Presentation is loading. Please wait.

Presentation is loading. Please wait.

Tropical and subtropical convection in South Asia and South America

Published byEdgar Shields Modified over 5 years ago

Similar presentations

Presentation on theme: "Tropical and subtropical convection in South Asia and South America"— Presentation transcript:

1 Tropical and subtropical convection in South Asia and South America
Defensio dissertationis Tropical and subtropical convection in South Asia and South America Annual precipitation 5 10 15 20 [mm/d] Zipser et al. 2006 Ulrike Romatschke University of Washington, University of Vienna Meteorologisch-Geophysikalisches Kolloquium, December 13, 2010, University of Vienna

2 Fundamental question Why do convective systems occur and what factors determine the times and places of their occurrence?

3 Specific questions Physical properties Mechanisms
Horizontal and vertical size Convective or stratiform nature Rain rate Mechanisms Synoptic background Seasonal and diurnal changes Moisture Geography terrain shape, height, orientation, and gradient land versus ocean

4 Introduction

5 Regions

6 Data Tropical Rainfall Measuring Mission (TRMM) Precipitation Radar (PR) Resolution horizontal: 4.3 km x 4.3 km (5 km x 4.2 km) before (after) 08/2001 vertical: 250 m Area: 38°S to 38°N Swath width: 215 km (247 km) NCEP-NCAR reanalysis Resolution: 2.5˚ x 2.5˚ South Asia 1999 – 2006 MAM (premonsoon), JJAS (monsoon) South America: Dec – Feb. 2008 DJF

7 Publications Romatschke, U., S. Medina, and R. A. Houze, Jr., 2010: Regional, Seasonal, and Diurnal Variations of Extreme Convection in the South Asian Region, J. Climate, 23, Romatschke U., and R. A. Houze, Jr., 2010: Extreme Summer Convection in South America, J. Climate, 23, Romatschke U., and R. A. Houze, Jr., 2010: Characteristics of Precipitating Convective Systems in the South Asian Monsoon, J. Hydrometeorol., in press. Romatschke U., and R. A. Houze, Jr., 2010: Characteristics of Precipitating Convective Systems in the Premonsoon Season of South Asia, J. Hydrometeorol., in press.

8 Publications Romatschke, U., S. Medina, and R. A. Houze, Jr., 2010: Regional, Seasonal, and Diurnal Variations of Extreme Convection in the South Asian Region, J. Climate, 23, Romatschke U., and R. A. Houze, Jr., 2010: Extreme Summer Convection in South America, J. Climate, 23, Romatschke U., and R. A. Houze, Jr., 2010: Characteristics of Precipitating Convective Systems in the South Asian Monsoon, J. Hydrometeorol., in press. Romatschke U., and R. A. Houze, Jr., 2010: Characteristics of Precipitating Convective Systems in the Premonsoon Season of South Asia, J. Hydrometeorol., in press.

9 Publications Romatschke, U., S. Medina, and R. A. Houze, Jr., 2010: Regional, Seasonal, and Diurnal Variations of Extreme Convection in the South Asian Region, J. Climate, 23, Romatschke U., and R. A. Houze, Jr., 2010: Extreme Summer Convection in South America, J. Climate, 23, Romatschke U., and R. A. Houze, Jr., 2010: Characteristics of Precipitating Convective Systems in the South Asian Monsoon, J. Hydrometeorol., in press. Romatschke U., and R. A. Houze, Jr., 2010: Characteristics of Precipitating Convective Systems in the Premonsoon Season of South Asia, J. Hydrometeorol., in press.

10 Classification of Precipitating Convective Systems

11 Classification of Extreme radar echoes
Houze (2004)

12 Specific questions Physical properties Mechanisms
Horizontal and vertical size Convective or stratiform nature Rain rate Mechanisms Synoptic background Seasonal and diurnal changes Moisture Geography terrain shape, height, orientation, and gradient land versus ocean

13 Specific questions Physical properties Mechanisms
Horizontal and vertical size Convective or stratiform nature Rain rate Mechanisms Synoptic background Seasonal and diurnal changes Moisture Geography terrain shape, height, orientation, and gradient land versus ocean

14 Horizontal size and rain rates Examples: South Asian premonsoon and monsoon
10% 30%

15 Specific questions Physical properties Mechanisms
Horizontal and vertical size Convective or stratiform nature Rain rate Mechanisms Synoptic background Seasonal and diurnal changes Moisture Geography terrain shape, height, orientation, and gradient land versus ocean

16 Convective nature and rain rates Example: Medium systems in the South Asian Monsoon
Subregion

17 Specific questions Physical properties Mechanisms
Horizontal and vertical size Convective or stratiform nature Rain rate Mechanisms Synoptic background Seasonal and diurnal changes Moisture Geography terrain shape, height, orientation, and gradient land versus ocean

18 Specific questions Physical properties Mechanisms
Horizontal and vertical size Convective or stratiform nature Rain rate Mechanisms Synoptic background Seasonal and diurnal changes Moisture Geography terrain shape, height, orientation, and gradient land versus ocean

19 Broad stratiform regions
Synoptic background – Ocean: strong influence Examples: Bay of Bengal, western South Atlantic Large systems 500 mb geopot. height anom. Broad stratiform regions [m]

20 Synoptic background Land: influence in subtropics Example: Himalayan foothills – premonsoon – medium systems 500 mb geopotential height anomalies

21 Specific questions Physical properties Mechanisms
Horizontal and vertical size Convective or stratiform nature Rain rate Mechanisms Synoptic background Seasonal and diurnal changes Moisture Geography terrain shape, height, orientation, and gradient land versus ocean

22 Surface winds and specific humidity
Seasonal changes and moisture Example: wide convective cores in premonsoon and monsoon Premonsoon Premonsoon Surface winds and specific humidity Monsoon Monsoon Probability 10 m/s

23 Specific questions Physical properties Mechanisms
Horizontal and vertical size Convective or stratiform nature Rain rate Mechanisms Synoptic background Seasonal and diurnal changes Moisture Geography terrain shape, height, orientation, and gradient land versus ocean

24 Diurnal heating and geography Mountain ranges and divergence
Monsoon 06 UTC ~02 LT 00 UTC ~ 0530 LT Surface winds and divergence 18 UTC ~14 LT 12 UTC ~ 1730 LT

25 Broad stratiform regions
Diurnal heating and geography Ocean Examples: wide convective cores and broad stratiform regions Wide convective cores Broad stratiform regions Bay of Bengal South Atlantic

26 Diurnal heating and geography Ocean Example: wide convective cores in the South Atlantic

27 Diurnal heating and geography Example: Monsoon systems at the Himalayan foothills
[mm/h] Precipitation 12 UTC ~ 1730 LT 00 UTC ~ 0530 LT 00-06 LT 12-18 LT 0.6 Small 0.4 Medium 0.2

28 Diurnal heating and geography
Example: Monsoon wide convective cores at the Himalayan foothills Early Morning Evening Wide convective cores over land Mean Solar Time

29 Diurnal heating and geography Mountain ranges and divergence
EOF 1 of diurnal cycle of precipitation over land (adapted from Kikuchi and Wang 2008)

30 Diurnal heating and geography Sea-land-mountain effect Example: Medium systems in the South Asian monsoon 00-06 LT 12-18 LT

31 Diurnal heating and geography Capping effect Example: monsoon deep convective cores
Sawyer 1947

32 Winds and specific humidity
Diurnal heating and geography Capping effect Example: monsoon deep convective cores Winds and specific humidity Surface 500 mb

33 Specific questions Physical properties Mechanisms
Horizontal and vertical size Convective or stratiform nature Rain rate Mechanisms Synoptic background Seasonal and diurnal changes Moisture Geography terrain shape, height, orientation, and gradient land versus ocean

34 Mechanisms combine: synoptics Example: South American subtropics
500 mb geopotential height anomalies wide convective cores Surface winds [m]

35 Mechanisms combine: capping Example: South American subtropics
Deep convective cores Winds and specific humidity Surface 500 mb Deep convective cores

36 Mechanisms combine: Diurnal cycle Example: South American subtropics
Wide convective cores 06 UTC ~02 LT 23-05 LT 05-11 LT 11-17 LT 17-23 LT

37 Mechanisms combine: Diurnal cycle Example: South American subtropics
Broad stratiform regions 23-05 LT 05-11 LT 11-17 LT 17-23 LT

38 Conclusions More precipitation near mountains favored by
Large systems Systems with large convective fraction Synoptic influence on large systems Strong over oceans and in subtropics Moist large-scale environment Essential for existence and horizontal growth of convection Capping Extremely deep afternoon convection near mountains Diurnal cycle Small systems over mountains in daytime Medium (mesoscale) systems over foothills in morning Small/medium diurnal systems over coastal mountains Large ocean systems weakened by daytime converg. over land

39 Acknowledgements Prof. Houze
Dr. Medina and the Mesoscale Group at the University of Washington Prof. Grubišić and Dr. Volkert Prof. Meurers and Prof. Steinacker Family and friends Paul and Doris

40 Future work Precipitating convective systems in South America
Other seasons Other locations (Australia, Africa,…) Midlatitudes: Global Precipitation Measurement (GPM) data Combination with other satellite data CloudSat: Precipitating and non-precipitating systems Temporally contiguous satellite data Test hypotheses with mesoscale models Implement new knowledge in weather forecasting and climate models

Download ppt "Tropical and subtropical convection in South Asia and South America"

Similar presentations

“Traditional” terminology

“Traditional” terminology
Robert Houze University of Washington (with contributions from B. Smull) Winter MONEX Summer MONEX Presented at: International Conference on MONEX and.

Robert Houze University of Washington (with contributions from B. Smull) Winter MONEX Summer MONEX Presented at: International Conference on MONEX and.
Introduction to tropical meteorology and deep convection Roger K. Smith University of Munich.

Introduction to tropical meteorology and deep convection Roger K. Smith University of Munich.
R. A. Houze, Jr., U. Romatschke K. L. Rasmussen AGU Fall Meeting, Remote Sensing of Natural Hazards, San Francisco, 9 Dec 2011 Mesoscale Aspects of Storms.

R. A. Houze, Jr., U. Romatschke K. L. Rasmussen AGU Fall Meeting, Remote Sensing of Natural Hazards, San Francisco, 9 Dec 2011 Mesoscale Aspects of Storms.
NATS 101 Lecture 19 Monsoons. Supplemental References for Today’s Lecture Aguado, E. and J. E. Burt, 2001: Understanding Weather & Climate, 2 nd Ed. 505.

NATS 101 Lecture 19 Monsoons. Supplemental References for Today’s Lecture Aguado, E. and J. E. Burt, 2001: Understanding Weather & Climate, 2 nd Ed. 505.
Structure of mid-latitude cyclones crossing the California Sierra Nevada as seen by vertically pointing radar Socorro Medina, Robert Houze, Christopher.

Structure of mid-latitude cyclones crossing the California Sierra Nevada as seen by vertically pointing radar Socorro Medina, Robert Houze, Christopher.
Synoptic, Topographic, and Diurnal Effects on Summer Convection in South America Ulrike Romatschke University of Washington, University of Vienna Robert.

Synoptic, Topographic, and Diurnal Effects on Summer Convection in South America Ulrike Romatschke University of Washington, University of Vienna Robert.
Robert A. Houze, Jr., Darren C. Wilton, and Bradley F. Smull University of Washington Robert A. Houze, Jr., Darren C. Wilton, and Bradley F. Smull University.

Robert A. Houze, Jr., Darren C. Wilton, and Bradley F. Smull University of Washington Robert A. Houze, Jr., Darren C. Wilton, and Bradley F. Smull University.
Pakistan Flood 2010: P. J. Webster R. A. Houze, Jr. P. J. Webster R. A. Houze, Jr. International Weather & Climate Events of 2010, AMS Annual Meeting,

Pakistan Flood 2010: P. J. Webster R. A. Houze, Jr. P. J. Webster R. A. Houze, Jr. International Weather & Climate Events of 2010, AMS Annual Meeting,
The Effect of the Terrain on Monsoon Convection in the Himalayan Region Socorro Medina 1, Robert Houze 1, Anil Kumar 2,3 and Dev Niyogi 3 Conference on.

The Effect of the Terrain on Monsoon Convection in the Himalayan Region Socorro Medina 1, Robert Houze 1, Anil Kumar 2,3 and Dev Niyogi 3 Conference on.
Challenges in the study of the American Monsoon Systems Carolina Vera CIMA (UBA-CONICET) DCAO/Facultad de Ciencias Exactas y Naturales Buenos Aires, Argentina.

Challenges in the study of the American Monsoon Systems Carolina Vera CIMA (UBA-CONICET) DCAO/Facultad de Ciencias Exactas y Naturales Buenos Aires, Argentina.
Part 6. Current, Past, and Future Climates

Part 6. Current, Past, and Future Climates
The Effect of the Terrain on Monsoon Convection in the Himalayan Region Socorro Medina 1, Robert Houze 1, Anil Kumar 2,3 and Dev Niyogi 3 Cloud and Precipitation.

The Effect of the Terrain on Monsoon Convection in the Himalayan Region Socorro Medina 1, Robert Houze 1, Anil Kumar 2,3 and Dev Niyogi 3 Cloud and Precipitation.
U.S.-Taiwan Meeting, Boulder, 30 October 2006 Study of Intense Convection over Taiwan: Some Food for Thought R. Houze Study of Intense Convection over.

U.S.-Taiwan Meeting, Boulder, 30 October 2006 Study of Intense Convection over Taiwan: Some Food for Thought R. Houze Study of Intense Convection over.
Extreme Convection Near the Himalayas and Andes Gerald R. North Symposium, Texas A&M University, College Station, June 8, 2009 Robert A. Houze, Jr. Ulrike.

Extreme Convection Near the Himalayas and Andes Gerald R. North Symposium, Texas A&M University, College Station, June 8, 2009 Robert A. Houze, Jr. Ulrike.
Extreme Convection in South America as Seen by TRMM Ulrike Romatschke 1, 2 and Robert A. Houze, Jr. 1 1 University of Washington, 2 University of Vienna.

Extreme Convection in South America as Seen by TRMM Ulrike Romatschke 1, 2 and Robert A. Houze, Jr. 1 1 University of Washington, 2 University of Vienna.
The effect of terrain and land surface on summer monsoon convection in the Himalayan region Socorro Medina, Robert Houze, Anil Kumar, and Dev Niyogi 13.

The effect of terrain and land surface on summer monsoon convection in the Himalayan region Socorro Medina, Robert Houze, Anil Kumar, and Dev Niyogi 13.
The Tropical Cloud Population R. A. Houze Lecture, Indian Institute of Tropical Meteorology, Pune, 9 August 2010.

The Tropical Cloud Population R. A. Houze Lecture, Indian Institute of Tropical Meteorology, Pune, 9 August 2010.
Three-Dimensional Precipitation Structure of Tropical Cyclones AMS Hurricane and Tropical Meteorology Conference May 2nd, 2008 Deanna A. Hence and Robert.

Three-Dimensional Precipitation Structure of Tropical Cyclones AMS Hurricane and Tropical Meteorology Conference May 2nd, 2008 Deanna A. Hence and Robert.
Cirrus Production by Tropical Mesoscale Convective Systems Jasmine Cetrone and Robert Houze 8 February 2008.

Cirrus Production by Tropical Mesoscale Convective Systems Jasmine Cetrone and Robert Houze 8 February 2008.

Similar presentations

Ads by Google