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  2. Estrada-Allis, S. N., Azevedo Correia de Souza, J. M., Sheinbaum Pardo, J., Henriquez Ortiz, C., Mariño-Tapia, I., and Herrera-Silveira, J. A.: Budget of the total nitrogen in the Yucatan Shelf: driving mechanisms through a physical-biogeochemical coupled model, Biogeosciences Discuss., https://doi.org/10.5194/bg-2019-106, in review, 2019.

  3. O’Callaghan J, Stevens C, Roughan M, Cornelisen C, Sutton P, Garrett S, Giorli G, Smith RO, Currie KI, Suanda SH, Williams M, Bowen M, Fernandez D, Vennell R, Knight BR, Barter P, McComb P, Oliver M, Livingston M, Tellier P, Meissner A, Brewer M, Gall M, Nodder SD, Decima M, Souza J, Forcén-Vazquez A, Gardiner S, Paul-Burke K, Chiswell S, Roberts J, Hayden B, Biggs B and Macdonald H (2019) Developing an Integrated Ocean Observing System for New Zealand. Front. Mar. Sci. 6:143. doi: 10.3389/fmars.2019.00143


  1. Rapizo, H., Durrant, T. H. & Babanin, A. V. An assessment of the impact of surface currents on wave modeling in the Southern Ocean. Ocean Dyn. (2018). doi:10.1007/s10236-018-1171-7

  2. Archer, M. R., Keating, S. R., Roughan, M., Johns, W. E., Lumpkin, R., Beron-vera, F. J., Shay, L. K. The Kinematic Similarity of Two Western Boundary Currents Revealed by Sustained High-Resolution Observations. Geophys. Res. Lett. 122, 8464 (2018).

  3. Lee, K. A., Roughan, M., Harcourt, R. G. & Peddemors, V. M. Environmental correlates of relative abundance of potentially dangerous sharks in nearshore areas, southeastern Australia. Mar. Ecol. Prog. Ser. 599, 157–179 (2018).

  4. Wyatt, L. R., Mantovanelli, A., Heron, M. L., Roughan, M. & Steinberg, C. R. Assessment of Surface Currents Measured With High-Frequency Phased-Array Radars in Two Regions of Complex Circulation. IEEE J. Oceanic Eng. 43, 484–505 (2018).


  1. Archer, M. R., Roughan, M., Keating, S. R. & Schaeffer, A. On the Variability of the East Australian Current: Jet Structure, Meandering, and Influence on Shelf Circulation. J. Geophys. Res. C: Oceans 122, 8464–8481 (2017).

  2. Schaeffer, A. & Roughan, M. Subsurface intensification of marine heatwaves off southeastern Australia: The role of stratification and local winds. Geophys. Res. Lett. 44, 5025–5033 (2017).

  3. Coleman, M. A. et al. Anticipating changes to future connectivity within a network of marine protected areas. Glob. Chang. Biol. 23, 3533–3542 (2017).

  4. Roughan, M. et al. A tale of two eddies: The biophysical characteristics of two contrasting cyclonic eddies in the East Australian Current System. J. Geophys. Res. C: Oceans 122, 2494–2518 (2017).

  5. Mantovanelli, A., Keating, S., Wyatt, L. R., Roughan, M. & Schaeffer, A. Lagrangian and Eulerian characterization of two counter-rotating submesoscale eddies in a western boundary current. J. Geophys. Res. C: Oceans 122, 4902–4921 (2017).

  6. Schaeffer, A., Gramoulle, A., Roughan, M. & Mantovanelli, A. Characterizing frontal eddies along the East Australian Current from HF radar observations. J. Geophys. Res. C: Oceans 122, 3964–3980 (2017).

  7. P. Camus, I. J. Losada, C. Izaguirre, A. Espejo, M.Menéndez, and J. Pérez. Statistical wave climate projections for coastal impact assessments: Statistical wave climate projections. Earth’s Future (2017). doi:10.1002/eft2.234

  8. Perez, J., Menendez, M. & Losada, I. J. GOW2_ A global wave hindcast for coastal applications. Coast. Eng. 124, 1–11 (2017).

  9. Rapizo, H., Babanin, A. V., Provis, D. & Rogers, W. E. Current-induced dissipation in spectral wave models: CURRENT-INDUCED DISSIPATION OF WAVES. J. Geophys. Res. C: Oceans 122, 2205–2225 (2017).

  10. de Souza, A. C., Marcos, J. & Powell, B. Different approaches to model the nearshore circulation in the south shore of O’ahu, Hawaii. Ocean Sci. 13, 31–46 (2017).

  11. Hemer, M. A. et al. A revised assessment of Australia’s national wave energy resource. Renewable Energy 114, 85–107 (2017).


  1. Hegermiller, C. A. et al. A Multimodal Wave Spectrum–Based Approach for Statistical Downscaling of Local Wave Climate. J. Phys. Oceanogr. 47, 375–386 (2016).

  2. Rapizo, H., Waseda, T., Babanin, A. V. & Toffoli, A. Laboratory Experiments on the Effects of a Variable Current Field on the Spectral Geometry of Water Waves. J. Phys. Oceanogr. 46, 2695–2717 (2016).

  3. Parton, A. L., Duncan, W. J., Oliveira, M. E., Key, O. & Farella, M. Implant-based three-dimensional superimposition of the growing mandible in a rabbit model. Eur. J. Orthod. 38, 546–552 (2016).


  1. Perez, J., Menendez, M., Camus, P., Mendez, F. J. & Losada, I. J. Statistical multi-model climate projections of surface ocean waves in Europe. Ocean Model. 96, 161–170 (2015).

  2. Mentaschi, L., Perez, J., Besio, G., Mendez, F. J. & Menendez, M. Parameterization of unresolved obstacles in wave modelling: A source term approach. Ocean Model. (2015). doi:10.1016/j.ocemod.2015.05.004

  3. Soutelino, R. & Beamsley, B. The Influence of the Southland Current on Circulation Patterns Within Pegasus Bay. in (2015).

  4. Rapizo, H., Babanin, A. V., Schulz, E., Hemer, M. A. & Durrant, T. H. Observation of wind-waves from a moored buoy in the Southern Ocean. Ocean Dyn. 65, 1275–1288 (2015).

  5. Simarro, G. et al. On the use of variance images for runup and shoreline detection. Coast. Eng. 99, 136–147 (2015).

  6. Mokrech, M., Gardiner, S., Nicholls, R. J., Watkinson, A. R. & Sutherland, W. J. Coastal Wetland Habitats: Future Challenges and Potential Solutions. in Broad Scale Coastal Simulation: New Techniques to Understand and Manage Shorelines in the Third Millennium (eds. Nicholls, R. J., Dawson, R. J. & Day (née Nicholson-Cole), S. A.) 167–185 (Springer Netherlands, 2015).

  7. Thiebaut, S., McComb, P. & Others. Bivariate distribution of extreme wave height and period in shallow water. in Australasian Coasts & Ports Conference 2015: 22nd Australasian Coastal and Ocean Engineering Conference and the 15th Australasian Port and Harbour Conference 901 (Engineers Australia and IPENZ, 2015).

  8. Weppe, S., Mccomb, P. & Coe, L. Numerical Model Studies to Support the Sustainable Management of Dredge Spoil Deposition in a Complex Nearshore Environment. in Coastal Sediments 2015 (WORLD SCIENTIFIC, 2015).


  1. Souza, J., Chapron, B. & Autret, E. The surface thermal signature and air-sea coupling over the Agulhas rings propagating in the South Atlantic Ocean interior. Ocean Sci. 10, 633–644 (2014).

  2. Azevedo Correia de Souza, J. M., Powell, B., Castillo-Trujillo, A. C. & Flament, P. The Vorticity Balance of the Ocean Surface in Hawaii from a Regional Reanalysis. J. Phys. Oceanogr. 45, 424–440 (2014).


  1. Horigome, M. T. et al. Environmental controls on the Emiliania huxleyi calcite mass. Biogeosciences 11, 2295–2308 (2014).

  2. Thiebaut S., McComb P. & Vennell R. Prediction of Coastal Far Infragravity Waves from Sea-Swell Spectra. J. Waterway Port Coast. Ocean Eng. 139, 34–44 (2013).

  3. Gabioux, M. G., da Costa, V. S., de Souza, J. M. A. C., de Oliveira, B. F. & de Moraes Paiva, A. MODELING THE SOUTH ATLANTIC OCEAN FROM MEDIUM TO HIGH-RESOLUTION. Revista Brasileira de Geofísica 31, 229–242 (2013).

  4. De Souza, J. M. A. C., De Moraes Paiva, A. & Von Schuckmann, K. New estimates for the heat flux across the Polar Front: spatial and temporal variability in recent years. Antarct. Sci. 25, 433–444 (2013).

  5. Johnson, D. & Thiebaut, S. Ensemble Forecasting of Wave Conditions for Ports and Coastal Regions.

  6. Thiebaut, S., Johnson, D. & Mc Comb, P. A note on the statistical distribution of wave-induced orbital velocities


  1. de Farias, E. G. G. & de Souza, J. Dispersive arrival of swell waves at the western coast of Ceará state, Brazil. Arq. Cienc. Mar (2012).


  1. Souza, J. & de Boyer Montégut, C. Estimation of the Agulhas ring impacts on meridional heat fluxes and transport using ARGO floats and satellite data. Geophysical (2011).

  2. Souza, J. M. A. C., de Boyer Montégut, C. & Le Traon, P. Y. Comparison between three implementations of automatic identification algorithms for the quantification and characterization of mesoscale eddies in the South Atlantic Ocean. Ocean Sci. 7, 317–334 (2011).

  3. Thiebaut, S. & Vennell, R. Resonance of long waves generated by storms obliquely crossing shelf topography in a rotating ocean. J. Fluid Mech. 682, 261–288 (2011).

  4. Weppe, S. et al. Numerical study of wave and sediment dynamics at dredge disposal sites near the Otago Harbour Entrance, New Zealand. in Coasts and Ports 2011: Diverse and Developing: Proceedings of the 20th Australasian Coastal and Ocean Engineering Conference and the 13th Australasian Port and Harbour Conference 785 (Engineers Australia, 2011).

2010 and earlier

  1. Thiebaut, S. & Vennell, R. Observation of a Fast Continental Shelf Wave Generated by a Storm Impacting Newfoundland Using Wavelet and Cross-Wavelet Analyses. J. Phys. Oceanogr. 40, 417–428 (2010).

  2. Thiebaut, S., Vennell, R., Bell, R. & Others. Observation of storm-generated long waves on New Zealand’s eastern seaboard. Coasts and Ports 2009: In a Dynamic Environment 409 (2009).

  3. Weppe, S., Healy, T., Scarfe, B., Immenga, D. & Others. Shoreline response to an offshore submerged multifunction reef at Mount Maunganui, New Zealand. Coasts and Ports 2009: In a Dynamic Environment 648 (2009).

  4. Schimel, A. C. et al. Potential influence of shells on multibeam backscatter imagery within the Te Matuku Marine Reserve, New Zealand. J. Acoust. Soc. Am. 123, 3212–3212 (2008).

  5. Beamsley, B. J., Black, K. & Healy, T. Micro-scale Pumped Measurements of Suspended Sediment Over a Mixed Sand/Mud Bed: Profiles, Grain Sizes and Sediment Diffusivity. J. Coast. Res. 342–356 (2001).

  6. Healy, T. R., Stephens, S. A., Black, K. P., Gorman, R. M. & Beamsley, B. J. Numerical and Physical Process Studies for Port of Gisborne Redesign for the 21st Century. J. Coast. Res. 304–311 (1998).