ALEXEY FEDOROVSELECTED PUBLICATIONS
BOOK
CHAPTERS:
36. Fedorov A.V. and J. Brown, 2009: Equatorial waves. In “Encyclopedia of Ocean Sciences (Second Edition)”, J. Steele, ed., Academic Press.
35. Fedorov A.V., 2008: Ocean-atmosphere coupling. In “Oxford Companion to Global Change”, A. Goudie and D.Cuff, ed., Oxford University Press.
REFEREED ARTICLES:
34. Sevellec, F. and Fedorov, A.V. 2010: Stability of the Atlantic meridional overturning circulation in a zonally-averaged ocean model: the effects of freshwater, wind and diapycnal diffusion. Deep-Sea Research, submitted.
33. Sevellec, F., Vialard, J. and Fedorov, A.V. 2010: Oceanic optimal perturbations and seasonal phase-locking of temperature anomalies in the equatorial Pacific. J. Marine Research, to be submitted.
32. Fedorov, A.V. 2010: Ocean response to wind variations, warm water volume, and simple models of ENSO in the low-frequency approximation. J. Climate, revised.
31. Brown J., Fedorov, A.V., and E. Guilyardi, 2010: How well do coupled models replicate the energetics of ENSO? Climate Dynamics, submitted
30. Fedorov, A.V., Brierley, C., and K. Emanuel, 2010: Tropical cyclones and permanent El Nino in the early Pliocene. Nature, accepted.
29. Brierley, C., and Fedorov, A.V., 2010: The relative importance of meridional and zonal SST gradients for the onset of the Ice Ages and Pliocene-Pleistocene climate evolution. Paleoceanography, accepted.
28. Brown J. and Fedorov, A.V., 2010: How much energy is transferred from the winds to the thermocline on ENSO timescales. J. Climate, in press.
27. Brown J. and Fedorov, A.V., 2010: Estimating the diapycnal transport contribution to Warm Water Volume variations in the tropical Pacific ocean. J. Climate 23, 221-237.
26. Brierley, C., A.V. Fedorov, Z. Liu, T. Herbert, K.Lawrence, and J. LaRiviere 2009: Greatly expanded tropical warm pool and weaker Hadley circulation in the early Pliocene, Science 323, 1714-1718.
25. E. Guilyardi, A. Wittenberg, A.V. Fedorov and co-authors, 2009: Understanding El Niño in ocean-atmosphere general circulation models. Bull. Amer. Meteorological Society 90, 325–340.
24. Brown J. and Fedorov, A.V., 2008: The mean energy balance in the tropical ocean, J. Marine Research 66, 1-23.
23. Barreiro, M., A.V. Fedorov, R.C. Pacanowski, and S.G. Philander, 2008: Abrupt climate changes: How the freshening of the northern Atlantic affects the thermohaline and wind-driven oceanic circulations. Ann. Rev. of Earth and Planetary Sciences 36, 33-58.
22. Fedorov, A.V. 2007: Net energy dissipation rates in the tropical ocean and ENSO dynamics. J.Climate 20, 1099–1108.
21. Fedorov, A.V., and co-authors, 2007: The freshening of surface waters in high latitudes: effects on the thermohaline and wind-driven circulations. J.Phys.Oceanography. 37, 896–907.
20. Fedorov, A.V. and Melville, W.K. 2007: A model for strongly-forced wind waves. J. Phys. Oceanography. 39, 2502–2522.
19. Fedorov, A.V., Dekens, P., Ravelo, C., deMenocal, R.C. Pacanowski, and S. G. Philander, 2006: The Pliocene Paradox (Mechanisms for a permanent El Niño). Science 312, 1437-1443.
18. Barreiro, M., R.C. Pacanowski, S.G. Philander and A.V. Fedorov, 2005: Simulations of warm tropical conditions with application to middle Pliocene atmospheres. Climate Dynamics, DOI: 10.1007/s00382-005-0086-4.
17. Fedorov, A.V., R.C. Pacanowski, S.G. H. Philander, and G. Boccaletti, 2004: The effect of salinity on the wind-driven circulation and the thermal structure of the upper ocean. J. Phys. Oceanography. 34, 1949-1966.
16. Boccaletti, G., R.C. Pacanowski, S.G. Philander and A.V. Fedorov, 2004: The thermal structure of the upper ocean. J.Phys. Oceanography 34, 888-902.
15. Philander, S.G. and Fedorov, A.V. 2003: Is El Niño sporadic or cyclic? Ann. Rev. of Earth and Planetary Sciences 31, 579-594.
14. Fedorov, A.V., S.L. Harper, B. Winter, and A. Wittenberg, 2003: How predictable is El Niño? Bull. Amer. Meteorol. Soc. 84, 911-919.
13. Philander, S.G. and Fedorov, A.V., 2003: The role of tropics in changing the response to Milankovitch forcing some three million years ago. Paleoceanography, 18(2), 1045, doi:10.1029/2002PA000837.
12. Fedorov, A.V., 2002: The response of the coupled tropical ocean-atmosphere to westerly wind bursts. Q. J. Roy. Meteorol. Soc. 128, 1-23.
11. Fedorov, A.V. and Philander, S.G., 2001: A stability analysis of the tropical ocean-atmosphere interactions: Bridging Measurements of, and Theory for El Niño. J. Climate 14, 3086-3101.
10. Fedorov, A.V. and Melville, W.K., 2000: Kelvin fronts on the equatorial thermocline. J.Phys. Oceanography 30, 1692-1705.
9. Fedorov, A.V. and Philander, S.G., 2000: Is El Niño changing? Science 288, 1997-2002.
8. Fedorov, A.V. and Rozenberg, A., 1998: Experimental and numerical study of parasitic capillary waves. Phys. Fluids 10, 1315–1323.
7. Fedorov, A.V. and Melville, W.K. 1998: Breaking internal waves and fronts in rotating fluids. In Physical processes in lakes and oceans, Chapter 18, (J.Imberger, ed.) Washington, DC, AGU, 251-260.
6. Fedorov, A.V. and Melville, W. K., 1998: Nonlinear gravity-capillary waves with forcing and dissipation. J.Fluid Mech. 354, 1-42.
5. Fedorov, A.V. and Melville, W.K. ,1996: Hydraulic jumps at boundaries in rotating fluids. J.Fluid Mech. 324, 55-82.
4. Fedorov, A.V. and Melville, W.K., 1995: Propagation and breaking of nonlinear Kelvin waves. J.Phys.Oceanogr. 25, 2519-2531.
3. Fedorov, A.V. and Malomed, B.A., 1992: Generation of flexural waves on a quasi-one-dimensional KP soliton. Wave Motion 15, 221-227.
36. Fedorov A.V. and J. Brown, 2009: Equatorial waves. In “Encyclopedia of Ocean Sciences (Second Edition)”, J. Steele, ed., Academic Press.
35. Fedorov A.V., 2008: Ocean-atmosphere coupling. In “Oxford Companion to Global Change”, A. Goudie and D.Cuff, ed., Oxford University Press.
REFEREED ARTICLES:
34. Sevellec, F. and Fedorov, A.V. 2010: Stability of the Atlantic meridional overturning circulation in a zonally-averaged ocean model: the effects of freshwater, wind and diapycnal diffusion. Deep-Sea Research, submitted.
33. Sevellec, F., Vialard, J. and Fedorov, A.V. 2010: Oceanic optimal perturbations and seasonal phase-locking of temperature anomalies in the equatorial Pacific. J. Marine Research, to be submitted.
32. Fedorov, A.V. 2010: Ocean response to wind variations, warm water volume, and simple models of ENSO in the low-frequency approximation. J. Climate, revised.
31. Brown J., Fedorov, A.V., and E. Guilyardi, 2010: How well do coupled models replicate the energetics of ENSO? Climate Dynamics, submitted
30. Fedorov, A.V., Brierley, C., and K. Emanuel, 2010: Tropical cyclones and permanent El Nino in the early Pliocene. Nature, accepted.
29. Brierley, C., and Fedorov, A.V., 2010: The relative importance of meridional and zonal SST gradients for the onset of the Ice Ages and Pliocene-Pleistocene climate evolution. Paleoceanography, accepted.
28. Brown J. and Fedorov, A.V., 2010: How much energy is transferred from the winds to the thermocline on ENSO timescales. J. Climate, in press.
27. Brown J. and Fedorov, A.V., 2010: Estimating the diapycnal transport contribution to Warm Water Volume variations in the tropical Pacific ocean. J. Climate 23, 221-237.
26. Brierley, C., A.V. Fedorov, Z. Liu, T. Herbert, K.Lawrence, and J. LaRiviere 2009: Greatly expanded tropical warm pool and weaker Hadley circulation in the early Pliocene, Science 323, 1714-1718.
25. E. Guilyardi, A. Wittenberg, A.V. Fedorov and co-authors, 2009: Understanding El Niño in ocean-atmosphere general circulation models. Bull. Amer. Meteorological Society 90, 325–340.
24. Brown J. and Fedorov, A.V., 2008: The mean energy balance in the tropical ocean, J. Marine Research 66, 1-23.
23. Barreiro, M., A.V. Fedorov, R.C. Pacanowski, and S.G. Philander, 2008: Abrupt climate changes: How the freshening of the northern Atlantic affects the thermohaline and wind-driven oceanic circulations. Ann. Rev. of Earth and Planetary Sciences 36, 33-58.
22. Fedorov, A.V. 2007: Net energy dissipation rates in the tropical ocean and ENSO dynamics. J.Climate 20, 1099–1108.
21. Fedorov, A.V., and co-authors, 2007: The freshening of surface waters in high latitudes: effects on the thermohaline and wind-driven circulations. J.Phys.Oceanography. 37, 896–907.
20. Fedorov, A.V. and Melville, W.K. 2007: A model for strongly-forced wind waves. J. Phys. Oceanography. 39, 2502–2522.
19. Fedorov, A.V., Dekens, P., Ravelo, C., deMenocal, R.C. Pacanowski, and S. G. Philander, 2006: The Pliocene Paradox (Mechanisms for a permanent El Niño). Science 312, 1437-1443.
18. Barreiro, M., R.C. Pacanowski, S.G. Philander and A.V. Fedorov, 2005: Simulations of warm tropical conditions with application to middle Pliocene atmospheres. Climate Dynamics, DOI: 10.1007/s00382-005-0086-4.
17. Fedorov, A.V., R.C. Pacanowski, S.G. H. Philander, and G. Boccaletti, 2004: The effect of salinity on the wind-driven circulation and the thermal structure of the upper ocean. J. Phys. Oceanography. 34, 1949-1966.
16. Boccaletti, G., R.C. Pacanowski, S.G. Philander and A.V. Fedorov, 2004: The thermal structure of the upper ocean. J.Phys. Oceanography 34, 888-902.
15. Philander, S.G. and Fedorov, A.V. 2003: Is El Niño sporadic or cyclic? Ann. Rev. of Earth and Planetary Sciences 31, 579-594.
14. Fedorov, A.V., S.L. Harper, B. Winter, and A. Wittenberg, 2003: How predictable is El Niño? Bull. Amer. Meteorol. Soc. 84, 911-919.
13. Philander, S.G. and Fedorov, A.V., 2003: The role of tropics in changing the response to Milankovitch forcing some three million years ago. Paleoceanography, 18(2), 1045, doi:10.1029/2002PA000837.
12. Fedorov, A.V., 2002: The response of the coupled tropical ocean-atmosphere to westerly wind bursts. Q. J. Roy. Meteorol. Soc. 128, 1-23.
11. Fedorov, A.V. and Philander, S.G., 2001: A stability analysis of the tropical ocean-atmosphere interactions: Bridging Measurements of, and Theory for El Niño. J. Climate 14, 3086-3101.
10. Fedorov, A.V. and Melville, W.K., 2000: Kelvin fronts on the equatorial thermocline. J.Phys. Oceanography 30, 1692-1705.
9. Fedorov, A.V. and Philander, S.G., 2000: Is El Niño changing? Science 288, 1997-2002.
8. Fedorov, A.V. and Rozenberg, A., 1998: Experimental and numerical study of parasitic capillary waves. Phys. Fluids 10, 1315–1323.
7. Fedorov, A.V. and Melville, W.K. 1998: Breaking internal waves and fronts in rotating fluids. In Physical processes in lakes and oceans, Chapter 18, (J.Imberger, ed.) Washington, DC, AGU, 251-260.
6. Fedorov, A.V. and Melville, W. K., 1998: Nonlinear gravity-capillary waves with forcing and dissipation. J.Fluid Mech. 354, 1-42.
5. Fedorov, A.V. and Melville, W.K. ,1996: Hydraulic jumps at boundaries in rotating fluids. J.Fluid Mech. 324, 55-82.
4. Fedorov, A.V. and Melville, W.K., 1995: Propagation and breaking of nonlinear Kelvin waves. J.Phys.Oceanogr. 25, 2519-2531.
3. Fedorov, A.V. and Malomed, B.A., 1992: Generation of flexural waves on a quasi-one-dimensional KP soliton. Wave Motion 15, 221-227.
