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Roundy, P.E., 2011: Tropical extratropical interactions, in W.K.M. Lau and D. E. Waliser, Intraseasonal Variability in the Atmosphere-Ocean Climate System. Second edition. Springer, Praxis Publishing, Chichester, UK, In Press. Ventrice, M.J., C. D. Thorncroft, and P. E. Roundy, 2011: The Madden-Julian Oscillation’s influence on African easterly waves and downstream tropical cyclogenesis. Mon. Wea. Rev. In Press. Roundy, P. E., and M. A. Janiga, 2011: Analysis of vertically propagating convectively coupled equatorial waves using observations and a non-hydrostatic Boussinesq model on the equatorial beta plane. Q. J. Roy. Meteor. Soc., Revisions pending review. Verhagen, L., and P. E. Roundy, 2010: Analysis of coupling between an oceanic Kelvin wave and atmospheric convection during the winter of 1986. J. Climate, 23, 6353-6364. Roundy, P. E., and L. Verhagen, 2010: Variations of the flow of the global atmosphere associated with a composite convectively coupled oceanic Kelvin wave. J. Climate, 23, 4192-4201. Roundy, P. E., K. MacRitchie, J. Asuma, and T. Melino, 2010: Modulation of the Global Atmospheric Circulation by Combined Activity in the Madden Julian Oscillation and the El Niño/Southern Oscillation During Boreal Winter. J. Climate, 23, 4045- 4059. Lin, Jia-Lin, T. Qian, H. Han, P. Roundy, and Y. Zheng, 2009: Intraseasonal variation of winter precipitation over the western United States simulated by 14 IPCC AR4 Coupled GCMs. J. Clim., 23, 3094-3119. Lin, Jia-Lin, T. Shinoda, B. Liebmann, T. Qian, W.
Han, P. Roundy, J. Zhou, Y. Zheng, 2009: Intraseasonal Variability Associated
with Summer Precipitation Over South America Simulated by 14 WRCP CMIP3 Coupled
GCMs Mon. Wea. Rev., 137, 2931-2954. Roundy, P. E., and C. J. Schreck III, 2009: A
combined wave-number-frequency and time-extended EOF approach for tracking the
progress of modes of large-scale organized tropical convection. Q. J. Roy.
Met. Soc., 135, 161-173. Roundy, P. E., C. J. Schreck III, M. A. Janiga, 2009:
Contributions of convectively coupled equatorial Rossby waves and Kelvin waves
to the Real-time multivariate MJO indices. Mon. Wea. Rev., 137,
469-478. Kiladis, G. N., M. C. Wheeler, P. T. Haertel, K. H.
Straub, and P. E. Roundy, 2009: Convectively coupled equatorial waves. Rev.
of Geophys., 47 RG2003, 1-42. Roundy, P. E., and J. R. Kravitz, 2009: The
association of the evolution of intraseasonal oscillations to ENSO phase. J.
Climate, 22, 381-395. Shinoda, T., P. E. Roundy, and G. N. Kiladis, 2008:
Statistical representation of equatorial waves and tropical instability waves
in the Pacific Ocean. Atmospheric Research, 94, 37-44. Roundy, P. E., 2008: Analysis of convectively coupled
Kelvin waves in the Indian Ocean MJO. J. Atmos. Sci.. 65,1342-1359. Shinoda, T., P. E. Roundy, and G. N. Kiladis, 2008:
Variability of intraseasonal Kelvin waves in the equatorial Pacific Ocean. J.
Phys. Oceanogr., 38, 921-944. Roundy, P. E., and G. N. Kiladis 2007: Analysis of a
reconstructed Kelvin wave dynamic height dataset for the period 1974-2005. J.
Climate, 20, 4341-4355. Roundy P. E., and G. N. Kiladis, 2006: Observed
relationships between oceanic Kelvin waves and atmospheric forcing. J.
Climate, 19, 5253-5272. Frank, W. M., and P. E. Roundy, 2006: The
relationship between tropical waves and tropical cyclogenesis. Mon. Wea.
Rev., 134, 2397-2417. Roundy, P.E., and W.M. Frank, 2004c: Applications of
a multiple linear regression model to the analysis of relationships between
eastward-and westward-moving intraseasonal modes. J. Atmos. Sci., 61,
3041-3048. Roundy, P.E., and W.M. Frank, 2004b: Effects of
low-frequency wave interactions on intraseasonal oscillations. J. Atmos.
Sci., 61, 3025-3040. Roundy P. E., and W. M. Frank, 2004: A climatology of waves in the equatorial region. J. Atmos. Sci., 61, 2105-2132. Roundy, P. E., and L. Gribble, 2010: Variations of the flow of the global atmosphere associated with a composite convectively coupled oceanic Kelvin wave. J. Climate., 23, 4192-4201. Roundy, P. E., K. MacRitchie, J. Asuma, and T. Melino, 2010: Modulation of the Global Atmospheric Circulation by Combined Activity in the Madden Julian Oscillation and the El Nio/Southern Oscillation During Boreal Winter. J. Climate., 23, 4045-4059. |