Publications

Book Chapters​​​

  1. Kamenkovich, I., P. Berloff, and I. Rypina, 2019: “Anisotropic eddy-induced transport in geophysical flows with jets”, in Zonal Jets, B. Galperin and P. Read eds., Cambridge University Press, pp. 437-449
  2. Berloff, P., and I. Kamenkovich, 2019: “Dynamics of baroclinic multiple zonal jets”, in Zonal Jets, B. Galperin and P. Read eds., Cambridge University Press, pp. 292-308
  3. Wang, J., M.A. Spall, J. Pedlosky, and I. Kamenkovich, 2019: “Radiating instability and small-scale stochastic wind forcing”, in Zonal Jets, B. Galperin and P. Read eds., Cambridge University Press, pp.  247-254
  4. Cornillon, P., E. Firing, A. Thompson, L. Ivanov, I. Kamenkovich, C. Buckingham, and Y. Afanasyev, 2019: “Jets in nature”, in Zonal Jets, B. Galperin and P. Read eds., Cambridge University Press, pp. 46-71
  5. Kamenkovich, I., and P. Berloff, 2018: "Role of nonlinear eddy forcing in the dynamics of multiple zonal jets", for the book Nonlinear advances in geosciences, Tsonis ed., Springer International Publishing AG, pp 161-178
  6. Kamenkovich, I.V., and P.J. Goodman, 2001: “The effects of vertical mixing on the circulation of the AABW in the Atlantic”, Oceans and Rapid Past and Future Climate Changes: North-South Connections, D. Seidov, Ed., AGU, pp 217-226

​​​Journal Articles (Published/in Press)​

  1. Kamenkovich, I., P. Berloff, M. Haigh, L. Sun, and Y. Lu, 2021: “Complexity of Mesoscale Eddy Diffusivity in the Ocean”, DOI 10.1029/2020GL09171
  2. Rudko, M., and I. Kamenkovich, 2021: “Dynamics of zonally-elongated transient flows”, J. Fluid Mech., DOI 10.1017/jfm.2020.105
  3. Perlin, N., I. Kamenkovich, Y. Gao, and B. Kirtman, 2020: “A study of mesoscale air-sea interaction in the Southern Ocean with a regional coupled model”, Ocean Modeling, 153, 2-19, DOI 10.1016/j.ocemod.2020.101660
  4. Talley, L.D., I. Rosso, I. Kamenkovich, M.E. Mazloff, J.Wang, E. Boss, A.R. Gray, K.S. Johnson, R. Key, S.C. Riser, N.L. Williams, and J.L. Sarmiento, 2018. "Southern Ocean biogeochemical float deployment strategies, with example from the Greenwich Meridian line (GO-SHIP A12)." J. Geophys. Res. Oceans, DOI: 10.1029/2018JC014059
  5. Rudko, M.V., I.V. Kamenkovich, M. Iskandarani, and A.J. Mariano, 2018: "Zonally-elongated transient flows: Phenomenology and sensitivity analysis", J. Geophys. Res., DOI 10.1029/2017JC013173
  6. Russell, J., I.V. Kamenkovich, C. Bitz, R. Ferrari, S. Gille, P. Goodman, R. Hallberg, K. Khazmutdinova, K. Johnson, I. Marinov, M. Mazloff, S. Riser, J. Sarmiento, K. Speer, L. Talley, R. Wanninkhof, 2018: “Metrics for the Evaluation of the Southern Ocean in Coupled Climate Models and Earth System Models”, J. Geophys. Res., DOI 10.1002/2017JC013461
  7. Kamenkovich, I., A. Haza, A. Gray, C. Dufour, and Z. Garraffo, 2017: "Observing System Simulation Experiments for an array of autonomous biogeochemical profiling floats in the Southern Ocean", J. Geophys. Res.,  DOI: 10.1002/2017JC012819
  8. Kamenkovich, I., Z. Garraffo, R. Pennel, and R. Fine, 2017: “Importance of mesoscale eddies and mean circulation in ventilation of the Southern Ocean”, J. Geophys. Res., DOI: 10.1002/2016JC012292
  9. Putrasahan, D.A., I. Kamenkovich, M. Le Henaff, and B.P. Kirtman, 2017: "Importance of oceanic mesoscale variability for air-sea interactions in the Gulf of Mexico", Geophys. Res. Lett., 44, 10.1002/2017GL072884
  10. Radko, T., and I. Kamenkovich, 2017: "On the topographic modulation of large-scale eddying flows", J. Phys. Oceanogr., 47, 2157-2172
  11. Chen, C., I. Kamenkovich, and P. Berloff, 2016: “Eddy trains and striations in quasi-geostrophic simulations and the ocean”, J. Phys. Oceanogr., 46, 2827-2850
  12. Rudko, M., I. Kamenkovich, and D. Nolan, 2016: “Stability and transport of baroclinic vortices on the beta-plane”, J. Phys. Oceanogr., 46, 3245-3262
  13. Putrasahan, D., I. Kamenkovich, B. Kirtman, and L. Shay, 2016: “Ocean mesoscale variability in the Gulf of Mexico”, US CLIVAR Variations, 14, 10-14.
  14. Chen, C., I. Kamenkovich and P. Berloff, 2015: "On the dynamics of flows induced by topographic ridges", J. Phys. Oceanogr., 45, 927-940
  15. Kamenkovich, I., I. Rypina, and P. Berloff, 2015: "Properties and origins of the anisotropic eddy-induced transport in the North Atlantic", J. Phys. Oceanogr., 45, 778-791
  16. Russell, J., and I. Kamenkovich, 2015: “Biogeochemical metrics for the evaluation of the Southern Ocean in Earth system models”, US CLIVAR Variations, 13, 26-31.
  17. Pennel, R., and I. Kamenkovich, 2014: ”On the factors controlling the eddy-induced transport in the Antarctic Circumpolar Current”, J. Phys. Oceanogr., 44, 2127-2138
  18. Hartin, C., R.A. Fine, I. Kamenkovich, and B. Sloyan, 2014: “Comparison of Subantarctic Mode Water and Antarctic Intermediate Water in the South Pacific between NCAR-CCSM4 and observations”, Res. Lett., DOI: 10.1002/2013GL058728
  19. Berloff, P., and I. Kamenkovich, 2013a: “On spectral analysis of mesoscale eddies. Part I: Linear analysis”, J. Phys. Oceanogr., 43, 2505–2527
  20. Berloff, P., and I. Kamenkovich, 2013b: “On spectral analysis of mesoscale eddies. Part II: Nonlinear analysis ”, J. Phys. Oceanogr., 43, 2528–2544.
  21. Chen, C., and I. Kamenkovich, 2013: “Effects of topography on baroclinic instability”, J. Phys. Oceanogr., 43, 790-804
  22. Han, M., I. Kamenkovich, T. Radko, and W.E. Johns, 2013: “Relationship between air-sea density flux and isopycnal meridional overturning circulation in a warming climate”, Climate, 26, 2683-2699
  23. Rypina, I., I. Kamenkovich, P. Berloff, L. Pratt, 2012: “Eddy-induced particle dispersion in the near-surface North Atlantic”, J. Phys. Oceanogr., 42, 2206-2228.
  24. Kamenkovich, I. and T. Radko, 2011: “Role of the Southern Ocean in setting the Atlantic stratification and meridional overturning circulation”, J. Marine Res., 69, 277-308.
  25. Kamenkovich, I., W. Cheng, C. Schmid, and D.E. Harrison, 2011: “Effects of eddies on an ocean observing system with profiling floats: Idealized simulations of the Argo array”, J. Geophys. Res., 116, C06003, doi: 10.1029/2010JC006910.
  26. Kravtsov, S., I. Kamenkovich, A.M. Hogg, and J.M. Peters, 2011: “On the mechanisms of late 20th century sea-surface temperature trends over the Antarctic Circumpolar Current”, J. Geophys. Res., 116, C11034, doi:10.1029/2011JC007473.
  27. Kravtsov, S., D. Kondrashov, I. Kamenkovich, and M. Ghil, 2011: “An empirical stochastic model of sea-surface temperature and surface wind over the Southern Ocean”, Ocean Science, doi:10.5194/os-7-755-2011.
  28. Radko, T., and I. Kamenkovich, 2011: “Semi-adiabatic model of the deep stratification and meridional overturning”, J. Phys. Oceanogr., 41, 757-780.
  29. Berloff, P., S. Karabasov, T. Farrar, and I. Kamenkovich, 2011: “On latency of multiple zonal jets in the oceans”, J. Fluid Mech., 686, 534-567.
  30. Van Sebille, E., I. Kamenkovich, and J. Willis, 2011: “Quasi-zonal jets in 3D Argo data of the northeast Atlantic”, Geophys. Res. Lett. 38, L02606, doi:10.1029/2010GL046267.
  31. Kamenkovich, I., P. Berloff, and J. Pedlosky, 2009: “Anisotropic material transport by eddies and eddy-driven currents in a model of the North Atlantic “, J. Phys. Oceanogr., 39, 3162–3175
  32. Kamenkovich, I., W. Cheng, E.S. Sarachik, and D.E. Harrison, 2009: "Simulation of the Argo observing system in a global ocean model“, J. Geophys. Res. 114, C09021, doi:10.1029/2008JC005184
  33. Kamenkovich, I., P. Berloff, and J. Pedlosky, 2009: “Role of eddy forcing in the dynamics of multiple zonal jets in a model of the North Atlantic“, J. Phys. Oceanogr., 39, 1361-1379
  34. Berloff, P., I. Kamenkovich, and J. Pedlosky, 2009: “Model of multiple zonal jets in the oceans: Dynamical and kinematical analysis”, J. Phys. Oceanogr., 39, 2711-2734
  35. Berloff, P., I. Kamenkovich, and J. Pedlosky, 2009: "A mechanism for the formation of multiple zonal jets in the oceans", J. Fluid. Mech., 628, 395-425
  36. Radko, T., I.V. Kamenkovich, and P.-Y. Dare, 2008: “Inferring the pattern of meridional transport from the air-sea fluxes”, J. Phys. Oceanogr., 38, 2722-2738
  37. Booth, J. and I. Kamenkovich, 2008: “Isolating the role of transient mesoscale eddies in mixing of a passive tracer in an eddy resolving model”, J. Geophys. Res., 113, C05021, doi:10.1029/2007JC004510
  38. Sloyan, B.M., and I.V. Kamenkovich, 2007: “Simulation of Subantarctic Mode and Antarctic Intermediate Waters in climate models ”,   J. Climate., 20, 5061-5080
  39. Stouffer et al., 2006 (Stouffer, R. J., J. Yin, J. M. Gregory, K. W. Dixon, M. J. Spelman, A. Weaver, M. Eby, G.M. Flato, H. Hasumi, A. Hu, J. Jungclause, , W. Hurlin, I. Kamenkovich, A. Levermann, M. Montoya, S. Murakami, S. Nawrath, A. Oka, W.R. Peltier, D.Y. Robitaille, A. Sokolov, G. Vettoretti, N. Weber): “Investigating the causes of the response of the thermohaline circulation to past and future climate changes”, J. Climate, 19, 1365-1387 
  40. Kamenkovich, I.V., 2005: “The role of daily surface forcing in setting the temperature and mixed layer structure of the Southern Ocean”, J. Geophys. Res., 101, C07006, doi:10.1029/2004JC002610
  41. Dalan, F., P.H. Stone, I. Kamenkovich and J. Scott, 2005: “Sensitivity of climate to diapycnal diffusivity in the ocean. Part I: Equilibrium state”. J. Climate, 18, 2460-2481 
  42. Gregory et al., 2005 (Gregory, J.M., K. W. Dixon, R. J. Stouffer, A. J. Weaver, E. Driesschaert, M. Eby, T. Fichefet, H. Hasumi, A. Hu, J. H. Jungclaus, I.V. Kamenkovich, A. Levermann, M. Montoya, S. Murakami, S. Nawrath, A. Oka, A. P. Sokolov, R. B. Thorpe): “A model intercomparison of changes in the Atlantic thermohaline circulation in response to increasing atmospheric CO2 concentration”, Geophys. Res. Lett., 32, L12703, doi:10.1029/2005GL023209
  43. Petoukhov et al., 2005 (Petoukhov, V., M. Claussen, A. Berger, M. Crucifix, M. Eby, A. Eliseev, T. Fichefet, A. Ganapolski, H. Goose, I. Kamenkovich, I. Mokhov, M. Montoya, L. A. Mysak, A. Sokolov, P. Stone, Z. Wang, A.J. Weaver): “EMIC Intercomparison Project (EMIC–CO2): Comparative analysis of EMIC simulations of current climate and equilibrium and transient responses to atmospheric CO2 doubling.”, Climate Dyn., DOI: 10.1007/s00382-005-0042-3
  44. Rahmstorf et al., 2005 (Rahmstorf, S., M. Crucifix, A. Ganapolsky, H. Goose, I. Kamenkovich, R. Knutti, G. Lohmann, B. Marsh, L. Mysak, Z. Wang, A. Weaver): “Thermohaline circulation hysteresis: a model Intercomparison”, Geophys. Res. Lett., 32, L23605, doi:10.1029/2005GL023655
  45. Kamenkovich, I.V., and E.S. Sarachik, 2004: “Mechanisms controlling the sensitivity of the Atlantic thermohaline circulation to the parameterization of eddy transports in an ocean GCM”, J. Phys. Oceanogr., 34, 1628-1647
  46. Kamenkovich, I.V., and E.S. Sarachik, 2004: “Reducing errors in temperature and salinity in an ocean model forced by restoring boundary conditions”, J. Phys. Oceanogr., 34, 1856-1869
  47. Kamenkovich, I.V., A. Sokolov, and P.H. Stone, 2003: “Feedbacks affecting the response of the thermohaline circulation to increasing CO2. A study with a model of intermediate complexity”, Climate Dyn., 21, 119-130
  48. Huang, B., P.H. Stone, A.P. Sokolov, and I.V. Kamenkovich, 2003: “The deep-ocean heat uptake of transient climate change”, J. Climate, 16, 1352-1363
  49. Huang, B., P.H. Stone, A.P. Sokolov, and I.V. Kamenkovich, 2003: “Ocean heat uptake in transient climate change: Mechanisms and uncertainty due to isopycnal diffusivity”, Climate, 16, 3344-3356
  50. Kamenkovich, I.V., A. Sokolov, and P.H. Stone, 2002: “An efficient climate model with a 3D ocean and statistical-dynamical atmosphere”, Climate Dyn., 19, 585-598
  51. Kamenkovich, I.V., J. Marotzke, and P.H. Stone, 2000: “Factors affecting heat transport in an ocean General Circulation Model”, J. Phys. Oceanogr, 30, 175-19
  52. Kamenkovich, I.V., and P.J. Goodman, 2000: “The dependence of AABW transport in the Atlantic on vertical diffusivity”, Geophys. Res. Lett., 27, 3739-3742 
  53. Kamenkovich, I.V. and J. Pedlosky, 1998: “Radiation of energy from nonzonal ocean currents. Nonlinear regime. Part I: Single wave development”, J. Phys. Oceanogr., 28, 1661-1682
  54. Kamenkovich, I.V. and J. Pedlosky, 1998: “Radiation of energy from nonzonal ocean currents. Nonlinear regime. Part II: Interactions between waves”, J. Phys. Oceanogr., 28, 1683-1701
  55. Kamenkovich, I.V. and J. Pedlosky, 1996: “Radiating instability of nonzonal ocean currents”, J. Phys. Oceanogr., 26, 622-643 
  56. Kamenkovich, I.V. and J. Pedlosky, 1996: “On the correct matching and boundary conditions for the problem with a radiating broken-line current”, J. Phys. Oceanogr, 26, 1664-1665 
  57. Kamenkovich, I.V. and J. Pedlosky, 1994: “Instability of baroclinic currents that are locally nonzonal”, Atmos. Sci., 51, 2418-2433
  58. Kamenkovich, V.M. and I.V. Kamenkovich, 1993: “On the evolution of Rossby waves, generated by wind stress in a closed basin, incorporating total mass conservation”, Dynamics of Atmos. and Oceans, 18,  67-103