ENSO and greenhouse warming
暂无分享,去创建一个
A. Timmermann | E. Guilyardi | G. Vecchi | M. Mcphaden | M. Collins | M. Watanabe | W. Cai | M. Lengaigne | A. Santoso | Lixin Wu | Guojian Wang | F. Jin | Ken Takahashi | K. Cobb | J. Kug | S. Yeh | S. An
[1] Bob Blakley,et al. Conceptual Model , 2017, Encyclopedia of GIS.
[2] Ken Takahashi,et al. Strong and moderate nonlinear El Niño regimes , 2016, Climate Dynamics.
[3] E. Guilyardi,et al. Understanding ENSO Diversity , 2015 .
[4] Yongqiang Yu,et al. A Further Study of ENSO Rectification: Results from an OGCM with a Seasonal Cycle , 2015 .
[5] Agus Santoso,et al. Increased frequency of extreme La Niña events under greenhouse warming , 2015 .
[6] Qinyu Liu,et al. Global Warming–Induced Changes in El Niño Teleconnections over the North Pacific and North America , 2014 .
[7] A. Timmermann,et al. Recent Walker circulation strengthening and Pacific cooling amplified by Atlantic warming , 2014 .
[8] C. Deser,et al. Nonlinear Controls on the Persistence of La Niña , 2014 .
[9] Agus Santoso,et al. Response of El Niño sea surface temperature variability to greenhouse warming , 2014 .
[10] Evan Weller,et al. Increased frequency of extreme Indian Ocean Dipole events due to greenhouse warming , 2014, Nature.
[11] Tao Zhang,et al. ENSO Asymmetry in CMIP5 Models , 2014 .
[12] F. Jin,et al. A Southern Hemisphere booster of super El Niño , 2014 .
[13] M. Mcphaden,et al. Assessing the Twenty-First-Century Shift in ENSO Variability in Terms of the Bjerknes Stability Index* , 2014 .
[14] G. Vecchi,et al. ENSO Modulation: Is It Decadally Predictable? , 2014 .
[15] Yongqiang Yu,et al. Rectification of El Niño–Southern Oscillation into Climate Anomalies of Decadal and Longer Time Scales: Results from Forced Ocean GCM Experiments , 2014 .
[16] Agus Santoso,et al. Recent intensification of wind-driven circulation in the Pacific and the ongoing warming hiatus , 2014 .
[17] S. Xie,et al. Tropical Biases in CMIP5 Multimodel Ensemble: The Excessive Equatorial Pacific Cold Tongue and Double ITCZ Problems* , 2014 .
[18] A. Timmermann,et al. Increasing frequency of extreme El Niño events due to greenhouse warming , 2014 .
[19] W. Cai,et al. The importance of the eastward zonal current for generating extreme El Niño , 2014, Climate Dynamics.
[20] J. Arblaster,et al. Nonlinear precipitation response to El Niño and global warming in the Indo-Pacific , 2014, Climate Dynamics.
[21] E. Guilyardi,et al. Late-twentieth-century emergence of the El Niño propagation asymmetry and future projections , 2013, Nature.
[22] G. Vecchi,et al. ENSO transition, duration, and amplitude asymmetries: Role of the nonlinear wind stress coupling in a conceptual model , 2013 .
[23] S. Power,et al. Robust twenty-first-century projections of El Niño and related precipitation variability , 2013, Nature.
[24] A. Timmermann,et al. Inferred changes in El Niño–Southern Oscillation variance over the past six centuries , 2013 .
[25] Yu Kosaka,et al. Recent global-warming hiatus tied to equatorial Pacific surface cooling , 2013, Nature.
[26] Edward R. Cook,et al. El Nino modulations over the past seven centuries , 2013 .
[27] Sukyoung Lee,et al. Recent multidecadal strengthening of the Walker circulation across the tropical Pacific , 2013 .
[28] E. Guilyardi,et al. ENSO representation in climate models: from CMIP3 to CMIP5 , 2013, Climate Dynamics.
[29] R. Lu,et al. Interdecadal enhancement of the walker circulation over the Tropical Pacific in the late 1990s , 2013, Advances in Atmospheric Sciences.
[30] D. E. Harrison,et al. El Niño Impacts on Seasonal U.S. Atmospheric Circulation, Temperature, and Precipitation Anomalies: The OLR-Event Perspective* , 2013 .
[31] F. Jin,et al. Sea surface temperature in the north tropical Atlantic as a trigger for El Niño/Southern Oscillation events , 2013 .
[32] R. Edwards,et al. Highly Variable El Niño–Southern Oscillation Throughout the Holocene , 2013, Science.
[33] Bin Wang,et al. A new paradigm for the predominance of standing Central Pacific Warming after the late 1990s , 2013, Climate Dynamics.
[34] C. Deser,et al. Slowdown of the Walker circulation driven by tropical Indo-Pacific warming , 2012, Nature.
[35] G. Vecchi,et al. Mean Climate Controls on the Simulated Response of ENSO to Increasing Greenhouse Gases , 2012 .
[36] Y. Masumoto,et al. Indian Ocean warming modulates Pacific climate change , 2012, Proceedings of the National Academy of Sciences.
[37] M. Collins,et al. Uncertainty in the ENSO amplitude change from the past to the future , 2012 .
[38] S. Stevenson. Significant changes to ENSO strength and impacts in the twenty‐first century: Results from CMIP5 , 2012 .
[39] M. Newman,et al. Reconciling disparate twentieth-century Indo-Pacific ocean temperature trends in the instrumental record , 2012 .
[40] A. Timmermann,et al. More extreme swings of the South Pacific convergence zone due to greenhouse warming , 2012, Nature.
[41] F. Jin,et al. Differences in Teleconnection over the North Pacific and Rainfall Shift over the USA Associated with Two Types of El Nino during Boreal Autumn , 2012 .
[42] F. Jin,et al. Corrigendum: Improved simulation of two types of El Niño in CMIP5 models , 2012 .
[43] S. McGregor,et al. Drivers of the projected changes to the Pacific Ocean equatorial circulation , 2012 .
[44] Karl E. Taylor,et al. An overview of CMIP5 and the experiment design , 2012 .
[45] S. An,et al. Recent and future sea surface temperature trends in tropical pacific warm pool and cold tongue regions , 2012, Climate Dynamics.
[46] Naomi Naik,et al. Does Global Warming Cause Intensified Interannual Hydroclimate Variability , 2012 .
[47] Seon Tae Kim,et al. Reversed Spatial Asymmetries between El Niño and La Niña and Their Linkage to Decadal ENSO Modulation in CMIP3 Models , 2011 .
[48] W. Cai,et al. Teleconnection Pathways of ENSO and the IOD and the Mechanisms for Impacts on Australian Rainfall , 2011 .
[49] C. Deser,et al. A Proposed Mechanism for the Asymmetric Duration of El Niño and La Niña , 2011 .
[50] Tong Lee,et al. El Niño and its relationship to changing background conditions in the tropical Pacific Ocean , 2011 .
[51] Ken Takahashi,et al. ENSO regimes: Reinterpreting the canonical and Modoki El Niño , 2011 .
[52] James D. Scott,et al. An empirical model of tropical ocean dynamics , 2011 .
[53] S. Xie,et al. Changes in the sea surface temperature threshold for tropical convection , 2010 .
[54] C. Deser,et al. Asymmetry in the Duration of El Niño and La Niña , 2010 .
[55] D. Dommenget,et al. El Niño and La Niña amplitude asymmetry caused by atmospheric feedbacks , 2010 .
[56] A. Timmermann,et al. Wind Effects on Past and Future Regional Sea Level Trends in the Southern Indo-Pacific* , 2010 .
[57] A. Timmermann,et al. The impact of global warming on the tropical Pacific Ocean and El Niño , 2010 .
[58] S. Gualdi,et al. The Double-ITCZ Syndrome in Coupled General Circulation Models: The Role of Large-Scale Vertical Circulation Regimes , 2010 .
[59] Matthieu Lengaigne,et al. Influence of the state of the Indian Ocean Dipole on the following year’s El Niño , 2010 .
[60] C. Deser,et al. Global warming pattern formation: sea surface temperature and rainfall. , 2010 .
[61] I. Kang,et al. Changes in El Niño and La Niña teleconnections over North Pacific–America in the global warming simulations , 2010 .
[62] G. Vecchi,et al. Contrasting the termination of moderate and extreme El Niño events in coupled general circulation models , 2010 .
[63] B. Kirtman,et al. El Niño in a changing climate , 2009, Nature.
[64] M. Mcphaden,et al. Asymmetry in zonal phase propagation of ENSO sea surface temperature anomalies , 2009 .
[65] H. Kao. Eastern Pacific and central Pacific types of ENSO , 2009 .
[66] M. Ohba,et al. Role of Nonlinear Atmospheric Response to SST on the Asymmetric Transition Process of ENSO , 2009 .
[67] I. Kang,et al. Successive Modulation of ENSO to the Future Greenhouse Warming , 2008 .
[68] Swadhin K. Behera,et al. El Niño Modoki and its possible teleconnection , 2007 .
[69] E. Tziperman,et al. Modulation of Westerly Wind Bursts by Sea Surface Temperature: A Semistochastic Feedback for ENSO , 2007 .
[70] G. Meehl,et al. Multi-model changes in El Niño teleconnections over North America in a future warmer climate , 2007 .
[71] Michael H. Glantz,et al. ENSO as an Integrating Concept in Earth Science , 2006, Science.
[72] G. Vecchi,et al. Weakening of tropical Pacific atmospheric circulation due to anthropogenic forcing , 2006, Nature.
[73] By,et al. Some simple solutions for heat-induced tropical circulation , 2006 .
[74] S. Vavrus,et al. Rethinking Tropical Ocean Response to Global Warming: The Enhanced Equatorial Warming* , 2005 .
[75] S. Bony,et al. Marine boundary layer clouds at the heart of tropical cloud feedback uncertainties in climate models , 2005 .
[76] M. Latif,et al. Tropical Pacific Decadal Variability and Its Relation to Decadal Modulations of ENSO , 2004 .
[77] Fei-Fei Jin,et al. Nonlinearity and Asymmetry of ENSO(. , 2004 .
[78] M. C. Wu,et al. Impacts of El Niño–Southern Oscillation Events on Tropical Cyclone Landfalling Activity in the Western North Pacific , 2004 .
[79] E. Guilyardi,et al. The March 1997 Westerly Wind Event and the onset of the 1997/98 El Niño: understanding the role of the atmospheric response , 2003 .
[80] A. Timmermann,et al. Strong El Niño events and nonlinear dynamical heating , 2003 .
[81] A. Timmermann,et al. A Nonlinear Theory for El Niño Bursting , 2003 .
[82] F. Jin,et al. Collective Role of Thermocline and Zonal Advective Feedbacks in the ENSO Mode , 2001 .
[83] Kevin E. Trenberth,et al. Indices of El Niño Evolution , 2001 .
[84] A. Fedorov,et al. Is El Nino changing? , 2000, Science.
[85] Bin Wang,et al. Interdecadal Change of the Structure of the ENSO Mode and Its Impact on the ENSO Frequency , 2000 .
[86] V. Kousky,et al. Climate Assessment for 1998 , 1999 .
[87] David B. Stephenson,et al. The “normality” of El Niño , 1999 .
[88] Michael J. McPhaden,et al. El Niño: The child prodigy of 1997-98 , 1999, Nature.
[89] Xufeng Niu,et al. Effect of El Niño on U.S. landfalling hurricanes, revisited , 1998 .
[90] De-Zheng Sun. El Niño: A coupled response to radiative heating? , 1997 .
[91] Min Zhong,et al. El Niño, La Niña, and the Nonlinearity of Their Teleconnections , 1997 .
[92] Fei-Fei Jin,et al. An Equatorial Ocean Recharge Paradigm for ENSO. Part I: Conceptual Model , 1997 .
[93] R. Seager,et al. Twentieth-Century Sea Surface Temperature Trends , 1997, Science.
[94] P. Tyson,et al. Sea-surface temperature fluctuations during the Holocene off the south coast of Africa: implications for terrestrial climate and rainfall , 1995 .
[95] P. Glynn,et al. Elimination of Two Reef-Building Hydrocorals Followingthe 1982-83 El Ni�o Warming Event , 1991, Science.
[96] David J. Karoly,et al. Southern Hemisphere Circulation Features Associated with El Niño-Southern Oscillation Events , 1989 .
[97] G. Merlen,et al. The impact of the 1982–1983 El Niño‐Southern Oscillation on seabirds in the Galapagos Islands, Ecuador , 1987 .
[98] C. Ropelewski,et al. Global and Regional Scale Precipitation Patterns Associated with the El Niño/Southern Oscillation , 1987 .
[99] Meteorology: Anomalous El Niño of 1982–83 , 1983, Nature.
[100] Anomalous El Niño of 1982-83 , 1983 .
[101] Brian J. Hoskins,et al. The Steady Linear Response of a Spherical Atmosphere to Thermal and Orographic Forcing , 1981 .
[102] John M. Wallace,et al. Planetary-Scale Atmospheric Phenomena Associated with the Southern Oscillation , 1981 .
[103] S. Xie,et al. Tropical Biases in CMIP5 Multimodel Ensemble: The Excessive Equatorial Pacific Cold Tongue and Double ITCZ Problems* , 2014 .