2009, Oceanography 22(2):146–157, http://dx.doi.org/10.5670/oceanog.2009.45
Charles C. Eriksen | School of Oceanography, University of Washington, Seattle, WA, USA
Mary Jane Perry | School of Marine Sciences, Darling Marine Center, University of Maine, Walpole, ME, USA
The National Oceanographic Partnership Program provided critical support to the development of Seaglider long-range autonomous underwater vehicles. This support enabled: (1) development and integration of chemical and biological sensors, (2) transition to low-power, bi-directional satellite communication, and (3) software upgrades to enhance capability and reliability. Sponsored improvements led to setting the mission endurance and range records for autonomous underwater vehicles, wide use by the oceanographic community, and licensing for commercialization.
Eriksen, C.C., and M.J. Perry. 2009. The nurturing of seagliders by the National Oceanographic Partnership Program. Oceanography 22(2):146–157, http://dx.doi.org/10.5670/oceanog.2009.45.
Davis, R.E., C.C. Eriksen, and C.P. Jones. 2002. Autonomous buoyancy-driven-underwater gliders. Chapter 3 in The Technology and Applications of Autonomous Underwater Vehicles. G. Griffiths, ed., Taylor and Francis, London.
Dickey, T.D., E.C. Itsweire, M. Moline, and M.J. Perry. 2008. Introduction to the Limnology and Oceanography Special Issue on Autonomous and Lagrangian Platforms and Sensors (ALPS). Limnology and Oceanography 53:2,057–2,061.
Eriksen, C.C., and P.B. Rhines. 2008. Convective to gyre-scale dynamics: Seaglider campaigns in the Labrador Sea 2003–2005. Chapter 25 in Arctic-Subarctic Ocean Fluxes: Defining the Role of the Northern Seas in Climate. R. Dickson, J. Meincke, and P. Rhines, eds, Springer-Verlag.
Hátún, H., C.C. Eriksen, and P.B. Rhines. 2007. Buoyant eddies entering the Labrador Sea observed with gliders and altimetry. Journal of Physical Oceanography 37:2,838–2,854.
Nicholson, D., S. Emerson, and C.C. Eriksen. 2008. Net community production in the deep euphotic zone of the subtropical North Pacific gyre from glider surveys. Limnology and Oceanography 53:2,226–2,236.
Perry, M.J., B.S. Sackmann, C.C. Eriksen, and C.M. Lee. 2008. Seaglider observations of blooms and subsurface chlorophyll maxima off the Washington coast. Limnology and Oceanography 53:2,169–2,179.
Rudnick, D.L., and M.J. Perry, eds. 2003. ALPS: Autonomous and Lagrangian Platforms and Sensors. Workshop Report, 64 pp. Available online at: http://www.geo-prose.com/ALPS/ (accessed April 6, 2006).
Rudnick, D.L., R.E. Davis, C.C. Eriksen, D.M. Fratantoni, and M.J. Perry. 2004. Underwater gliders for ocean research. Journal of the Marine Technology Society 38:73–84.
Sackmann, B.S., M.J. Perry, and C.C. Eriksen. 2008. Seaglider observations of variability in daytime fluorescence quenching of chlorophyll-a in Northeastern Pacific coastal waters. Biogeosciences Discussion 5:2,839–2,865. Available online at: http://www.biogeosciences-discuss.net/5/issue4.html (accessed April 6, 2009).
Tait, J.B. 1967. The Iceland-Faroe Ridge International (ICES) "Overflow" Expedition, May–June, 1960. Rapport et Procès-Verbaux des Réunions, vol. 157, Conseil Permanent International pour l'Exploration de la Mer, Andr. Fred. Høst et Fils, Copenhagen.
The Economist. 2008. Sea gliders: Run silent, run green. Science and Technology, February 28, 2008.