Presentation is loading. Please wait.

Presentation is loading. Please wait.

Equatorial Annual Cycle Shang-Ping Xie IPRC/Met, University of Hawaii Ocean University of China PowerPoint file available at

Published byShanon Anderson Modified over 8 years ago

Similar presentations

Presentation on theme: "Equatorial Annual Cycle Shang-Ping Xie IPRC/Met, University of Hawaii Ocean University of China PowerPoint file available at"— Presentation transcript:

1 Equatorial Annual Cycle Shang-Ping Xie IPRC/Met, University of Hawaii Ocean University of China PowerPoint file available at http://iprc.soest.hawaii.edu/~xie/ppt/annual.ppt References Mitchell, T.P. and J.M. Wallace, 1992: The annual cycle in equatorial convection and sea surface temperature. J. Climate, 5, 1140-1156. Xie, S.-P., 1994: On the genesis of the equatorial annual cycle. J. Climate, 7, 2008-2013.

2 SST 165W, 20N 90W, Eq Galapagos SST and Precipitation

3 Calendar Month Nino3 std dev ENSO’s Seasonal Phase Locking

4 uvT Equatorial Annual Cycle  Why annual?  Why Strong in the east?  Why propagate westward?

5 Lukas and Firing (1985, J. Phys. Oceanogr.) xx xx yy yy  = A(x) e i[  t -  (x) ] A(x)  (x) cf. Horel (1982, Mon. Wea. Rev.)

6 Mar-Apr Aug-Sept SST, Precipitation and Surface Winds

7 August-May Difference Sea surface height (cm) cf. Mitchell and Wallace (1992) Sept-Mar SST & Wind Diff (COADS)

8 Buoy Measurements at 110W, Eq. From Xie (1994, JC)  Why is the annual cycle in h small in the Eq Pacific?

9 1D Ocean (coupling) Simple Theory of Equatorial Annual Cycle Linearization  How to make this coupled equation unstable? Hint: atmospheric model.

10  Northward displaced ITCZ ( >0)  Annual frequency (V’);  Tilt of the thermocline H(x)  Stronger annual cycle in the east;  Prevailing easterlies ( <0)  Westward phase propagation. (Xie 1994, J. Climate, p.2008) cf: Liu & Xie (1994, JAS) Evaporation: E= Upwelling: Xie 1998, J. Climate, Eq. (2.5), p. 191. -1< <0 cf: Giese & Carton (1994, JC); Chang (1996, JC)

11 0 |V|  Annual Annual V’ in both cases

12 Temperature along equator SST’ & u’ at Eq V eq - +

13 Xie 1994, J. Climate Model Results

14 Response to cross-equatorial winds Philander & Pacanowski (1981, Tellus)

15 SST Wind Cloud SST: Mean & Annual Harmonic

16 Sensitivity to the length of year SST xx yy 1 yr = 12 mon1 yr = 18 mon Giese and Carton (1994, JC)

17 Control Flux corrected Li and Hogan (1999, JC)

18 Control Annual-mean correction Seasonal correction Obs Li and Hogan (1999, JC) Improved the mean state (asymmetrical about the equator)  Annual cycle on the equator

19 Gordon et al. (2000, JC) Yu and Mechoso (1999, JC) Prescribed observed cloudiness in a CGCM  Improved the mean state (asymmetrical about the equator)  Seasonal forcing by cloud

20 0 o, Eq 110 o W, Eq Pacific Atlantic

21 Depth (m) Equatorial Annual Cycle in the Atlantic Ocean dynamics play a more important role Houghton (1983, JPO, p. 2070)

22 Annual-mean March-April July-August

23 I year Annual cycle in the equatorial oceans Mitchell and Wallace (1992) Role of Air-sea interaction

24 Seasonal cycle of equatorial zonal wind: (1) Local air-sea interaction U eq (m/s) April June Longitude CTL run APR run CTL-APR

25 Surface wind & precip Monsoon Effect June-April diff in APR run with cold tongue removed ITCZ Eq. Equatorward momentum advection Mean

26 Monsoon  Cold tongue Cold tongue effect CTL-APR anomalies in June Surface wind (m/s) and precipitation (mm/day) Monsoon effect June-April diff in APR run with cold tongue removed Okumura and Xie (2004, J. Climate)

27  Northward displaced ITCZ  Annual frequency (V’)  Tilt of the thermocline  Stronger annual cycle in the east  Prevailing easterlies  Westward phase propagation  While secondary in the eastern Pacific, ocean dynamics are important for equatorial annual cycle in the Atlantic.  Atlantic equatorial cycle is strongly influenced by continents and African monsoon in particular. Summary

28 Eq IO seasonal cycle: uncoupled in the central basin SST xx uouo Wyrtki jets SST  cloud: 1 yr Zonal wind & current: 0.5 yr

29 Cane and Sarachik (1981, JMR); Cane and Moore (1981, JPO) Cn= 163 cm/s, m = 1, Cn = 82 cm/s, m = 2, Basin-mode resonance at the semi-annual period Jensen (1993, JGR, 22 533-); Han et al. (1999, JPO, 2191-) T = 0.5 year ( period) L = 5, 6327 km (basin width) K K R wind

30 COADS Zonal Wind (m/s) Nov AVHRR SST (C, 5-day, 85-99) Nov easterly acceleration and SST response COADS SST (C) TOPEX/Poseidon SSH (cm) Nov

31 Thermocline depth control of SST variability Rms SST (1982-2003) Nov 0 Jun T/P SSH (cm) 20W 40W Yuko Okumura, U of Hawaii

Download ppt "Equatorial Annual Cycle Shang-Ping Xie IPRC/Met, University of Hawaii Ocean University of China PowerPoint file available at"

Similar presentations

The effect of doubled CO 2 and model basic state biases on the monsoon- ENSO system Andrew Turner, Pete Inness, Julia Slingo Walker Institute / NCAS-Climate.

The effect of doubled CO 2 and model basic state biases on the monsoon- ENSO system Andrew Turner, Pete Inness, Julia Slingo Walker Institute / NCAS-Climate.
The effect of doubled CO 2 and model basic state biases on the monsoon- ENSO system: the mean response and interannual variability Andrew Turner, Pete.

The effect of doubled CO 2 and model basic state biases on the monsoon- ENSO system: the mean response and interannual variability Andrew Turner, Pete.
TROPICAL -- EXTRATROPICAL CONNECTIONS INCLUDING MARK A. CANE LAMONT-DOHERTY EARTH OBSERVATORY OF COLUMBIA UNIVERSITY PALISADES, NY 10964 + PAUL GOODMAN.

TROPICAL -- EXTRATROPICAL CONNECTIONS INCLUDING MARK A. CANE LAMONT-DOHERTY EARTH OBSERVATORY OF COLUMBIA UNIVERSITY PALISADES, NY PAUL GOODMAN.
Ocean-Atmosphere Interaction: A Tropical Thermostat for Global Warming

Ocean-Atmosphere Interaction: A Tropical Thermostat for Global Warming
Analysis of Eastern Indian Ocean Cold and Warm Events: The air-sea interaction under the Indian monsoon background Qin Zhang RSIS, Climate Prediction Center,

Analysis of Eastern Indian Ocean Cold and Warm Events: The air-sea interaction under the Indian monsoon background Qin Zhang RSIS, Climate Prediction Center,
Variability of the Atlantic ITCZ Associated with Amazon Rainfall and Convectively Coupled Kelvin Waves Hui Wang and Rong Fu School of Earth and Atmospheric.

Variability of the Atlantic ITCZ Associated with Amazon Rainfall and Convectively Coupled Kelvin Waves Hui Wang and Rong Fu School of Earth and Atmospheric.
El Niño, La Niña and the Southern Oscillation

El Niño, La Niña and the Southern Oscillation
Double ITCZ Phenomena in GCM’s Marcus D. Williams.

Double ITCZ Phenomena in GCM’s Marcus D. Williams.
The causes of extreme rainfall in East Africa: insights from observed data and GCMs Emily Black, Julia Slingo and Ken Sperber.

The causes of extreme rainfall in East Africa: insights from observed data and GCMs Emily Black, Julia Slingo and Ken Sperber.
Axel Timmermann F.-F. Jin, J.-S. Kug & S. Lorenz Y. Okumura S.-P. Xie ENSO’s sensitivity to past and future climate change.

Axel Timmermann F.-F. Jin, J.-S. Kug & S. Lorenz Y. Okumura S.-P. Xie ENSO’s sensitivity to past and future climate change.
The ENSO : El Niño and the Southern Oscillation J.P. Céron (Météo-France) and R. Washington (Oxford University)

The ENSO : El Niño and the Southern Oscillation J.P. Céron (Météo-France) and R. Washington (Oxford University)
Semyon A. Grodsky and James A. Carton, University of Maryland, College Park, MD The PIRATA (PIlot Research Array moored in the Tropical Atlantic) project.

Semyon A. Grodsky and James A. Carton, University of Maryland, College Park, MD The PIRATA (PIlot Research Array moored in the Tropical Atlantic) project.
My Agenda for CFS Diagnostics Ancient Chinese proverb: “ Even a 9-month forecast begins with a single time step.” --Hua-Lu Pan.

My Agenda for CFS Diagnostics Ancient Chinese proverb: “ Even a 9-month forecast begins with a single time step.” --Hua-Lu Pan.
2. Natural Climate Variability

2. Natural Climate Variability
Role of Local Air-Sea Interaction in Tropical Atlantic Variability Shang-Ping Xie International Pacific Research Center University of Hawaii Atlantic El.

Role of Local Air-Sea Interaction in Tropical Atlantic Variability Shang-Ping Xie International Pacific Research Center University of Hawaii Atlantic El.
Response of the Atmosphere to Climate Variability in the Tropical Atlantic By Alfredo Ruiz–Barradas 1, James A. Carton, and Sumant Nigam University of.

Response of the Atmosphere to Climate Variability in the Tropical Atlantic By Alfredo Ruiz–Barradas 1, James A. Carton, and Sumant Nigam University of.
The 1997/98 ENSO event. Multivariate ENSO Index Index is based on 6 parameters relevant to phase.

The 1997/98 ENSO event. Multivariate ENSO Index Index is based on 6 parameters relevant to phase.
SSH anomalies from satellite. Observed annual mean state Circulation creates equatorial cold tongues eastern Pacific Trades -> Ocean upwelling along Equator.

SSH anomalies from satellite. Observed annual mean state Circulation creates equatorial cold tongues eastern Pacific Trades -> Ocean upwelling along Equator.
Chap. 3 Regional climates in tropics 3.1 Regional climates 3.2 Ocean circulations 3.3 Structure of the InterTropical Convergence Zone (ITCZ) 3.4 Monsoon.

Chap. 3 Regional climates in tropics 3.1 Regional climates 3.2 Ocean circulations 3.3 Structure of the InterTropical Convergence Zone (ITCZ) 3.4 Monsoon.
Modes of Tropical Climate Variability El Niño / Southern Oscillation Atlantic Niño Atlantic and Pacific Meridional Modes Indian Ocean Dipole  Observational.

Modes of Tropical Climate Variability El Niño / Southern Oscillation Atlantic Niño Atlantic and Pacific Meridional Modes Indian Ocean Dipole  Observational.

Similar presentations

Ads by Google