John Marshall

Professor of Ocean and Climate Science

[110]The Zonal Seasonal Cycle of Tropical Precipitation: Introducing the Indo-Pacific Monsoonal Mode (Tuckman, P.J., Smith, J., Lutsko, N., and Marshall, J.), Journal of Climate, 2024. [doi] [reference]
[109]Role of tidal mixing on ocean exchange through the Strait of Hormuz (Salim, M., Subeesh, M.P., Scott, J., Song, H., Marshall, J., and Al Shehhi, M.), Enviormental Research Communications, vol. 6, 2024. [doi] [reference]
[108]Impact of sea ice transport on Beaufort Gyre liquid freshwater content (Cornish, S., Muilwijk, M., Scott, J., Kostov., Y., Marshall, J., et al.), Climate Dynamics, 2023. [doi] [reference]
[107]The Flux‐Differencing Discontinuous Galerkin Method Applied to an Idealized Fully Compressible Nonhydrostatic Dry Atmosphere (Souza, A., He, J., Bischoff, R., Waruszewski, M., Novak, L., Marshall, J., Ferrari, R, et al. ), JAMES, vol. 15, no. 4, 2023. [doi] [reference]
[106]Global Climate Impacts of Greenland and Antarctic Meltwater: A Comparative Study (Li, Q., Marshall, J., Rye, C., Romanou, A., Rind, D, and Kelley, M.), Journal of Climate, pp. 1-40, 2023. [doi] [reference]
[105]Divergent Behavior of Hydrothermal Plumes in Fresh Versus Salty Icy Ocean Worlds (Bire, S., Mittal, T., Kang, W., Ramadhan, A., Tuckman, P., German, C., Thurnherr, A., and Marshall, J.), JGR Planets, vol. 128, no. 11, 2023. [doi] [reference]
[104]Anomalous Meltwater From Ice Sheets and Ice Shelves Is a Historical Forcing (Schmidt, G., Romanou, A., Roach, L., Mankoff, K., Li, Q., Rye, C., Kelley, M., Marshall, J., and Busecke, J.), Geophysical Research Letters, vol. 50, no. 24, 2023. [doi] [reference]
[103]Reduced Deep Convection and Bottom Water Formation Due To Antarctic Meltwater in a Multi-Model Ensemble (Chen, J., Swart, N., Beadling, R., Cheng, X., Hattermann, T., Li, Q., Marshall, J. et al), Geophysical Research Letters, vol. 50, no. 24, 2023. [doi] [reference]
[102]The Southern Ocean Freshwater Input from Antarctica (SOFIA) Initiative: scientific objectives and experimental design (Swart, N., Martin, T., Beadling, R., Marshall, J. et al.), Geoscientific Model Development, vol. 16, no. 12, pp. 7289–7309, 2023. [doi] [reference]
[101]Exploring Ocean Circulation on Icy Moons Heated From Below (Bire,S., Kang, W., Ramadhan, A., Campin, J.M., and Marshall, J.), JGR Planets, vol. 123, no. 3, 2022. [doi] [reference]
[100]Observations of Upwelling and Downwelling Around Antarctica Mediated by Sea Ice (Ramadhan, A., Marshall, J., Meneghello, G., Illari, L., and Speer, K. ), Frontiers in Marine Science, 2022. [doi] [reference]
[99]How does salinity shape ocean circulation and ice geometry on Enceladus and other icy satellites? (Kang, W., Mittal, T., Bire, S., Campin, J.M., and Marshall, J.), Science Advances, vol. 8, no. 29, 2022. [doi] [reference]
[98]Future Climate Change Under SSP Emission Scenarios With GISS-E2.1 (Nazarenko, L., Marshall, J., Tausnev, N., Russell, G., Rind, D., Miller, R., and Schmidt, G.), Journal of Advances in Modeling Earth Systems, vol. 14, no. 7, 2022. [doi] [reference]
[97]Ocean System Science to Inform the Exploration of Ocean Worlds (German, C., Blackman, D., Fisher, A., Girguis, P., Hand, K., Hoehler, T., Huber, J., Marshall, J., Pietro, K., Seewald, J., Shock, E., Sotin, C., Thurnherr, A., and Toner, B.), Oceanography, vol. 35, no. 1, 2022. [doi] [reference]
[96]The role of ocean circulation in driving hemispheric symmetry breaking of the ice shell of Enceladus (Kang, W., Bire, S., and Marshall, J.), Earth and Planetary Science Letters, vol. 599, 2022. [doi] [reference]
[95]Ocean dynamics and tracer transport over the south pole geysers of Enceladus (Kang, W., Marshall, J., Mittal, T., and Bire, S.), Monthly Notices of the Royal Astronomical Society, vol. 517, no. 3, 2022. [doi] [reference]
[94]Genesis and Decay of Mesoscale Baroclinic Eddies in the Seasonally Ice-Covered Interior Arctic Ocean (Meneghello, G., Marshall, J., Lique, C., Isachsen, P., Doddridge, E., Campin, J.M., Regan, H., and Talandier, C.), AMS, vol. 51, pp. 115-129, 2021. [doi] [reference]
[93]CMIP6 Historical Simulations (1850-2014) with GISS ModelE2.1 (Miller, R. et al.), JAMES, vol. 13, no. 1, 2021. [doi] [reference]
[92]On the effects of the ocean on atmospheric CFC-11 lifetimes and emissions (Wang, P., Scott, J., Solomon, S., Marshall, J., Babbin, A., Lickley, M., et. al.), PNAS, vol. 118, no. 12, 2021. [doi] [reference]
[91]Southern Ocean Heat Storage, Reemergence, and Winter Sea Ice Decline Induced by Summertime Winds (Doddridge, E., Marshall, J., Song, H., Campin, J.M., and Kelly, M.), Journal of Climate, vol. 34, no. 4, 2021. [doi] [reference]
[90]On the Settling Depth of Meltwater Escaping from beneath Antarctic Ice Shelves (Arnscheidt, C., Marshall, J., Dutrieux, P., Rye, C., and Ramadhan, A.), Journal of Physical Oceanography, vol. 51, no. 7, pp. 2257–2270 , 2021. [doi] [reference]
[89]Interannual SAM Modulation of Antarctic Sea Ice Extent Does Not Account for Its Long-Term Trends, Pointing to a Limited Role for Ozone Depletion (Polvani, L.M., Banerjee, A., Chemke, R., Doddridge, E., Ferreira, D., Gnandesikan, A., Holland, M., Kostov, Y., Marshall, J., Sevior, W., Solomon, S., and Waugh, D.), Geophysical Resesarch Letters, vol. 48, no. 21, 2021. [doi] [reference]
[88]Suppressed pCO2 in the Southern Ocean due to the interaction between current and wind (Kwak, K., Song, H., Marshall, J., Seo, H., and McGillicuddy, D.), JGR Oceans, vol. 126, 2021. [doi] [reference]
[87]Water Mass Transformation and Overturning Circulation in the Arabian Gulf (Al-Shehhi, M., Song, H., Scott, J. and Marshall, J.), Journal of Physical Oceanography, pp. 3513-3527, 2021. [doi] [reference]
[86]Linking ITCZ migrations to AMOC and North Atlantic/Pacific SST decadal variability (Moreno-Chamarro, E., Marshall, J., and Delworth, T.L.), Journal of Climate, pp. 893-905, 2020. [doi] [reference]
[85]Impact of Current‐Wind Interaction on Vertical Processes in the Southern Ocean (Song. H., Marshall, J., McGillicuddy, D., and Seo, H.), JGR Oceans, vol. 125, no. 4, 2020. [doi] [reference]
[84]Understanding Arctic Ocean Circulation: A Review of Ocean Dynamics in a Changing Climate (Timmermans, M.L. and Marshall, J.), JGR Oceans, vol. 125, no. 4, 2020. [doi] [reference]
[83]Polar phasing and cross‐equatorial heat transfer following a simulated abrupt NH warming of a glacial climate (Moreno-Chamarro, E., Ferreria, D., and Marshall, J.), Paleoceanography and Paleoclimatology, 2020. [doi] [reference]
[82]Antarctic Glacial Melt as a Driver of Recent Southern Ocean Climate Trends (Rye, C., Marshall, J., Kelley, M., Russell, G., Nazarenko , L., Kostov, Y., Schmidt G., and Hansen, J.), Geographical Research Letters, vol. 47, no. 11, 2020. [doi] [reference]
[81]Wind Feedback Mediated by Sea Ice in the Nordic Seas (Kovacs, T., Ferdes, R., and Marshall, J.), Journal of Climate, vol. 33, no. 15, pp. 6621-6632, 2020. [doi] [reference]
[80]GISS-E2.1: Configurations and Climatology (Kelley, M., et. al.), JAMES, vol. 12, no. 8, 2020. [doi] [reference]
[79]Oceananigans.jl: Fast and friendly geophysical fluid dynamics on GPUs (Ramadhan, A., Wagner, G., Hill, C., Campin, J.M., Churavy, V., Besard, T., Souza, A., Edelman, A., Ferrari, R., Marshall, J.), Journal of Open Source Software, vol. 5, no. 53, 2020. [doi] [reference]
[78]Uncertainty quantification of ocean parameterizations: application to the K‐Profile‐Parameterization for penetrative convection (Souza, A., Wagner, G., Ramadhan, A., Allen, B., Churavy, V., Schloss, J., Campin, J.M., Hill, C., Edelman, A., Marshall, J., Flierl, G., and Ferrari, R.), JAMES, 2020. [doi] [reference]
[77]Sea‐Ice Melt Driven by Ice‐Ocean Stresses on the Mesoscale (Gupta, M., Marshall, J., Song, H., Campin, J.M., and Meneghello, G.), JGR Oceans, vol. 125, no. 11, 2020. [doi] [reference]
[76]The ‘sticky’ ITCZ: ocean-moderated ITCZ shifts (Green, B., Marshall, J., and Campin, J.M.), Climate Dynamics, pp. 1-19, 2019. [doi] [reference]
[75]On the Feedback of Ice–Ocean Stress Coupling from Geostrophic Currents in an Anticyclonic Wind Regime over the Beaufort Gyre (Wang, Q., Marshall, J., Scott, J., Meneghello, G., Danilov, S. and Jung, T. ), Journal of Physical Oceanography, vol. 49, no. 2, pp. 369-383, 2019. [doi] [reference]
[74]A Three‐way Balance in The Beaufort Gyre: The Ice‐Ocean Governor, Wind Stress, and Eddy Diffusivity (Doddridge, E., Meneghello, G., Marshall, J., Scott, J., and Lique, C.), Journal of Geophysical Research – Oceans, 2019. [doi] [reference]
[73]Eddy compensation dampens Southern Ocean SST response to westerly wind trends (Doddridge, E., Marshall, J., Song, H., Kelley, M., and Nazarenko, L.), Geophysical Research Letters, 2019. [doi] [reference]
[72]Triggering Global Climate Transitions through Volcanic Eruptions (Gupta, Mukund, Marshall, John, and Ferreira, David), JCLI, vol. 32, pp. 3727-3742, 2019. [doi] [reference]
[71]The Southern Ocean sea surface temperature response to ozone depletion: A multi-model comparison (Seviour, W.J.M., Condron, F., Doddridge, E., Ferreira, D., Gnanadesikan, A., Kostov, Y., Marshall, J., Polvani, L.M., Thomas, J.L, and Waugh, D.), Journal of Climate, 2019. [doi] [reference]
[70]Modulation of Monsoon Circulations by Cross-Equatorial Ocean Heat Transport (Lutsko, N, Marshall, J., and Green, B.), Journal of Climate, vol. 32, no. 12, pp. 3471-3485, 2019. [doi] [reference]
[69]Impact of near-inertial waves on vertical mixing and air-sea CO2 fluxes in the Southern Ocean (Song, H., Marshall, J., Campin, J.M., McGillicuddy, D.), JGR Oceans, vol. 124, no. 7, pp. 4605-4617, 2019. [doi] [reference]
[68]Exploring the role of the “Ice-Ocean governor” and mesoscale eddies in the equilibration of the Beaufort Gyre: lessons from observations (Meneghello, G., Doddridge, E., Marshall, J., Scott, J., and J.M. Campin), Journal of Physical Oceanography, 2019. [doi] [reference]
[67]Impact of Near‐Inertial Waves on Vertical Mixing and Air‐Sea CO2 Fluxes in the Southern Ocean (Song, H., Campin, J.M., McGillicuddy, D., and J.Marshall), JGR Oceans, 2019. [doi] [reference]
[66]Hemispherically asymmetric trade wind changes as signatures of past ITCZ shifts (McGee, D., Moreno-Chamarro, E., Green, B., Marshall, J., Galbraith, E., and Bradtmiller, L.), Quaternary Science Reviews, vol. 180, pp. 214–228, 2018. [doi] [reference]
[65]Contributions of Greenhouse Gas Forcing and the Southern Annular Mode to Historical Southern Ocean Surface Temperature Trends (Kostov, Y., Ferreira, D., Armour, K.C., and Marshall, J.), Geophysical Research Letters, vol. 45, 2018. [doi] [reference]
[64]Observations of Seasonal Upwelling and Downwelling in the Beaufort Sea Mediated by Sea Ice (Meneghello, G., Marshall, J., Timmermans, M.L., and Scott, J.), Journal of Physical Oceanography, vol. 48, pp. 795-805, 2018. [doi] [reference]
[63]Seasonal variation in the correlation between anomalies of sea level and chlorophyll in the Antarctic Circumpolar Current Region (Song, H., Long, M., Guabe, P., Frenger, I., Marshall, J., and McGillicuddy Jr., D.), Geophysical Research Letters, vol. 45, no. 10, pp. 5011-5019, 2018. [doi] [reference]
[62]The Climate Response to Multiple Volcanic Eruptions Mediated by Ocean Heat Uptake: Damping Processes and Accumulation Potential (Gupta, Mukund and Marshall, John), Journal of Climate, vol. 31, no. 21, 2018. [doi] [reference]
[61]Linking Glacial‐Interglacial States to Multiple Equilibria of Climate (Ferreira, D., Marshall, J., Ito, T., and McGee, D.), Geophysical Research Letters, vol. 45, no. 14, pp. 9160-9170, 2018. [doi] [reference]
[60]The Ice-Ocean governor: ice-ocean stress feedback limits Beaufort Gyre spin up (Meneghello, G., Marshall, J., Campin, J.M., Doddridge, Ed., and Timmermans, M.L.), Geophysical Research Letters, 2018. [doi] [reference]
[59]Western U.S. lake expansions during Heinrich stadials linked to Pacific Hadley circulation (McGee, D., Morena-Chamarro, E., Marshall, J., and Galbraith, E.D.), Science Advances, vol. 4, no. 11, 2018. [doi] [reference]
[58]The dependence of the ocean’s MOC on mesoscale eddy diffusivities: A model study (Marshall, J., Scott, J., Romanou, A., Kelley, M., and Leboissetier, A.), Ocean Modelling, vol. 111, pp. 1-8, 2017. [doi] [reference]
[57]Coupling of Trade Winds with Ocean Circulation Damps ITCZ Shift (Green, B. and Marshall, J.), Journal of Climate, vol. 30, no. 12, 2017. [doi] [reference]
[56]Observed mesoscale eddy signatures in Southern Ocean surface mixed-layer depth (Hausmann, U., McGillicuddy Jr., D., and Marshall, J.), Journal of Geophysical Research, vol. 122, pp. 617-635, 2017. [doi] [reference]
[55]Seasonally derived components of the Canada Basin halocline (Timmermans, M.L., Marshall, J., Proshutinsky, A., and J.Scott), Geophysical Research Letters, vol. 44, no. 10, pp. 5008–5015 , 2017. [doi] [reference]
[54]Role of the ocean’s AMOC in setting the uptake efficiency of transient tracers (Romanou, A., Marshall, J., Kelley, M., and J. Scott), Geophysical Research Letters, vol. 44, no. 11, pp. 5590–5598, 2017. [doi] [reference]
[53]High-order accurate finite-volume formulations for the pressure gradient force in layered ocean models (Engwirda, D., Kelley, M., and J. Marshall), Ocean Modelling, vol. 116, pp. 1-15, 2017. [doi] [reference]
[52]"Climate response functions" for the Arctic Ocean: a proposed coordinated modelling experiment (Marshall, J., Scott, J., and A. Proshutinsky), Geoscientific Model Development, vol. 10, pp. 2833-2848, 2017. [doi] [reference]
[51]Twentieth century correlations between extratropical SST variability and ITCZ shifts (Green, B., Marshall, J., and Donohoe, A.), Geophysical Research Letters, 2017. [doi] [reference]
[50]Modulation of the Seasonal Cycle of Antarctic Sea Ice Extent Related to the Southern Annular Mode (Doddridge, E. and Marshall, J.), Geophysical Research Letters, vol. 44, no. 19, pp. 9761–9768 , 2017. [doi] [reference]
[49]Virtually Enhanced Fluid Laboratories for Teaching Meteorology (Illari, L., Marshall, J., and McKenna, W.D.), AMS, pp. 1949-1960, 2017. [doi] [reference]
[48]Observational Inferences of Lateral Eddy Diffusivity in the Halocline of the Beaufort Gyre (Meneghello, G., Marshall, J., Cole, S., and Timmermans, M.L.), Geophysical Research Letters, vol. 44, no. 24, pp. 12,331–12,338, 2017. [doi] [reference]
[47]Fast and slow responses of Southern Ocean sea surface temperature to SAM in coupled climate models (Kostov, Y., Marshall, J., Hausmann, U. et al.), Climate Dynamics, pp. 1-15, 2016. [doi] [reference]
[46]Southern Ocean warming delayed by circumpolar up-welling and equatorward transport (Armour, K.C., Marshall, J., Scott, J.R., Donohoe, A., and E.R. Newsom), Nature Geoscience, vol. 9, pp. 549–554, 2016. [doi] [reference]
[45]Mechanisms controlling the SST air-sea heat flux feedback and its dependence on spatial scale (Hausmann, U., Czaja, A. & Marshall, J.), J. Clim. Dyn., pp. 1-11, 2016. [doi] [reference]
[44]Observations, inferences, and mechanisms of Atlantic Meridional Overturning Circulation variability: A review (Martha W. Buckley and John Marshall), Review of Geophysics, 2016. [doi] [reference]
[43]Estimates of air–sea feedbacks on sea surface temperature anomalies in the Southern Ocean (Hausmann, U., Czaja, A., and Marshall, J.), Journal of Climate, vol. 29, no. 2, pp. 439-454, 2016. [doi] [reference]
[42]Mesoscale modulation of air-sea CO2 flux in Drake Passage (Song, H., Marshall, J., Munro, D., Dutkiewicz, S., Sweeney, C., McGillicuddy Jr., D.J., Hausmann, U.), Journal of Geophysical Researach, vol. 121, 2016. [doi] [reference]
[41]Source waters for the highly productive Patagonian shelf in the southwestern Atlantic (Song, H., Marshall, J., Follows, M., Dutkiewicz, S., and Gaël Forget), Journal of Marine Systems, vol. 158, pp. 120-128, 2016. [doi] [reference]
[40]Circulation and Stirring in the Southeast Pacific Ocean and the Scotia Sea sectors of the Antarctic Circumpolar Current (Balwada, D., Speer, K., LaCasce, J., Owens, W. B., Marshall, J., and Ferrari, R.), Journal of Physical Oceanography, 2016. [doi] [reference]
[39]The Flux-Anomaly-Forced Model Intercomparison Project (FAFMIP) contribution to CMIP6: investigation of sea-level and ocean climate change in response to CO2 forcing (Gregory, J., Bouttes, N., Griffies, S., Haak, H., Hurlin, W., Jungclaus, J., Kelley, M., Lee, W., Marshall, J., Romanou, A., Saenko, O., Stammer, D., and Winton, M.), Geoscientific Model Development, vol. 9, pp. 3993-4017, 2016. [doi] [reference]
[38]Sensitivity of Antarctic sea ice to the Southern Annual Mode in coupled climate models (Holland, M., Landrum, L., Kostov, Y., and J. Marshall), Climate Dynamics, pp. 1-19, 2016. [doi] [reference]
[37]Ocean heat and carbon uptake in transient climate change: Identifying model uncertainty (A. Romanou and J.Marshall), US CLIVAR VARIATIONS, vol. 13, no. 2, pp. 8-11, 2015. [reference]
[36]Why is there net surface heating over the Antarctic Circumpolar Current? (Czaja, Arnaud and Marshall, John ), Ocean Dynamics, 2015. [doi] [reference]
[35]Antarctic Ocean and Sea Ice Response to Ozone Depletion: A Two-Time-Scale Problem (Ferreira, D., Marshall, J., Bitz, C.M., Solomon, S., and A. Plumb), Journal of Climate, vol. 28, pp. 1206–1226, 2015. [doi] [reference]
[34]Anomalous chlorofluorocarbon uptake by mesoscale eddies in the Drake Passage region (Song, H., Marshall, J., Gaube, P., and McGuillicudy, D), Journal of Geophysical Research, vol. 120, no. 2, pp. 1065–1078, 2015. [doi] [reference]
[33]Freshwater transport in the coupled ocean-atmosphere system: a passive ocean (Ferreira, D., and Marshall, J.), Ocean Dynamics, vol. 65, pp. 1029–1036, 2015. [doi] [reference]
[32]The ocean’s role in setting the mean position of the Inter-Tropical Convergence Zone (Marshall, J., Donohoe, A., Ferreira, D., and McGee, D.), Climate Dynamics, vol. 42, no. 7-8, pp. 1967-1979, 2014. [doi] [reference]
[31]Impact of the Atlantic meridional overturning circulation on ocean heat storage and transient climate change (Kostov, Yavor, Armour, Kyle, and Marshall, John), Geophysical Research Letters, vol. 41, no. 6, pp. 2108–2116, 2014. [doi] [reference]
[30]The Interannual Variability of Tropical Precipitation and Interhemispheric Energy Transport (Donohoe, Aaron, Marshall, John, Ferreira, David, Armour, Kyle, and McGee, David), JOURNAL OF CLIMATE, vol. 27, no. 9, pp. 3377-3392, 2014. [doi] [reference]
[29]Float-derived isopycnal diffusivities in the DIMES experiment. (LaCasce, J.H., Ferrari, R., Marshall, J., Tulloch, R., Balwada, D., and Speer, K.), J. Phys. Oceanogr.,, vol. 44, pp. 764–780, 2014. [doi] [reference]
[28]Changes in ITCZ location and cross-equatorial heat transport at the Last Glacial Maximum, Heinrich Stadial 1, and the mid-Holocene (McGee, D., Donohoe, A., Marshall, J.C., and Ferreira, D.), Earth and Planetary Science Letters, vol. 390, pp. 69–79, 2014. [doi] [reference]
[27]The ocean's role in polar climate change: asymmetric Arctic and Antarctic responses to greenhouse gas and ozone forcing (Marshall, J., Armour, K., Scott, J., Kostov, Y., Hausmann, U., Ferreira, D., Shepherd, T., and Bitz, C.), Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, vol. 372, no. 2019, pp. 20130040, 2014. [doi] [reference]
[26]The Southern Ocean, carbon and climate (Watson, A., Meredith, M., and Marshall, J.), Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, vol. 372, no. 201920130057, 2014. [doi] [reference]
[25]Rationalizing the Spatial Distribution of Mesoscale Eddy Diffusivity in Terms of Mixing Length Theory (Bates, M., Tulloch, R., Marshall, J., and Ferrari, R.), Journal of Physical Oceanography, vol. 44, no. 6, pp. 1523-1540, 2014. [doi] [reference]
[24]Direct Estimate of Lateral Eddy Diffusivity Upstream of Drake Passage (Tulloch, Ross; Ferrari, Raffaele; Jahn, Oliver; Klocker, Andreas; LaCasce, Joseph; Ledwell, James; Marshall, John; Messias, Marie-Jose; Speer, Kevin; and Andrew Watson), Journal of Physical Oceanography, vol. 44, pp. 2593–2616, 2014. [doi] [reference]
[23]Climate at high-obliquity (Ferreira, D. and Marshall, J. and O'Gorman, P. A. and Seager, S.), Icarus, vol. 243, pp. 236-248, 2014. [doi] [reference]
[22]The ocean's role in the transient response of climate to abrupt greenhouse gas forcing (Marshall, J., Scott, J., Armour, K., Campin, J.-M., Kelley, M., and Romanou, A.), Climate Dynamics, 2014. [doi] [reference]
[21]Global surface eddy diffusivities derived from satellite altimetry (Abernathey, R. P. and Marshall, J.), JOURNAL OF GEOPHYSICAL RESEARCH-OCEANS, vol. 118, no. 2, pp. 901-916, 2013. [doi] [reference]
[20]Surface vertical PV fluxes and subtropical mode water formation in an eddy-resolving numerical simulation (Maze, Guillaume and Deshayes, Julie and Marshall, John and Treguier, Anne-Marie and Chronis, Alexandre and Vollmer, Lukas), DEEP-SEA RESEARCH PART II-TOPICAL STUDIES IN OCEANOGRAPHY, vol. 91, pp. 128, 2013. [doi] [reference]
[19]Ocean Basin Geometry and the Salinification of the Atlantic Ocean (Nilsson, Johan and Langen, Peter and Ferreira, David and Marshall, John), Journal of Climate, vol. 26, no. 16, pp. 6163–6184, 2013. [doi] [reference]
[18]Have Aerosols Caused the Observed Atlantic Multidecadal Variability? (Zhang, Rong and Delworth, Thomas L. and Sutton, Rowan and Hodson, Daniel L. R. and Dixon, Keith W. and Held, Isaac M. and Kushnir, Yochanan and Marshall, John and Ming, Yi and Msadek, Rym and Robson, Jon and Rosati, Anthony J. and Ting, MingFang and Vecchi, Gabriel A.), JOURNAL OF THE ATMOSPHERIC SCIENCES, vol. 70, no. 4, pp. 1135-1144, 2013. [doi] [reference]
[17]The Role of Oceans and Sea Ice in Abrupt Transitions between Multiple Climate States (Rose, Brian E. J. and Ferreira, David and Marshall, John), JOURNAL OF CLIMATE, vol. 26, no. 9, pp. 2862-2879, 2013. [doi] [reference]
[16]The Relationship between ITCZ Location and Cross-Equatorial Atmospheric Heat Transport: From the Seasonal Cycle to the Last Glacial Maximum (Donohoe, Aaron and Marshall, John and Ferreira, David and Mcgee, David), JOURNAL OF CLIMATE, vol. 26, no. 11, pp. 3597-3618, 2013. [doi] [reference]
[15]Surface vertical PV fluxes and subtropical mode water formation in an eddy-resolving numerical simulation (Maze, Guillaume and Deshayes, Julie and Marshall, John and Treguier, Anne-Marie and Chronis, Alexandre and Vollmer, Lukas), DEEP-SEA RESEARCH PART II-TOPICAL STUDIES IN OCEANOGRAPHY, vol. 91, no. SI, pp. 128-138, 2013. [doi] [reference]
[14]Exploring Mechanisms of Variability and Predictability of Atlantic Meridional Overturning Circulation in Two Coupled Climate Models (Tulloch, Ross and Marshall, John), JOURNAL OF CLIMATE, vol. 25, no. 12, pp. 4067-4080, 2012. [doi] [reference]
[13]Closure of the meridional overturning circulation through Southern Ocean upwelling (Marshall, John and Speer, Kevin), NATURE GEOSCIENCE, vol. 5, no. 3, pp. 171-180, 2012. [doi] [reference]
[12]The Effectiveness of Rotating Tank Experiments in Teaching Undergraduate Courses in Atmospheres, Oceans, and Climate Sciences (Mackin, Kathleen and Cook-Smith, Nancy and Illari, Lodovica and Marshall, John and Sadler, Phillip), Journal of Geoscience Education, vol. 60, no. 1, 2012. [doi] [reference]
[11]Controlling spurious diapycnal mixing in eddy-resolving height-coordinate ocean models - Insights from virtual deliberate tracer release experiments (Hill, Chris and Ferreira, David and Campin, Jean-Michel and Marshall, John and Abernathey, Ryan and Barrier, Nicolas), OCEAN MODELLING, vol. 45-46, pp. 14-26, 2012. [doi] [reference]
[10]John Green Obituary (Gadian, Alan and Marshall, John and White, Andy), WEATHER, vol. 67, no. 7, pp. 193, 2012. [doi] [reference]
[9]On the Relationship between Decadal Buoyancy Anomalies and Variability of the Atlantic Meridional Overturning Circulation (Buckley, Martha W. and Ferreira, David and Campin, Jean-Michel and Marshall, John and Tulloch, Ross), JOURNAL OF CLIMATE, vol. 25, no. 23, pp. 8009-8030, 2012. [doi] [reference]
[8]Scales, Growth Rates, and Spectral Fluxes of Baroclinic Instability in the Ocean (Tulloch, Ross and Marshall, John and Hill, Chris and Smith, K. Shafer), JOURNAL OF PHYSICAL OCEANOGRAPHY, vol. 41, no. 6, pp. 1057-1076, 2011. [doi] [reference]
[7]Mixed Layer Lateral Eddy Fluxes Mediated by Air-Sea Interaction (Shuckburgh, Emily and Maze, Guillaume and Ferreira, David and Marshall,John and Jones, Helen and Hill, Chris), JOURNAL OF PHYSICAL OCEANOGRAPHY, vol. 41, no. 1, pp. 130-144, 2011. [doi] [reference]
[6]Diagnosing the Observed Seasonal Cycle of Atlantic Subtropical Mode Water Using Potential Vorticity and Its Attendant Theorems (Maze, Guillaume and Marshall, John), JOURNAL OF PHYSICAL OCEANOGRAPHY, vol. 41, no. 10, pp. 1986-1999, 2011. [doi] [reference]
[5]A pedagogical example of Eulerian and Lagrangian flows induced by Rossby wave rectification in an ocean basin (Marshall, John), JOURNAL OF MARINE RESEARCH, vol. 69, no. 4-6, pp. 647-657, 2011. [doi] [reference]
[4]Estimated Seasonal Cycle of North Atlantic Eighteen Degree Water Volume (Forget, Gael and Maze, Guillaume and Buckley, Martha and Marshall, John), JOURNAL OF PHYSICAL OCEANOGRAPHY, vol. 41, no. 2, pp. 269-286, 2011. [doi] [reference]
[3]Climate Determinism Revisited: Multiple Equilibria in a Complex Climate Model (Ferreira, David and Marshall, John and Rose, Brian), JOURNAL OF CLIMATE, vol. 24, no. 4, pp. 992-1012, 2011. [doi] [reference]
[2]Super-parameterization in ocean modeling: Application to deep convection (Campin, Jean-Michel and Hill, Chris and Jones, Helen and Marshall, John), OCEAN MODELLING, vol. 36, no. 1-2, pp. 90-101, 2011. [doi] [reference]
[1]The Dependence of Southern Ocean Meridional Overturning on Wind Stress (Abernathey, Ryan and Marshall, John and Ferreira, David), JOURNAL OF PHYSICAL OCEANOGRAPHY, vol. 41, no. 12, pp. 2261-2278, 2011. [doi] [reference]