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Simulations of ENSO Phase-Locking in CMIP5 and CMIP6
by
Chen, Han-Ching
, Jin, Fei-Fei
in
Amplitude
/ Amplitudes
/ Annual variations
/ Climate models
/ Dynamics
/ El Nino
/ El Nino phenomena
/ El Nino-Southern Oscillation event
/ ENSO
/ ENVIRONMENTAL SCIENCES
/ Frequency dependence
/ Growth rate
/ Histograms
/ INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY
/ Interannual variability
/ La Nina
/ La Nina events
/ Locking
/ Meteorology & Atmospheric Sciences
/ Modelling
/ Modulation
/ Phase transitions
/ Sea surface
/ Sea surface temperature
/ Seasonal cycle
/ Seasons
/ Simulation
/ Southern Oscillation
/ Thermocline
2021
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Simulations of ENSO Phase-Locking in CMIP5 and CMIP6
by
Chen, Han-Ching
, Jin, Fei-Fei
in
Amplitude
/ Amplitudes
/ Annual variations
/ Climate models
/ Dynamics
/ El Nino
/ El Nino phenomena
/ El Nino-Southern Oscillation event
/ ENSO
/ ENVIRONMENTAL SCIENCES
/ Frequency dependence
/ Growth rate
/ Histograms
/ INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY
/ Interannual variability
/ La Nina
/ La Nina events
/ Locking
/ Meteorology & Atmospheric Sciences
/ Modelling
/ Modulation
/ Phase transitions
/ Sea surface
/ Sea surface temperature
/ Seasonal cycle
/ Seasons
/ Simulation
/ Southern Oscillation
/ Thermocline
2021
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While trying to remove the title from your shelf something went wrong :( Kindly try again later!
Do you wish to request the book?
Simulations of ENSO Phase-Locking in CMIP5 and CMIP6
by
Chen, Han-Ching
, Jin, Fei-Fei
in
Amplitude
/ Amplitudes
/ Annual variations
/ Climate models
/ Dynamics
/ El Nino
/ El Nino phenomena
/ El Nino-Southern Oscillation event
/ ENSO
/ ENVIRONMENTAL SCIENCES
/ Frequency dependence
/ Growth rate
/ Histograms
/ INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY
/ Interannual variability
/ La Nina
/ La Nina events
/ Locking
/ Meteorology & Atmospheric Sciences
/ Modelling
/ Modulation
/ Phase transitions
/ Sea surface
/ Sea surface temperature
/ Seasonal cycle
/ Seasons
/ Simulation
/ Southern Oscillation
/ Thermocline
2021
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Journal Article
Simulations of ENSO Phase-Locking in CMIP5 and CMIP6
2021
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Overview
The characteristics of El Niño–Southern Oscillation (ENSO) phase-locking in observations and CMIP5 and CMIP6 models are examined in this study. Two metrics based on the peaking month histogram for all El Niño and La Niña events are adopted to delineate the basic features of ENSO phase-locking in terms of the preferred calendar month and strength of this preference. It turns out that most models are poor at simulating the ENSO phase-locking, either showing little peak strength or peaking at the wrong seasons. By deriving ENSO’s linear dynamics based on the conceptual recharge oscillator (RO) framework through the seasonal linear inverse model (sLIM) approach, various simulated phase-locking behaviors of CMIP models are systematically investigated in comparison with observations. In observations, phase-locking is mainly attributed to the seasonal modulation of ENSO’s SST growth rate. In contrast, in a significant portion of CMIP models, phase-locking is codetermined by the seasonal modulations of both SST growth and phase transition rates. Further study of the joint effects of SST growth and phase transition rates suggests that for simulating realistic winter peak ENSO phase-locking with the right dynamics, climate models need to have four key factors in the right combination: 1) correct phase of SST growth rate modulation peaking at the fall, 2) large-enough amplitude for the annual cycle in growth rate, 3) small amplitude of semiannual cycle in growth rate, and 4) small amplitude of seasonal modulation in SST phase transition rate.
Publisher
American Meteorological Society
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