| The atmospheric bridge: The influence of ENSO teleconnections on air–sea interaction over the global oceans MA Alexander, I Bladé, M Newman, JR Lanzante, NC Lau, JD Scott Journal of climate 15 (16), 2205-2231, 2002 | 2144 | 2002 |
| The Pacific decadal oscillation, revisited M Newman, MA Alexander, TR Ault, KM Cobb, C Deser, E Di Lorenzo, ... Journal of Climate 29 (12), 4399-4427, 2016 | 1127 | 2016 |
| Understanding ENSO diversity A Capotondi, AT Wittenberg, M Newman, E Di Lorenzo, JY Yu, ... Bulletin of the American Meteorological Society 96 (6), 921-938, 2015 | 1032 | 2015 |
| ENSO-forced variability of the Pacific decadal oscillation M Newman, GP Compo, MA Alexander Journal of Climate 16 (23), 3853-3857, 2003 | 866 | 2003 |
| A verification framework for interannual-to-decadal predictions experiments L Goddard, A Kumar, A Solomon, D Smith, G Boer, P Gonzalez, V Kharin, ... Climate Dynamics 40, 245-272, 2013 | 359 | 2013 |
| Stratiform precipitation, vertical heating profiles, and the Madden–Julian oscillation J Lin, B Mapes, M Zhang, M Newman Journal of the Atmospheric Sciences 61 (3), 296-309, 2004 | 285 | 2004 |
| Natural variation in ENSO flavors M Newman, SI Shin, MA Alexander Geophysical Research Letters 38 (14), 2011 | 214 | 2011 |
| Windows of opportunity for skillful forecasts subseasonal to seasonal and beyond A Mariotti, C Baggett, EA Barnes, E Becker, A Butler, DC Collins, ... Bulletin of the American Meteorological Society 101 (5), E608-E625, 2020 | 204 | 2020 |
| Reconciling disparate twentieth-century Indo-Pacific ocean temperature trends in the instrumental record A Solomon, M Newman Nature Climate Change 2 (9), 691-699, 2012 | 202 | 2012 |
| Medium-Range Forecast Errors Associated with Active Episodes of theMadden–Julian Oscillation HH Hendon, B Liebmann, M Newman, JD Glick, JE Schemm Monthly Weather Review 128 (1), 69-86, 2000 | 202 | 2000 |
| Interannual to decadal predictability of tropical and North Pacific sea surface temperatures M Newman Journal of climate 20 (11), 2333-2356, 2007 | 201 | 2007 |
| Distinguishing the roles of natural and anthropogenically forced decadal climate variability: implications for prediction A Solomon, L Goddard, A Kumar, J Carton, C Deser, I Fukumori, ... Bulletin of the American Meteorological Society 92 (2), 141-156, 2011 | 189 | 2011 |
| The general circulation of the Venus atmosphere: An assessment PJ Gierasch, RM Goody, RE Young, D Crisp, C Edwards, R Kahn, D Rider, ... Venus II: Geology, geophysics, atmosphere, and solar wind environment, 459-500, 1997 | 183 | 1997 |
| Relative contributions of synoptic and low-frequency eddies to time-mean atmospheric moisture transport, including the role of atmospheric rivers M Newman, GN Kiladis, KM Weickmann, FM Ralph, PD Sardeshmukh Journal of climate 25 (21), 7341-7361, 2012 | 151 | 2012 |
| Multiplicative noise and non-Gaussianity: A paradigm for atmospheric regimes? P Sura, M Newman, C Penland, P Sardeshmukh Journal of the atmospheric sciences 62 (5), 1391-1409, 2005 | 151 | 2005 |
| A caveat concerning singular value decomposition M Newman, PD Sardeshmukh Journal of Climate 8 (2), 352-360, 1995 | 149 | 1995 |
| A linear model of wintertime low-frequency variability. Part I: Formulation and forecast skill CR Winkler, M Newman, PD Sardeshmukh Journal of climate 14 (24), 4474-4494, 2001 | 148 | 2001 |
| Zonal winds in the middle atmosphere of Venus from Pioneer Venus radio occultation data M Newman, G Schubert, AJ Kliore, IR Patel Journal of the atmospheric sciences 41 (12), 1901-1913, 1984 | 134 | 1984 |
| The impact of the annual cycle on the North Pacific/North American response to remote low-frequency forcing M Newman, PD Sardeshmukh Journal of the Atmospheric Sciences 55 (8), 1336-1353, 1998 | 131 | 1998 |
| Decadal climate variability in the tropical Pacific: Characteristics, causes, predictability, and prospects S Power, M Lengaigne, A Capotondi, M Khodri, J Vialard, B Jebri, ... Science 374 (6563), eaay9165, 2021 | 126 | 2021 |
Michael AlexanderNOAA/Physical Sciences Laboratory在 noaa.gov 的电子邮件经过验证
