R. Saravanan Department of Atmospheric Sciences, Texas A&M University, College Station
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Transcript of R. Saravanan Department of Atmospheric Sciences, Texas A&M University, College Station
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The Role of the Wind-Evaporation-Sea Surface Temperature (WES) Feedback
in Tropical Climate Variability
R. SaravananDepartment of Atmospheric Sciences,Texas A&M University, College Station
Collaborators: S. Mahajan, P. Chang
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06-19-2008 CCSM Workshop 2008
Wind Evaporation SST (WES) Feedback
L
H
+
-
Equator
Positive Feedback
WIND
EVAPORATIONSST
++
-
T
T
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Role of WES Feedback
Asymmetric ITCZ about the equator (Xie, 2004)
Westward seasonal propagation of equatorial SST anomalies (Xie, 1994)
Tropical Atlantic variability (“Atlantic dipole”) (Chang et al., 1997)
Equatorward propagation of high-latitude cooling (Chiang and Bitz, 2005)
The WES feedback is featured in several hypotheses to explain the tropical mean climate and variability
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In previous studies, the role of the WES feedback has usually been inferred from statistical analysis or using simple analytical models.
Our approach: direct mechanistic tests
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Mechanistic ExperimentsCCM3-SOM:
T42 Spectral Resolution (2.8 x 2.8) 18 vertical levels SOM: spatially varying mixed layer
depth but constant in time Prescribed sea-ice Q-flux adjustment
WIND
EVAPORATIONSST
+WIND
SST
+EVAPORATION
Control Run WES off Run
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Experimental Set-up
Heat Flux Bulk Formulations: LH Flux = u*(qs- q*)B SH Flux = u*(Ts-T*)D
u* = reference height wind speedq* = specific humidity at reference heightqs = specific humidity at surface
T* = Temperature at reference heightTs = Temperature at surface
B, D: Bulk Coefficients
WIND
SST
+EVAPORATION
WES off: Prescribe u* while computing Fluxes
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Experimental Set-up
Experiment Set 1: To understand the variability associated with WES feedback Control Run: 80 years WES-off-SOM Run: 80 years
Experiment Set 2: To study the Equatorial Annual Cycle WES-off-NoANN Run: 40 years
• u* prescribed as annual mean, no seasonal cycle
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WES Feedback and SST Variability
% Change in SST variance : Control run - WES off ANN RunSpring Season
% Change(K2)(mm/day)2
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Tropical Atlantic Variability
CCM3-SOM
WES-off-SOM
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WES Feedback and SST Anomaly Propagation
Strong seasonal cycle in the E.Pacific because of shallow mixed layer
SST anomalies propagate westward Control Run
SST AnomalyLongitude Longitude
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Annual Cycle of SST and LHFLX
Equatorial Pacific
(2S-2N)
Control Run WES-off-SOM Run
SST
LHFLX
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Chiang and Bitz (2005)
Last Glacial Maximum (LGM) sea-ice anomalies
Drier and colder higher and mid-latitudes
Increased easterlies lead to evaporative cooling
WES Feedback: SST front moves southwards and moves ITCZ southwards
Equatorward propagation of cold anomalies
QuickTime™ and aTIFF (Uncompressed) decompressor
are needed to see this picture.
Changes in surface temperature and precipitation as compared to a control run.
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Experimental Set-up: Tropical Response to High Latitude
Cooling
Experiment Set 4: Prescribe Last Glacial
Maximum (LGM) sea-ice anomalies in the Northern Hemisphere:• Control Run: CCM3-SOM-
SICE• WES-off Run: WES-off-
SICE
Sea-ice extent January:
Current conditions
Sea-ice extent January:
CCM3-SOM-SICE/ LGM
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Surface Temperature Response to High Latitude Cooling
Control Case WES-off Case
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Tropical Response to High Latitude Cooling
Control Case WES-off Case
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SUMMARY
Even though it is a boundary layer phenomenon, WES feedback can produce non-local (cross-equatorial) atmospheric response to SST anomalies
Responsible for a significant portion of tropical Atlantic variability, and a smaller portion of tropical Pacific variability
Controls the westward propagation of annual cycle of equatorial SST
Plays a role in shifting ITCZ under LGM sea-ice conditions, but less so than originally proposed
In addition to surface windspeed, near surface humidity is also a very important factor in controlling tropical variability.
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Introduction: WES Feedback
Thermodynamic air-sea coupling
Weaker than dynamic coupling (Bjerknes feedback)
Boundary layer phenomenon
Non-local effects
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WES Feedback and ITCZ
Rainfall: Control Run - WES off ANN Run
Rainfall (mm/day)
Spring Season
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CCM3 Runs: Mean State
LH Flux: Control Run - WES off ANN Run
LH Flux (W/m2)
Spring Season
(W/m2)
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Equatorial Annual CycleSeasonal Cycle of zonal winds (U) over Equatorial Pacific (2S-2N) for Control Run and the WES-off-Run
Control Run WES-off-SOM Run
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Seasonal Cycle of SST, q over Equatorial Pacific (2S-2N) for Control Run and the WES-off-Run
Control Run
WES-off-SOM Run
Equatorial Annual Cycle
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Atlantic Meridional Mode
Coupled Mode Variability:
• SVD pattern of SST (color) and LHFLX (contours) for Control Run and the WES-off-Run.
• Regression of surface winds on first PC of SST
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Introduction: Roles of WES Feedback
1. ITCZ Asymmetry: Equatorial Ocean upwelling (Xie and Philander, 1994) North-west alignment of Americas and north-west
African bulge (Philander et al. 1996) Stratus cloud-SST feedback (Philander et al., 1996) WES feedback (Xie, 1996)
Annual Mean Climatological SST and Rainfall (Source: Xie 2005)
Time-Latitude section of SST, winds and precipitation over the eastern Pacific and Atlantic (Source: Xie 2005)
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Introduction: Roles of the WES Feedback
2. Equatorial Annual Cycle: Westward Propagation
Annual Mean Climatology: SST (Reynolds and Smith), precipitation (CMAP) and winds (SODA) (Wang et al., 2004)
+
Equatorial Section Schematic EW
Ocean Temperature: TOGA-TAO mooring data at the equator and 110 W (Xie, 1994)
LH
+
LH
+
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3. Atlantic Meridional Mode
Introduction: Roles of the WES Feedback
PC analysis (Ruiz-Barrados et al., 2000)
Dipole Mode: Regression of dipole index onto SST for a RGO coupled to an empirical atmospheric model with no dynamic feedback but allowing for thermodynamic feedback (Chang et al., 1997)
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4. Atlantic response to ENSO
Introduction: Roles of the WES Feedback
Large scale impacts of ENSO on vertical motions (Klein et al., 1999)
Correlation between ENSO index and upper tropospheric humidity, cloud cover (ISCCP) and insolation (ERBE) (Klein et al., 1999)
Correlation between Atlantic SST and Nino3 index in spring (Saravanan and Chang, 2000)
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WES Feedback
Traditional Approach: Stand-alone AGCM or OGCM Coupled Model
• Enhanced variability of the coupled model indicates feedback mechanisms.
Our Approach: WES-off-Experiments: CCM3 coupled to a Slab Ocean Model
(SOM) Switch off the WES feedback Comparison would reveal its role
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WES Variability
Change in the variability of Latent Heat Flux, SST for the spring season between a Control Run and the WES-off-Run
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WES Variability
Change in the variability of Precipitation, Surface Winds for the spring season between a Control Run and the WES-off-Run
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06-19-2008 CCSM Workshop 2008
WES: Tropical Response to High Latitude Cooling
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06-19-2008 CCSM Workshop 2008
WES: Tropical Response to High Latitude Cooling
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06-19-2008 CCSM Workshop 2008
WES: Tropical Response to High Latitude Cooling
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06-19-2008 CCSM Workshop 2008
WES: Tropical Response to High Latitude Cooling
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Experimental Set-up: ENSO
Experiment Set 3: Forced ENSO variability over the
Atlantic:• Artificial 4 year ENSO SST cycle
prescribed over Tropical Pacific• EOF pattern from observations• Multiplied with a cosine function:
• Time period: 4 years• Amplitude: 1 of Nino 3 index
• ENSO forced control run: CCM3-SOM-ENSO
• ENSO forced WES-off run: WES-off-ENSO
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WES: Atlantic Response to ENSO
ENSO Response: Coupled Mode Variability:
• SVD pattern of SST (color) and LHFLX (contours) for CCM3-SOM-ENSO and the WES-off-ENSO.
• Regression of surface winds on first PC of SST
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06-19-2008 CCSM Workshop 2008
WES: Tropical Response to High Latitude Cooling
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WES: Atlantic Response to ENSO
Atlantic Response to ENSO:
• Regression of April-May-June SST(K) and January-Feb-March net surface heat flux (W/m2) on January ENSO index for CCM3-SOM-ENSO
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06-19-2008 CCSM Workshop 2008
WES: Atlantic Response to ENSO
Atlantic Response to ENSO:
• Partitioning of January-Feb-March net surface heat flux (W/m2)
• Regression of LHFLX and SHFLX on January ENSO index for CCM3-SOM-ENSO
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06-19-2008 CCSM Workshop 2008
WES: Atlantic Response to ENSO
Partitioning LHFLX:
• LHFLX = - (u*q) Lvap
• LHFLX’ = - (u*’ <q> + <u*>q’) Lvap
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06-19-2008 CCSM Workshop 2008
WES: Atlantic Response to ENSO
Role of the WES Feedback:
• Reduced SST response in the WES-off-SOM run
CCM3-SOM-ENSO WES-off-ENSO
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06-19-2008 CCSM Workshop 2008
WES: Atlantic Response to ENSO
Role of the WES Feedback:
• Amplification of wind response in the presence of WES feedback
CCM3-SOM-ENSO WES-off-ENSO
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06-19-2008 CCSM Workshop 2008
WES: Atlantic Response to ENSO
CCM3-SOM-ENSO WES-off-ENSO
Role of the WES Feedback:
• Regression of April-May-June surface specific humidity on the ENSO January index for CCM3-SOM-ENSO and WES-off-ENSO runs.
• Less cross-equatorial transport of moisture in the absence of WES feedback
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06-19-2008 CCSM Workshop 2008
WES: Atlantic Response to ENSO
CCM3-SOM-ENSO WES-off-ENSO
Role of the WES Feedback: ITCZ response
• Regression of April-May-June precipitation on the ENSO January index for CCM3-SOM-ENSO and WES-off-ENSO runs.
• Subsidence during El-Nino events
• Northward movement of the ITCZ during El-Nino events only in the presence of WES feedback