Model tropical Atlantic biases underpin diminished Pacific decadal variability

[1]  M. England,et al.  Model under-representation of decadal Pacific trade wind trends and its link to tropical Atlantic bias , 2018, Climate Dynamics.

[2]  D. Dommenget,et al.  May common model biases reduce CMIP5’s ability to simulate the recent Pacific La Niña-like cooling? , 2018, Climate Dynamics.

[3]  S. Coats,et al.  Are Simulated and Observed Twentieth Century Tropical Pacific Sea Surface Temperature Trends Significant Relative to Internal Variability? , 2017 .

[4]  D. Hartmann,et al.  La Niña–like Mean-State Response to Global Warming and Potential Oceanic Roles , 2017 .

[5]  G. Danabasoglu,et al.  Assessing the climate impacts of the observed Atlantic multidecadal variability using the GFDL CM2.1 and NCAR CESM1 global coupled models , 2017 .

[6]  D. E. Harrison,et al.  Simulating ENSO SSTAs from TAO/TRITON Winds: The Impacts of 20 Years of Buoy Observations in the Pacific Waveguide and Comparison with Reanalysis Products , 2017 .

[7]  S. Xie,et al.  Atlantic-induced pan-tropical climate change over the past three decades , 2016 .

[8]  F. Molteni,et al.  Atlantic forcing of Pacific decadal variability , 2016, Climate Dynamics.

[9]  C. Mechoso,et al.  Processes in the Pacific La Niña onset triggered by the Atlantic Niño , 2015, Climate Dynamics.

[10]  A. Timmermann,et al.  Combination Mode Dynamics of the Anomalous Northwest Pacific Anticyclone , 2015 .

[11]  Mark Carson,et al.  The Impact of Regional Multidecadal and Century-Scale Internal Climate Variability on Sea Level Trends in CMIP5 Models , 2015 .

[12]  A. Timmermann,et al.  Recent Walker circulation strengthening and Pacific cooling amplified by Atlantic warming , 2014 .

[13]  G. Meehl,et al.  Climate model simulations of the observed early-2000s hiatus of global warming , 2014 .

[14]  G. Meehl,et al.  Intensification of decadal and multi-decadal sea level variability in the western tropical Pacific during recent decades , 2014, Climate Dynamics.

[15]  Agus Santoso,et al.  Recent intensification of wind-driven circulation in the Pacific and the ongoing warming hiatus , 2014 .

[16]  E. Gerber,et al.  Impacts of the north and tropical Atlantic Ocean on the Antarctic Peninsula and sea ice , 2014, Nature.

[17]  Yu Kosaka,et al.  Recent global-warming hiatus tied to equatorial Pacific surface cooling , 2013, Nature.

[18]  R. Neale,et al.  The Mean Climate of the Community Atmosphere Model (CAM4) in Forced SST and Fully Coupled Experiments , 2013 .

[19]  M. Lengaigne,et al.  Decadal and long-term sea level variability in the tropical Indo-Pacific Ocean , 2013, Climate Dynamics.

[20]  Sukyoung Lee,et al.  Recent multidecadal strengthening of the Walker circulation across the tropical Pacific , 2013 .

[21]  Keith W. Dixon,et al.  Have Aerosols Caused the Observed Atlantic Multidecadal Variability , 2013 .

[22]  E. Guilyardi,et al.  ENSO representation in climate models: from CMIP3 to CMIP5 , 2013, Climate Dynamics.

[23]  M. England,et al.  Constraining Wind Stress Products with Sea Surface Height Observations and Implications for Pacific Ocean Sea Level Trend Attribution , 2012 .

[24]  Nicolas Bellouin,et al.  Aerosols implicated as a prime driver of twentieth-century North Atlantic climate variability , 2012, Nature.

[25]  Karl E. Taylor,et al.  An overview of CMIP5 and the experiment design , 2012 .

[26]  M. Maltrud,et al.  Regional sea level trends due to a Pacific trade wind intensification , 2011 .

[27]  Y. Masumoto,et al.  The reversal of the multi‐decadal trends of the equatorial Pacific easterly winds, and the Indonesian Throughflow and Leeuwin Current transports , 2011 .

[28]  J. Thepaut,et al.  The ERA‐Interim reanalysis: configuration and performance of the data assimilation system , 2011 .

[29]  J. Hansen,et al.  GLOBAL SURFACE TEMPERATURE CHANGE , 2010 .

[30]  S. Xie,et al.  Changes in the sea surface temperature threshold for tropical convection , 2010 .

[31]  A. Timmermann,et al.  Wind Effects on Past and Future Regional Sea Level Trends in the Southern Indo-Pacific* , 2010 .

[32]  P. Jones,et al.  The Twentieth Century Reanalysis Project , 2009 .

[33]  James J. Hack,et al.  A New Sea Surface Temperature and Sea Ice Boundary Dataset for the Community Atmosphere Model , 2008 .

[34]  Eric Guilyardi,et al.  The influence of a weakening of the atlantic meridional overturning circulation on ENSO , 2006 .

[35]  James J. Hack,et al.  The Climate Sensitivity of the Community Climate System Model Version 3 (CCSM3) , 2006 .

[36]  Elizabeth C. Kent,et al.  Global analyses of sea surface temperature, sea ice, and night marine air temperature since the late nineteenth century , 2003 .

[37]  S. Power,et al.  Inter-decadal modulation of the impact of ENSO on Australia , 1999 .

[38]  J. Wallace,et al.  A Pacific Interdecadal Climate Oscillation with Impacts on Salmon Production , 1997 .

[39]  T. Barnett,et al.  Sea Surface Temperature, Surface Wind Divergence, and Convection over Tropical Oceans , 1987, Science.

[40]  Papps To,et al.  Implications for projections , 1981 .

[41]  S. Power,et al.  Inability of CMIP5 Models to Simulate Recent Strengthening of the Walker Circulation: Implications for Projections , 2015 .

[42]  By,et al.  Some simple solutions for heat-induced tropical circulation , 2006 .

[43]  Daniel S. Wilks,et al.  Resampling Hypothesis Tests for Autocorrelated Fields , 1997 .

[44]  T. Matsuno,et al.  Quasi-geostrophic motions in the equatorial area , 1966 .