FY 2011 A global ocean acoustic observing network Dushaw, B., W. Au, A. Beszczynska-Möller, R. Brainard, B.D. Cornuelle, T. Duda, M. Dzieciuch, A. Forbes, L. Freitag, J.-C. Gascard, A. Gavrilov, J. Gould, B. Howe, S.R. Jayne, O.M. Johannessen, J.F. Lynch, D. Martin, D. Menemenlis, P. Mikhalevsky, J.H. Miller, S.E. Moore, W.H. Munk, J. Nystuen, R.I. Odom, J. Orcutt, T. Rossby, H. Sagen, S. Sandven, J. Simmen, E. Skarsoulis, B. Southall, K. Stafford, R. Stephen, K.J. Vigness-Raposa, S. Vinogradov, K.B. Wong, P.F. Worcester, and C. Wunsch doi: 10.5270/OceanObs09.cwp.25, In Proceedings of the "OceanObs'09: Sustained Ocean Observations and Information for Society" Conference (Vol. 2), Venice, Italy, 21–25 September 2009, Hall, J., D.E. Harrison, and D. Stammer, Eds., ESA Publication WPP-306 (2010) Passive and active acoustic measurements are effective and unique approaches to ocean observation. Both approaches have techniques that are well-established and suitable for immediate deployment as part of an operational observing system. Many of these techniques exploit the remarkable ability of lowfrequency sounds to traverse great distances in the ocean. Passive acoustic measurements of natural or man-made sounds are made for diverse purposes ranging from assessing the environmental impact of human activities, to geophysics, to monitoring changes in biodiversity in response to climate change. Active acoustic systems are employed for tracking instruments and acoustic tomography. Tomography has a role in the ocean observing system that is complementary to altimetry and profiling floats, particularly in the context of data assimilation and ocean modeling. Modest systems of acoustic receivers and sources deployed across ocean basins can make cost effective, sustained observations of a variety of ocean processes. Feature Publications | Outstanding Scientific Publications Contact Sandra Bigley | Help
