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References

  • Anderson, D. L. T., J. Sheinbaum, K. Haines, Data assimilation in ocean models, Rep. Prog. Phys., 59, 12091266, 1996.
  • Bennett, A. F., Inverse Methods in Physical Oceanography, 346, Cambridge Univ. Press, New York, 1992.
  • Bretherton, F. P., R. E. Davis, C. B. Fandry, A technique for objective analysis and design of oceanographic experiments applied to MODE-73, Deep Sea Res., 23, 559582, 1976.
  • Cane, M. A., A. Kaplan, R. N. Miller, B. Tang, E. C. Hackert, A. J. Busalacchi, Mapping tropical Pacific sea level: Data assimilation via a reduced state space Kalman filter, J. Geophys. Res., 101, 2259922617, 1996.
  • Cohn, S. E., An introduction to estimation theory, J. Meteorol. Soc. Jpn., 75, 257288, 1997.
  • da Silva, A. M., C. C. Young, S. Levitus, Atlas of Surface Marine Data 1994, 3, Anomalies of Heat and Momentum Fluxes, NOAA Atlas NESDIS, 8, Natl. Oceanic and Atmos. Admin., Silver Spring, Md., 1994.
  • Eanes, R., S. Bettadpur, The CSR3.0 global ocean tide model: Diurnal and semidiurnal ocean tides from TOPEX/POSEIDON altimetryCSR-TM-96-05Cent. for Space Res., Univ. of Tex., Austin, 1996.
  • Evensen, G., Sequential data assimilation with a nonlinear quasi-geostrophic model using Monte Carlo methods to forecast error statistics, J. Geophys. Res., 99, 1014310162, 1994.
  • Ezer, T., G. L. Mellor, Continuous assimilation of Geosat altimeter data into a three-dimensional primitive equation Gulf Stream model, J. Phys. Oceanogr., 24, 832847, 1994.
  • Fu, L.-L., I. Fukumori, R. N. Miller, Fitting dynamic models to the Geosat sea level observations in the Tropical Pacific Ocean, II, A linear, wind-driven model, J. Phys. Oceanogr., 23, 21622181, 1993.
  • Fukumori, I., Assimilation of TOPEX sea level measurements with a reduced-gravity shallow water model of the tropical Pacific Ocean, J. Geophys. Res., 100, 2502725039, 1995.
  • Fukumori, I., P. Malanotte-Rizzoli, An approximate Kalman filter for ocean data assimilation: An example with an idealized Gulf Stream model, J. Geophys. Res., 100, 67776793, 1995.
  • Fukumori, I., J. Benveniste, C. Wunsch, D. B. Haidvogel, Assimilation of sea surface topography into an ocean circulation model using a steady-state smoother, J. Phys. Oceanogr., 23, 18311855, 1993.
  • Fukumori, I., R. Raghunath, L. Fu, The nature of global large-scale sea level variability in relation to atmospheric forcing: A modeling study, J. Geophys. Res., 103, 54935512, 1998.
  • Gelb, A., Applied Optimal Estimation, 374, MIT Press, Cambridge, Mass., 1974.
  • Ghil, M., P. Malanotte-Rizzoli, Data assimilation in meteorology and oceanography, Adv. Geophys., 33, 141266, 1991.
  • Giering, R., T. Kaminski, Recipes for adjoint code construction, Assoc. Comput. Mach. Trans. Math. Software, 24, 437474, 1998.
  • Gill, A. E., Atmosphere-Ocean Dynamics, 662, Academic, San Diego, Calif., 1982.
  • Gill, A. E., P. P. Niiler, The theory of the seasonal variability in the ocean, Deep Sea Res., 20, 141177, 1973.
  • Haines, K., A direct method for assimilating sea surface height data into ocean models with adjustments to the deep circulation, J. Phys. Oceanogr., 21, 843868, 1991.
  • Halpern, D., R. A. Knox, D. S. Luther, Observations of 20-day period meridional current oscillations in the upper ocean along the Pacific Equator, J. Phys. Oceanogr., 18, 15141534, 1988.
  • Hellerman, S., M. Rosenstein, Normal monthly wind stress over the world ocean with error estimates, J. Phys. Oceanogr., 13, 10931104, 1983.
  • Levitus, S., Climatological atlas of the world ocean, NOAA Prof. Pap., 13, 173, U.S. Govt. Print. Office, Washington, D. C., 1982.
  • Menemenlis, D., M. Chechelnitsky, Error estimates for an ocean general circulation model from altimeter and acoustic tomography data, Mon. Weather Rev., 1999.
  • Miller, R. N., M. A. Cane, A Kalman filter analysis of sea level height in the tropical Pacific, J. Phys. Oceanogr., 19, 773790, 1989.
  • Mitchum, G. T., Comparison of TOPEX sea surface heights and tide gauge sea levels, J. Geophys. Res., 99, 2454124553, 1994.
  • Pacanowski, R., S. G. H. Philander, Parameterization of vertical mixing in numerical models of tropical oceans, J. Phys. Oceanogr., 11, 14431451, 1981.
  • Pacanowski, R., K. Dixon, A. Rosati, Modular Ocean Model Users' GuideOcean Group Tech. Rep. 2Geophys. Fluid Dyn. Lab., Princeton, N. J., 1991.
  • Ponte, R. M., Variability in a homogeneous global ocean forced by barometric pressure, Dyn. Atmos. Oceans, 18, 209234, 1993.
  • Sasaki, Y., Some basic formalisms in numerical variational analysis, Mon. Weather Rev., 98, 875883, 1970.
  • Slutz, R. J., S. J. Lubker, J. D. Hiscox, S. D. Woodruff, R. L. Jenne, D. H. Joseph, P. M. Steurer, J. D. Elms, COADS, Comprehensive Ocean-Atmosphere Data Set, Release, 1, 262, Clim. Res. Program, Environ. Res. Lab., Boulder, Colo., 1985.
  • Stammer, D., C. Wunsch, R. Giering, Q. Zhang, J. Marotzke, J. Marshall, C. Hill, The global ocean circulation estimated from TOPEX/POSEIDON altimetry and the MIT general circulation modelRep. 49, 40Cent. for Global Change Sci., Mass. Inst. of Technol., Cambridge, 1997.
  • Stengel, R. F., Stochastic Optimal Control, 638, Wiley-Interscience, New York, 1986.
  • White, W. B., Design of a global observing system for gyre-scale upper ocean temperature variability, Prog. Oceanogr., 36, 169217, 1995.
  • Woodruff, S. D., R. J. Slutz, R. L. Jenne, P. M. Steurer, A comprehensive ocean-atmosphere data set, Bull. Am. Meteorol. Soc., 68, 12391250, 1987.
  • Wu, J., Wind stress coefficients over sea surface from breeze to hurricane, J. Geophys. Res., 87, 97049706, 1982.
  • Wunsch, C., The Ocean Circulation Inverse Problem, 442, Cambridge Univ. Press, New York, 1996.