Research Center for Environmental Changes, Academia Sinica

Slides:

Advertisements

Similar presentations

1 PV Generation in the Boundary Layer Robert Plant 18th February 2003 (With thanks to S. Belcher)

Advertisements

Analysis of Eastern Indian Ocean Cold and Warm Events: The air-sea interaction under the Indian monsoon background Qin Zhang RSIS, Climate Prediction Center,

An intraseasonal moisture nudging experiment in a tropical channel version of the WRF model: The model biases and the moisture nudging scale dependencies.

Variability of the Atlantic ITCZ Associated with Amazon Rainfall and Convectively Coupled Kelvin Waves Hui Wang and Rong Fu School of Earth and Atmospheric.

The Problem of Parameterization in Numerical Models METEO 6030 Xuanli Li University of Utah Department of Meteorology Spring 2005.

Hurricanes and climate ATOC 4720 class22. Hurricanes Hurricanes intense rotational storm that develop in regions of very warm SST (typhoons in western.

Midlatitude Cyclones Equator-to-pole temperature gradient tilts pressure surfaces and produces westerly jets in midlatitudes Waves in the jet induce divergence.

Benjamin A. Schenkel and Robert E. AMS Tropical Conference 2012 Department of Earth, Ocean, and Atmospheric Science.

EASTERLY WAVE STRUCTURAL EVOLUTION OVER WEST AFRICA AND THE EAST ATLANTIC Matthew A. Janiga Department of Atmospheric and Environmental Sciences, University.

ATM S 542 Synoptic Meteorology Overview Gregory J. Hakim University of Washington, Seattle, USA Vertical structure of the.

A WRF Simulation of the Genesis of Tropical Storm Eugene (2005) Associated With the ITCZ Breakdowns The UMD/NASA-GSFC Users' and Developers' Workshop,

African Easterly Waves Figure from Chris Landsea.

4.4 Theory. 4.4 Theory (structures) km Wavelength Relative Vorticity 700hPa (10 -5 s -1 ) o N African Easterly Wave trough Average precipitation.

An introduction to the Inter-tropical Convergence Zone (ITCZ) Chia-chi Wang Dept. Atmospheric Sciences Chinese Culture University Acknowledgment: Prof.

Mechanisms of poleward propagating, intraseasonal convective anomalies in a cloud-system resolving model William Boos & Zhiming Kuang Dept. of Earth &

Typhoons and tropical cyclones

A Case Study of an Outbreak of Twin Tropical Cyclones Carl J. Schreck, III Department of Earth and Atmospheric Sciences University at Albany, SUNY.

General Circulation of the Atmosphere Lisa Goddard 19 September 2006.

Equatorial Atmosphere and Ocean Dynamics

Eric D. Maloney, Walter Hannah Department of Atmospheric Science

Mechanisms controlling ENSO: A simple hybrid coupled model study Cheng-Wei Chang 1 * and Jia-Yuh Yu 2 1. Institute of Geography, Chinese Culture University,

1 Introduction to Isentropic Coordinates: a new view of mean meridional & eddy circulations Cristiana Stan School and Conference on “the General Circulation.

AOSS 401, Fall 2007 Lecture 27 November 28, 2007 Richard B. Rood (Room 2525, SRB) Derek Posselt (Room 2517D, SRB)

Tropical Meteorology I Weather Center Event #4 Tropical Meteorology What is Tropical Meteorology? – The study of cyclones that occur in the tropics.

1.Introduction 2.Description of model 3.Experimental design 4.Ocean ciruculation on an aquaplanet represented in the model depth latitude depth latitude.

Modulation of eastern North Pacific hurricanes by the Madden-Julian oscillation. (Maloney, E. D., and D. L. Hartmann, 2000: J. Climate, 13, )

Sensitivity of Tropical Cyclone Inner-Core Size and Intensity to the Radial Distribution of Surface Entropy Flux Wang, Y., and Xu, 2010: Sensitivity of.

The Influence of Solar Forcing on Tropical Circulation JAE N. LEE DREW T. SHINDELL SULTAN HAMEED.

Benjamin A. Schenkel and Robert E. 4 th WCRP International Conference on Reanalyses Department of Earth, Ocean,

Benjamin A. Schenkel University at Albany, State University of New York, and Robert E. Hart, The Florida State University 6th Northeast.

MJO simulations under a dry environment Marcela Ulate M Advisor: Chidong Zhang (… in a Nudging World)

Formation processes of tripolar climate anomaly over East Asia in summer Nagio Hirota and Masaaki Takahashi CCSR, University of Tokyo 2008/6/23.

Diurnal Variations of Tropical Convection Ohsawa, T., H. Ueda, T. Hayashi, A. Watanabe, and J. Matsumoto, 2001 : Diurnal Variations of Convective Activity.

Regional Air-Sea Interactions in Eastern Pacific 6th International RSM Workshop Palisades, New York July 11-15, th International RSM Workshop Palisades,

The Linear and Non-linear Evolution Mechanism of Mesoscale Vortex Disturbances in Winter Over Western Japan Sea Yasumitsu MAEJIMA and Keita IGA (Ocean.

Tropical Cyclone Energy Dispersion in a Three-Dimensional Primitive Equation Model: Upper-Tropospheric Influence Ge X., T. Li, Y. Wang, and M. S. Peng,

Simple tropical models and their relationship to GCMs Adam Sobel, Columbia Chris Bretherton, U. Washington.

Atmospheric circulation

Interactions between the Madden- Julian Oscillation and the North Atlantic Oscillation Hai Lin Meteorological Research Division, Environment Canada Acknowledgements:

Overview of Tropical Cyclones AOS 453 April 2004 J. P. Kossin CIMSS/UW-Madison.

An idealized semi-empirical framework for modeling the MJO Adam Sobel and Eric Maloney NE Tropical Workshop, May

Role of the Gulf Stream and Kuroshio-Oyashio Systems in Large- Scale Atmosphere-Ocean Interaction: A Review Young-oh Kwon et al.

MJO and Tropical Cyclogenesis in the Gulf of Mexico and Eastern Pacific: Case Study and Idealized Numerical Modeling Lin Ching Aiyyer, A., and J. Molinari,

Contrasting Summer Monsoon Cold Pools South of Indian Peninsula Presented at ROMS/TOMS Asia-Pacific Workshop-2009, Sydney Institute of Marine Sciences,

An evaluation of a hybrid satellite and NWP- based turbulent fluxes with TAO buoys ChuanLi Jiang, Kathryn A. Kelly, and LuAnne Thompson University of Washington.

Lecture 11 Picking up pieces from previous lectures + – result of surface force balance – scales of motion – mesoscale systems: sea breeze, land breeze.

The Role of Tropical Waves in Tropical Cyclogenesis Frank, W. M., and P. E. Roundy 2006: The role of tropical waves in tropical cyclogenesis. Mon. Wea.

Large-scale transient variations of tropical deep convection forced with zonally symmetric SSTs Zhiming Kuang Dept. Earth and Planetary Sciences and School.

By S.-K. Lee (CIMAS/UM), D. Enfield (AOML/NOAA), C. Wang (AOML/NOAA), and G. Halliwell Jr. (RSMAS/UM) Objectives: (1)To assess the appropriateness of commonly.

Benjamin A. Schenkel University at Albany, State University of New York, and Robert E. Hart, The Florida State University 4 th.

A Subtropical Cyclonic Gyre of Midlatitude Origin John Molinari and David Vollaro.

Lecture 12 Rossby waves, propagation, breaking, climatic effects

African easterly wave dynamics in a full-physics numerical model. Gareth Berry and Chris Thorncroft. University at Albany/SUNY, Albany, NY,USA.

The Atmospheric Response to Changes in Tropical Sea Surface Temperatures An overview of Gill, A.E., 1980, Some simple solutions for heat- induced tropical.

The Active 2008 Atlantic Hurricane Season Links to Known Climate Factors Gerry Bell NOAA Lead Seasonal Hurricane Forecaster Climate Prediction Center.

Tropical dynamics and Tropical cyclones

ATM S 542 Synoptic Meteorology Overview

Tropical Convection and MJO

Oliver Elison Timm ATM 306 Fall 2016

Hurricane Vortex X L Converging Spin up Diverging Spin down Ekman

Introduction to the Tropics

The African Monsoon Region and the Tropical Atlantic

Impact of the vertical resolution on Climate Simulation using CESM

Mark A. Bourassa and Qi Shi

20th Century Sahel Rainfall Variability in IPCC Model Simulations and Future Projection Mingfang Ting With Yochanan Kushnir, Richard Seager, Cuihua Li,

Nonlinearity of atmospheric response

Tong Zhu and Da-Lin Zhang 2006:J. Atmos. Sci.,63,

Water Vapour Imagery and

Impacts of Air-Sea Interaction on Tropical Cyclone Track and Intensity

A Multiscale Numerical Study of Hurricane Andrew (1992)

Presentation transcript:

Research Center for Environmental Changes, Academia Sinica InterTropical Convergence Zone (ITCZ) Breakdown and Reformation in the Moist Atmosphere Chia-Chi Wang 王嘉琪 Research Center for Environmental Changes, Academia Sinica 中央研究院環境變遷研究中心

Outline Introduction of the ITCZ on the synoptic timescale (mainly ITCZ breakdown in the eastern Pacific) Model (Quasi-equilibrium Tropical Circulation Model, QTCM 1) and experiment designs Results and Discussion Concluding remarks

Climatological ITCZ Waliser and Gautier 1993. Averaged from 17 years of monthly Highly reflective cloud (HRC) data. The number of days per month the given grid point was covered by a large-scale deep convective system, subjectively determined.

ITCZ on the Synoptic Timescale HURSAT-Basin, VS, 19--27 Sept, 2000 Timescale ~ 1—3 weeks

GOES west 20—29 Aug, 2002, VS

QuikSCAT surface wind anomaly and relative vorticity QuikSCAT surface wind anomaly and relative vorticity. (mean: all available JJA wind) 2000/08/09 2000/08/07 2000/08/11 2000/08/13 QuikSCAT 0.5x0.5 1E-5 1/s

The produced disturbances VS images Aug. 22, 2000 Aug. 27, 2000 The produced disturbances QuikSCAT 0.25 x 0.25

Previous studies: modeling Hack et al. 1989, Schubert et al. 1991: used 2-D (lat—height) model to simulate the ITCZ. Heating produced PV gradient reversal is not unique about the formation of African waves (easterly waves). The ITCZ can induce its own breakdown (through barotropic instability). Guinn and Schubert 1993: (a f-plane one layer model) Hurricane spiral bands may be produced from ITCZ breakdown. Nieto Ferreira and Schubert 1997: Simulate barotropic aspects of ITCZ breakdown in lower troposphere in shallow water model. Wang and Magnusdottir 2005: simulate ITCZ breakdown in dry primitive equation model with different background flows.

Previous studies: data analysis Agee 1972: formation of tropical storm Anna from ITCZ wave disturbances. Wang and Magnusdottir 2006: survey 3 independent datasets (QuikSCAT, NCEP analysis, and GOES cloud images) over1999—2003 to count the occurrence of ITCZ breakdown (subjectively). ITCZ breakdown does happen frequently during summer and fall over the eastern Pacific. Magnusdottir and Wang 2008:spectral analysis on ERA-40 23-year 850hPa relative vorticity. Conclude that the ITCZ over the eastern north Pacific has strong wave-like signal on the synoptic timescale.

Importance An efficient way to pool vorticity in the tropics which represents the early stages of tropical cyclogenesis Understand the basic dynamics of the ITCZ on the synoptic timescale.

Quasi-Equilibrium Tropical Circulation Model 1 (QTCM 1) Two vertical modes: barotropical mode and the first baroclinic mode Good in deep convective areas 2 layer model outside convective areas

QTCM 1—cont. A form of Betts-Miller convective scheme Simple radiation scheme Bulk formulae in planetary boundary layer

Experiment design QTCM settings: domain: 360x157, 78.5S-78.5N (1x1 degree) Aqua-planet Prescribed uniform SST 300K Dry case (no moisture, radiation, sfc fluxes) Moist-on case All-physics-on case Budget analysis

Dry case Prescribed heating: 6 K/day, 5 days. Red dash line. 850 hPa

PE model result Day=5 Day=9 Day=7 Day=11 5 K /day peak on 600 hPa Wang and Magnusdottir(2005)

Moisture-on Relative vorticity 850 hPa

All-physics-on

QuikSCAT surface anomaly wind and relative vorticity QuikSCAT surface anomaly wind and relative vorticity. (mean: all available JJA wind) 2000/08/09 2000/08/07 2000/08/11 2000/08/13 QuikSCAT 0.5x0.5 1E-5 1/s

Evap (color), sfc wind speed (contour) and wind vector K K Contour interval 5 m/s

A disturbance can induce surface convergent flow on its southwest. Surface wind induces surface evaporation (energy source). wind-evaporation feedback The tail can be seen as a new ITCZ. The intensity is weak. Model resolution (in vertical modes and horizontal resolution. Strong numerical damping) Lifetime is controlled by large-scale wave propagation.

Budget analysis All-physics-on

Moist static energy equation Vertical moisture convergence Precipitation Moisture equation: Horizontal moisture convergence Temperature equation: Convective heating Horizontal energy convergence Vertical energy convergence M = Ms - Mq

Budget analysis:experiment design

horizontal Vertical (EXP 1 – control) vertical horizontal

horizontal Adiabatic cooling Adiabatic cooling (plotted with minus sign) horizontal

Moist static energy budget FTs Horizontal energy convergence Vertical energy convergence Evap Horizontal q Vertical energy

Budget analysis:experiment design

Prescribed horizontal moisture convergence (EXP 2) (EXP 2 – control)

Prescribed evaporation (EXP 3) (EXP 3 – control)

Budget analysis:experiment design Convection failed to develop Model over heated

Warmer SST (305K) (EXP 6) (EXP 6 – control) Hori_T Hori_q

Budget analysis:experiment design Stronger tail Domainant processes Contribution of horizontal moisture convergence may change, but this process is passive

Concluding remarks The breakdown is dominant by dry dynamic processes. In a moist atmosphere, a long tail appears on the southwest of a vortex. The development of the tail suggests a mechanism (positive wind-evaporation feedback) for quick reformation of an ITCZ (within a couple of days). Two major processes that maintain the tail is surface evaporation and vertical motion. Horizontal motion is a passive process. Energy source: Surface evaporation Energy sink: Vertical convergence

Concluding remarks—cont. The role of the tropical disturbance: disturbs the ITCZ and breaks it Induce a tail (a new convergence zone) on its southwest side The passage of large-scale waves can suppress the convection of the tail by modifying surface wind pattern.

Effect of Kelvin wave Thickened: Kelvin wave is filtered Solid lines Dashed lines

Future work The role of the ocean? Coupled with mixed layer ocean: Life time of the tail is shortened for a few days TMI SST (30-day high pass filtering): warmer SST before breakdown, cooler SST during/after breakdown. Coupled with simple ocean dynamics (ex. parameterized Ekman pumping) Different meridional SST gradients Coupled with daily SST (i.e., larger SST variation)

Warmer SST (305K) prescribed advq1