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J. Verron, P. Bonnefond, O. Andersen, F. Ardhuin, M. Bergé-Nguyen, S. Bhowmick, D. Blumstein, F. Boy, L. Brodeau, J.-F. Crétaux, M. L. Dabat, G. Dibarboure, S. Fleury, F. Garnier, L. Gourdeau, N. Queruel, D. Sandwell, W. H. Smith, and E. D. Zaron. The SARAL/AltiKa mission: A step forward to the future of altimetry. Advances in Space Research, 2019. [ DOI ]

N. Tran, D. Vandemark, E. D. Zaron, P. Thibaut, G. Dibarboure, and N. Picot. Assessing the effects of sea-state related errors on the precision of high-rate Jason-3 altimeter sea level data. Advances in Space Research, 2019. [ DOI ]

A. Nelson, B. Arbic, E. D. Zaron, A. Savage, J. Richman, M. Buijsman, and J. Shriver. Towards realistic baroclinic semidiurnal tide nonstationarity in hydrodynamic models. Journal of Geophysical Research, 124:6632--6642, 2019. [ DOI ]

E. D. Zaron. Predictability of non-phase-locked baroclinic tides in the Caribbean Sea. Ocean Science, 15:1287--1305, 2019. [ DOI ]

X. Yu, A. Ponte, S. Elipot, D. Menemenlis, E. D. Zaron, and R. Abernathey. Surface kinetic energy distributions in the global oceans from a high-resolution numerical model and drifter observations. Geophysical Research Letters, 46:9757--9766, 2019. [ DOI ]

R. Morrow, L.-L. Fu, F. Ardhuin, M. Benkiran, B. Chapron, E. Cosme, F. d'Ovidio, J. T. Farrar, S. T. Gille, B. Lepeyre, P.-Y. LeTraon, A. Pascual, A. Ponte, B. Qiu, N. Rascle, C. Ubelmann, J. Wang, and E. D. Zaron. Global observations of fine-scale ocean surface topography with the Surface Water & Ocean Topography (SWOT) mission. Frontiers in Marine Science, 6:232, 2019. [ DOI ]

E. D. Zaron. Simultaneous estimation of ocean tides and underwater topography in the Weddell Sea. Journal of Geophysical Research, 124(5):3125--3148, 2019. [ DOI ]

E. D. Zaron. Baroclinic tidal sea level from exact-repeat mission altimetry. Journal of Physical Oceanography, 49(1):193--210, 2019. [ DOI ]

E. D. Zaron and R. D. Ray. Aliased tidal variability in mesoscale sea level anomaly maps. Journal of Atmospheric and Oceanic Technology, 35(12):2421--2435, 2018. [ DOI ]

E. D. Zaron and C. B. Rocha. Meeting summary: Internal gravity waves and meso/submesoscale currents in the ocean: Anticipating high-resolution observations from the SWOT swath altimeter mission. Bulletin of the American Meteorological Society, 99:ES155--ES157, 2018. [ DOI ]

E. D. Zaron. Internal tides. In K. Cochran, H. Bokuniewicz, P. Yager (co-Editors in Chief), and Y. Uchiyama (Wave Section Editor), editors, Encyclopedia of Ocean Sciences, volume 3, pages 633--641. Elsevier, London, 3rd edition edition, 2018.

E. D. Zaron. Ocean and ice shelf tides from CryoSat-2 altimetry. Journal of Physical Oceanography, 48:975--993, 2018. [ DOI ]

A. T. Devlin, E. D. Zaron, D. A. Jay, S. A. Talke, and J. Pan. Seasonality of tides in Southeast Asian waters. Journal of Physical Oceanography, 48:1169--1190, 2018. [ DOI ]

A. T. Devlin, D. A. Jay, S. A. Talke, E. D. Zaron, J. Pan, and H. Lin. Coupling of sea level and tidal range changes, with implications for future water levels. Scientific Reports, 7:17021, 2017. [ DOI ]

A. T. Devlin, D. A. Jay, E. D. Zaron, S. A. Talke, J. Pan, and H. Lin. Tidal variability related to sea level variability in the Pacific Ocean. Journal of Geophysical Research, 122(11):8445--8463, 2017. [ DOI ]

E. D. Zaron. Topographic and frictional controls on tides in the Sea of Okhotsk. Ocean Modelling, 117C:1--11, 2017. [ DOI ]

E. D. Zaron and R. D. Ray. Using an altimeter-derived internal tide model to remove tides from in-situ data. Geophysical Research Letters, 44:1--5, 2017. [ DOI ]

E. D. Zaron. Mapping the non-stationary internal tide with satellite altimetry. Journal of Geophysical Research, 122(1):539--554, 2017. [ DOI ]

E. D. Zaron. Recent developments in bottom topography mapping using inverse methods. In S. Park and L. Xu, editors, Data Assimilation for Atmospheric, Oceanic and Hydrologic Applications, volume III, pages 241--258. Springer, New York, 2017. 553pp. [ DOI ]

E. D. Zaron. Laser Doppler velocimetry of a flowing soap-water film using a modified computer mouse. American Journal of Physics, 84(10):810--813, 2016. [ DOI ]

E. D. Zaron. On the observability of bottom topography from measurements of sea surface height. Ocean Modelling, 102:55--63, 2016. [ DOI ]

E. D. Zaron and R. de Carvalho. Identification and reduction of retracker-related noise in altimeter-derived sea-surface height measurements. Journal of Atmospheric and Oceanic Technology, 33(1):201--210, 2016. [ DOI ]

R. D. Ray and E. D. Zaron. M2 internal tides and their observed wavenumber spectra from satellite altimetry. Journal of Physical Oceanography, 46(1):3--22, 2016. [ DOI ]

E. D. Zaron. Non-stationary internal tides observed using dual-satellite altimetry. Journal of Physical Oceanography, 45(9):2239--2246, 2015. [ DOI ]

F. Hernandez and 23 co-authors including E. D. Zaron. Recent progress in performance evaluations and near real-time assessment of operational ocean products. Journal of Operational Oceanography, 8(suppl. 2):221--238, 2015. [ DOI ]

E. D. Zaron, P. J. Fitzpatrick, S. L. Cross, J. Harding, F. L. Bub, J. D. Wiggert, D. S. Ko, Y. Lau, K. Woodard, and C. N. K. Mooers. Initial evaluations of a Gulf of Mexico/Caribbean ocean forecast system in the context of the Deepwater Horizon disaster. Frontiers of Earth Science, 9(4):605--636, 2015. [ DOI ]

A. T. Devlin, D. A. Jay, S. A. Talke, and E. D. Zaron. Can tidal perturbations associated with sea level variations in the western Pacific Ocean be used to understand future effects of tidal evolution? Ocean Dynamics, 64:1093--1120, 2014. [ DOI ]

E. D. Zaron and D. A. Jay. An analysis of secular change in tides at open-ocean sites in the Pacific. Journal of Physical Oceanography, 44(7):1704--1726, 2014. [ DOI ]

E. D. Zaron and G. D. Egbert. Time-variable refraction of the internal tide at the Hawaiian Ridge. Journal of Physical Oceanography, 44(2):538--557, 2014. [ DOI ]

P. Matte, D. A. Jay, and E. D. Zaron. Adaptation of classical tidal harmonic analysis to non-stationary tides, with application to river tides. Journal of Atmospheric and Oceanic Technology, 30:569--589, 2013. [ DOI ]

B. S. Chua, E. D. Zaron, L. Xu, N. L. Baker, and T. Rosmond. Recent applications of representer-based variational data assimilation. In S. Park and L. Xu, editors, Data Assimilation for Atmospheric, Oceanic and Hydrologic Applications, volume II, pages 286--301. Springer-Verlag, New York, 2013. [ DOI ]

G. S. Carter, O. B. Fringer, and E. D. Zaron. Regional models of internal tides. Oceanography, 25(2):56--65, 2012. [ DOI ]

R. D. Ray and E. D. Zaron. Non-stationary internal tides observed with satellite altimetry. Geophysical Research Letters, 38:L17609, 2011. [ DOI ]

E. D. Zaron, M.-A. Pradal, P. D. Miller, A. F. Blumberg, N. Georgas, W. Li, and J. Muccino Cornuelle. Bottom topography mapping via nonlinear data assimilation. Journal of Atmospheric and Oceanic Technology, 28:1606--1623, 2011. [ DOI ]

E. D. Zaron. Introduction to Ocean Data Assimilation. In A. Schiller and G. Brassington, editors, Operational Oceanography in the 21st Century, pages 321--350. Springer-Verlag, Dordrecht/NL, 2011.

C. Chavanne, P. Flament, Glenn Carter, Mark Merrifield, Doug Luther, E. D. Zaron, and Klaus-Werner Gurgel. The surface expression of semi-diurnal internal tides in the Kauai Channel, Hawai'i. Part I: observations and numerical predictions. Journal of Physical Oceanography, 40:1155--1179, 2010. [ DOI ]

B. M. Hickey, R. M. Kudela, J. D. Nash, K. W. Bruland, W. T. Peterson, P. MacCready, E. J. Lessard, D. A. Jay, N. S. Banas, A. M. Baptista, E. P. Dever, P. M. Kosro, L. K. Kilcher, A. R. Horner-Devine, E. D. Zaron, R. M. McCabe, J. O. Peterson, P. M. Orton, J. Pan, and M. C. Lohan. River influences on shelf ecosystems: introduction and synthesis. Journal of Geophysical Research, 115:C00B17, 2010.

D. A. Jay, E. D. Zaron, and J. Pan. Initial expansion of the Columbia River tidal plume. Journal of Geophysical Research, 115:C00B15, 2009. [ DOI ]

B. S. Chua, L. Xu, T. Rosmond, and E. D. Zaron. Preconditioning representer-based variational data assimilation systems: Application to NAVDAS-AR. In S. Park and L. Xu, editors, Data Assimilation for Atmospheric, Oceanic and Hydrologic Applications, pages 307--320. Springer-Verlag, New York, 2009. 475 pages.

E. D. Zaron, C. Chavanne, G. D. Egbert, and P. Flament. Baroclinic tidal generation in the Kauai Channel inferred from HF-Radar. Dynamics of Atmospheres and Oceans, 48:93--120, 2009. [ DOI ]

E. D. Zaron and J. N. Moum. A new look at Richardson number mixing schemes for Equatorial ocean modeling. Journal of Physical Oceanography, 39(10):2652--2664, 2009. [ DOI ]

J. C. Muccino, H. Arango, A. B. Bennett, B. S. Chua, B. Cornuelle, E. DiLorenzo, G. D. Egbert, L. Hao, J. Levin, A. M. Moore, and E. D. Zaron. The inverse ocean modeling system. II: Applications. Journal of Atmospheric and Oceanic Technology, 25(9):1623--1637, 2008.

E. D. Zaron and G. D. Egbert. The impact of the M2 internal tide on data-assimilative model estimates of the surface tide. Ocean Modelling, 18:210--216, 2007.

E. D. Zaron and G. D. Egbert. Estimating open-ocean barotropic tidal dissipation: The Hawaiian Ridge. Journal of Physical Oceanography, 36:1019--1035, 2006.

E. D. Zaron and G. D. Egbert. Verification studies for a z-coordinate primitive-equation model: tidal conversion at a mid-ocean ridge. Ocean Modelling, 14:257--278, 2006.

E. D. Zaron. A comparison of data assimilation methods using a planetary geostrophic model. Monthly Weather Review, 134:1316--1328, 2006.

R. N. Miller, E. D. Zaron, and A. F. Bennett. Data assimilation in models with convective adjustment. Monthly Weather Review, 122:2607--2613, 1994.

W. Fang, M. Shillor, E. Stahel, E. Epstein, C. Li, J. McNiel, and E. D. Zaron. A mathematical model for outgassing and contamination. SIAM Journal on Applied Mathematics, 51:1327--1355, 1991.

R. L. Munroe, R. H. Munroe, J. Turner, E. D. Zaron, H. A. Potter, and E. J. Woulbroun. Sex differences in East African dreams of aggression. Journal of Social Psychology, 129:727--728, 1989.

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