Meroni A.N.*<\/sup>, McConnochie C.*<\/sup>, Cenedese C.<\/strong>, Sutherland B. and Snow K. Nonlinear influence of Earth’s rotation on iceberg melting. J. Fluid Mech. <\/em>Submitted.<\/p>\n McConnochie C.*<\/sup>, Cenedese C.<\/strong> and McElwaine J. Surface expression of a wall fountain: application to subglacial discharge plumes. J. Fluid Mech. <\/em>Submitted.<\/p>\n Ezhova E., Cenedese C.<\/strong> and Brandt L. Drag and entrainment in turbulent wall plumes and their influence for submarine melting of Greenland tidewater glaciers. J. Phys. Oceanography. <\/em>Submitted.<\/p>\n FitzMaurice, A.*<\/sup>, Cenedese C.<\/strong> and Straneo F. A Laboratory Study of Iceberg Side Melting in Vertically Sheared Flows. J. Phys. Oceanogr.<\/em> Accepted.<\/p>\n Spall M., Pedlosky J. and Cenedese C.<\/strong>, 2017. Circulation induced by isolated dense water formation over closed topographic contours. J. Phys. Oceanogr<\/em>., 47, 2251-2265.<\/p>\nZhou J., Cenedese C.<\/strong>, Williams T.*<\/sup>, Ball M.*<\/sup>, Venayagamoorthy S. K. and Nokes R., 2017. Front velocity of gravity currents propagating over and through a submerged array of cylinders. J. Fluid Mech.,<\/em> 831, 394-417. Ezhova E., Cenedese C.<\/strong> and Brandt L., 2017. Dynamics of a turbulent buoyant plume in a stratified fluid: modelling subglacial discharge in Greenland’s fjords. J. Phys. Oceanogr<\/em>., 47, 2611-2630.<\/p>\n FitzMaurice, A.*<\/sup>, Cenedese C.<\/strong> and Straneo F., 2017. Nonlinear response of iceberg side melting to ocean currents. Geophys. Res. Lett.<\/em>, 44, 5637-5644.<\/p>\n van der Wiel K.*<\/sup>, Gille S.T., Llewellyn Smith S.G., Linden P.F. and Cenedese C., 2017. Characteristics of colliding sea breeze gravity current fronts: a laboratory study. Quarterly Journal of the Royal Meteorological Society<\/em>, 143(704), 1434-1441.<\/p>\n Ottolenghi L. *<\/sup>, Cenedese C.<\/strong> and Adduce C., 2017. Entrainment in a dense current flowing down a rough sloping bottom in a rotating fluid. J. Phys. Oceanogr.<\/em>, 47, 485-498.<\/p>\n FitzMaurice A.*<\/sup>, Straneo F., Cenedese C.<\/strong> and Andres M., 2016. Effect of a Sheared Flow on Iceberg Motion and Melting. Geophys. Res. Lett.<\/em>, 43, 12520-12527.<\/p>\n Cenedese C.<\/strong>, Nokes R. and Hyatt J., 2016. Lock-exchange gravity currents over rough bottoms. Environmental Fluid Mechanics<\/em>, 10.1007\/s10652-016-9501-0.<\/p>\n Ezhova E., Cenedese C.<\/strong> and Brandt L., 2016. Interaction between a vertical turbulent jet and a thermocline. J. Phys. Oceanogr.<\/em>, 46, 3415-3437.<\/p>\n Mankoff K.D. *<\/sup>, Straneo F., Cenedese C.<\/strong>, Das S.B., Richards C.G. and Singh H., 2016. Structure and Dynamics of a Subglacial Plume in a Greenland Fjord. J. Geophys. Res.<\/em>, 121, doi:10.1002\/2016JC011764.<\/p>\n Cenedese C.<\/strong> and Gatto V.M.*<\/sup>, 2016. Impact of a Localized Source of Subglacial Discharge on the Heat Flux and Submarine Melting of a Tidewater Glacier: A Laboratory Study. J. Phys. Oceanogr.<\/em>, 46, 3155-3163.<\/p>\n Cenedese C.<\/strong> and Gatto V.M.*<\/sup>, 2016. Impact of Two Plumes’ Interaction on Submarine Melting of Tidewater Glaciers: A Laboratory Study. J. Phys. Oceanogr.<\/em>, 46, 361-36<\/p>\n Jones C.S. *, Cenedese C.<\/strong>, Chassignet E.P., Linden P.F. and Sutherland B.R., 2015. Gravity Current Propagation Up a Valley. J. Fluid Mech.<\/em>, 762, 417-434.<\/p>\n Straneo, F. and Cenedese C.<\/strong>, 2015. Dynamics of Greenland’s glacial fjords and their role in climate. Annual Review of Marine Science<\/em>, 7 (1), doi:10.1146\/annurev-marine-010213-135133.<\/p>\n Sciascia, R.*, Cenedese C.<\/strong>, Nicol\u00ec D.*, Heimbach P. and Straneo F. 2014 Impact of periodic intermediary flows on submarine melting of a Greenland glacier. J. Geophys. Res.<\/em>, 119, doi:10.1002\/2014JC009953.<\/p>\n Cenedese C. \u00a0<\/strong>and \u00a0Linden P.F. \u00a02014. \u00a0Entrainment in \u00a0two \u00a0coalescing axisymmetric turbulent plumes. J. Fluid Mech., <\/em>752, doi:10.1017\/jfm.2014.389.<\/p>\n Zhang W.G. and Cenedese C.<\/strong>, 2014. The Dispersal of Dense Water Formed in an Idealized Coastal Polynya on a Shallow Sloping Shelf. J. Phys. Oceanogr.<\/em>, 44, 1563-1581.<\/p>\n Sciascia R.*, Straneo F., Cenedese C. <\/strong>and Heimbach P., 2013 Seasonal variability of submarine melt rate and circulation in an East Greenland fjord. J. Geophys. Res.<\/em>, 118, 2492-2506.<\/p>\n Andres M. and Cenedese C.<\/strong>, 2013 Laboratory experiments and observations of cyclonic and anticyclonic eddies impinging on an island. J. Geophys. Res.<\/em>, 118, 762-773.<\/p>\n Cenedese \u00a0C.<\/strong>, \u00a0Todd \u00a0R.E.*, \u00a0Gawarkiewicz \u00a0G.G., \u00a0Owens \u00a0W. \u00a0B, \u00a0and \u00a0Shcherbina \u00a0A.Y., \u00a02013. Offshore Transport of Shelf Waters through Interaction of Vortices with a Shelfbreak Current. J. Phys. Oceanogr.<\/em>, 43, 905-919.<\/p>\n Cenedese C.<\/strong>, Lerczak J.A. and Bartone G. *, 2012. A Geostrophic Adjustment Model of two Buoyant Fluids. J. Phys. Oceanogr.<\/em>, 42, 1932-1944.<\/p>\n Cenedese C.<\/strong>, 2012. Downwelling in Basins Subject to Buoyancy Loss. J. Phys. Oceanogr.<\/em>, 42, 1817-1833.<\/p>\n Shravat A.*, Cenedese C. <\/strong>and Caulfield C.P., 2012. Entrainment and mixing dynamics of surface- stress-driven stratified flow in a cylinder. J. Fluid Mech.<\/em>, 691, 498-517.<\/p>\n Yamamoto H. *, Cenedese C. <\/strong>and Caulfield C.P., 2011. Laboratory experiments on two coalescing axisymmetric turbulent plumes in a rotating fluid. Physics of Fluids<\/em>, 23, 056601.<\/p>\n Straneo F., Curry, R.G., Sutherland D.A., Hamilton G.S., Cenedese C.<\/strong>, V\u00e5ge K. and Stearns L.A., 2011. Impact of fjord dynamics and glacial run-off on the circulation near Helheim Glacier. Nature Geosciences<\/em>, doi: 10.1038\/NGEO1109.<\/p>\n Wells M., Cenedese C. <\/strong>and Caulfield C.P., 2010. The relationship between flux coefficient and entrainment ratio in density currents. J. Phys. Oceanogr.<\/em>, 40, 2713-2727.<\/p>\n Cenedese C. <\/strong>and Adduce C. *, 2010. A new parameterization for entrainment in overflows. J. Phys. <\/em>Oceanogr., <\/em>40, 1835-1850.<\/p>\n Sutherland D.A.* and Cenedese C.<\/strong>, 2009. Laboratory experiments on the interaction of a buoyant coastal current with a canyon: application to the East Greenland Current. J. Phys. Oceanogr.<\/em>, 39, 1258-1271.<\/p>\n Wells \u00a0A.J.*, \u00a0Cenedese \u00a0C.<\/strong>, \u00a0Farrar \u00a0J.T. \u00a0and \u00a0Zappa \u00a0C.J., \u00a02009. \u00a0Variations \u00a0in \u00a0ocean \u00a0surface temperature due to near surface flow: straining the cool skin layer. J. Phys. Oceanogr.<\/em>, 39, 2685-2710.<\/p>\n Cenedese C. <\/strong>and Adduce C.*, 2008. Mixing in a density-driven current flowing down a slope in a rotating fluid. J. Fluid Mech.<\/em>, 604, 369-388.<\/p>\n Tanabe A. * and Cenedese C., <\/strong>2008. Laboratory experiments on mesoscale vortices colliding with an island chain. J. Geophys. Res.<\/em>, 113, C04022, doi:10.1029\/2007JC004322.<\/p>\n W\u00e5hlin A.K., Darelius E.*, Cenedese C. <\/strong>and Lane-Serff G.F., 2008. Laboratory observations of enhanced entrainment in dense overflows in the presence of submarine canyons and ridges. Deep Sea Res. I<\/em>, doi:10.1016\/j.dsr.2008.02.007.<\/p>\n W\u00e5hlin A.K. and Cenedese C.<\/strong>, 2006. How entraining density currents influence the stratification in a one-dimensional ocean basin. Deep Sea Res. II<\/em>, 53, 172-193.<\/p>\n Wolfe C.L.* \u00a0and Cenedese C.<\/strong>, 2006. Laboratory experiments on eddy generation by a buoyant coastal current flowing over variable bathymetry. J. Phys. Oceanogr., <\/em>36, 395-411.<\/p>\n Cenedese C.<\/strong>, Adduce C.* and Fratantoni D.M., 2005. Laboratory experiments on mesoscale vortices interacting with two islands. J. Geophys. Res.<\/em>, 110, C09023, 10.1029\/2004JC002734.<\/p>\n Limeburner R., Whitehead J.A. and Cenedese C.<\/strong>, 2005. Variability of Antarctic bottom water flow into the North Atlantic. Deep-Sea Res. II<\/em>, 52, 495-512.<\/p>\n Adduce C.*, and Cenedese C.<\/strong>, 2004. Laboratory experiments on a mesoscale vortex colliding with topography of varying geometry in a rotating fluid. J. Mar. Res.<\/em>, 62, 611-638.<\/p>\n Cenedese C.<\/strong>, Marshall J.C. and Whitehead J.A., 2004. A laboratory model of thermocline depth and exchange fluxes across circumpolar fronts. J. Phys. Oceanogr.<\/em>, 34, 656-667.<\/p>\n Cenedese C.<\/strong>, Whitehead J.A., Ascarelli T.A.* \u00a0and Ohiwa M.*, 2004. A dense current flowing down a sloping bottom in a rotating fluid. J. Phys. Oceanogr.<\/em>, 34, 188-203<\/p>\n Cenedese C.<\/strong>, 2002. Laboratory experiments on mesoscale vortices colliding with a seamount. J. <\/em>Geophys. Res.<\/em>, 107, C6, 10.1029\/2000JC000599.<\/p>\n Cenedese C. <\/strong>and Linden P.F., 2002. Stability of a buoyancy-driven coastal current at the shelf break. J. Fluid Mech.<\/em>, 452, 97-121.<\/p>\n Cenedese C. <\/strong>and Whitehead J.A., 2000. Eddy-shedding from a boundary current around a cape over a sloping bottom. J. Phys. Oceanogr.<\/em>, 30, 1514-1531.<\/p>\n Cenedese C. <\/strong>and Linden P.F., 1999. Cyclone and anticyclone formation in a rotating stratified fluid over a sloping bottom. J. Fluid Mech.<\/em>, 381, 199-223.<\/p>\n * indicates student or postdoc involved in the research project and publication<\/p>\n\n","protected":false},"excerpt":{"rendered":" Publications 2018 Meroni A.N.*, McConnochie C.*, Cenedese C., Sutherland B. and Snow K. Nonlinear influence of Earth’s rotation on iceberg melting. J. Fluid Mech. Submitted. McConnochie C.*, Cenedese C. and McElwaine J. Surface expression of a wall fountain: application to subglacial discharge plumes. J. Fluid Mech. Submitted. Ezhova E., Cenedese C. and Brandt L. Drag…<\/p>\n","protected":false},"author":82,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":[],"_links":{"self":[{"href":"https:\/\/www2.whoi.edu\/staff\/ccenedese\/wp-json\/wp\/v2\/pages\/27"}],"collection":[{"href":"https:\/\/www2.whoi.edu\/staff\/ccenedese\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/www2.whoi.edu\/staff\/ccenedese\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/www2.whoi.edu\/staff\/ccenedese\/wp-json\/wp\/v2\/users\/82"}],"replies":[{"embeddable":true,"href":"https:\/\/www2.whoi.edu\/staff\/ccenedese\/wp-json\/wp\/v2\/comments?post=27"}],"version-history":[{"count":3,"href":"https:\/\/www2.whoi.edu\/staff\/ccenedese\/wp-json\/wp\/v2\/pages\/27\/revisions"}],"predecessor-version":[{"id":197,"href":"https:\/\/www2.whoi.edu\/staff\/ccenedese\/wp-json\/wp\/v2\/pages\/27\/revisions\/197"}],"wp:attachment":[{"href":"https:\/\/www2.whoi.edu\/staff\/ccenedese\/wp-json\/wp\/v2\/media?parent=27"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}2017<\/h3>\n
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