, 3462–3472.
Loewen, M. R., and W. K. Melville, 1994: An experimental investigation of the collective oscillations of bubble plumes entrained by breaking waves. J. Acoust. Soc. Amer.,95, 1329–1343.
McCormick, M. J., R. L. Pickett, and G. S. Miller, 1990: A field evaluation of new satellite-tracked buoys: A LORAN-C position recording and a sonobuoy type drifter. Marine Tech. Soc. J.,25, 29–33.
———, J. A. Nystuen, P. W. Jacobus, D. E. Snyder, and L. H. Ostwald, 1992: The anatomy of underwater rain noise. J. Acoust. Soc. Amer.,92, 1613–1623.
Nystuen, J. A., 1993: An explanation of the sound generated by light rain in the presence of wind. Natural Physical Sources of Underwater Sound, B. R. Kerman, Ed., Kluwer Academic Publishers, 659–668.
———, 1996: Acoustical rainfall analysis: Rainfall drop size distribution using the underwater sound field. J. Atmos. Oceanic Technol.,13, 74–84.
———, and D. M. Farmer, 1987: The influence of wind of the underwater sound generated by light rain. J. Acoust. Soc. Amer.,82, 270–274.
———, and ———, 1989: Precipitation in the Canadian Atlantic Storms Program: Measurements of the acoustic signature. Atmos.–Ocean,27, 237–257.
———, and H. Medwin, 1995: Underwater sound generated by rainfall: Secondary splashes of aerosols. J. Acoust. Soc. Amer.,97, 1606–1613.
———, C. C. McGlothin, and M. S. Cook, 1993: The underwater sound generated by heavy precipitation. J. Acoust. Soc. Amer.,93, 3169–3177.
Pumphrey, H. C., L. A. Crum, and L. Bjorno, 1989: Underwater sound produced by individual drop impacts and rainfall. J. Acoust. Soc. Amer.,85, 1518–1526.
Scrimger, J. A., D. J. Evans, G. A. McBean, D. M. Farmer, and B. R. Kerman, 1987: Underwater noise due to rain, hail and snow. J. Acoust. Soc. Amer.,81, 79–86.
Selsor, H. D., 1993: Data from the sea: Navy Drifting Buoy Program. Sea Technol.,34, 53–58.
Shaw, P. T., D. R. Watts, and H. T. Rossby, 1978: On the estimation of oceanic wind speed and stress from ambient noise measurements. Deep-Sea Res.,25, 1225–1233.
Vagle, S., W. G. Large, and D. M. Farmer, 1990: An evaluation of the WOTAN technique for inferring oceanic winds from underwater sound. J. Atmos. Oceanic Technol.,7, 576–595.