Presentation is loading. Please wait.

Presentation is loading. Please wait.

East Carolina University Nick Guy (San José State University)

Published byJulia Monroe Modified over 10 years ago

Similar presentations

Presentation on theme: "East Carolina University Nick Guy (San José State University)"— Presentation transcript:

1 East Carolina University Nick Guy (San José State University)
Evolution of the African Monsoon during 2006 (Sahel Rainfall, African Easterly Waves and Atlantic Tropical Cyclones) Rosana Nieto Ferreira Tom Rickenbach East Carolina University Earle Williams (MIT) Nick Guy (San José State University) East Carolina University

2

3 Typical Hurricane Paths

4 Atlantic Tropical Cyclones
60% of all TCs during this period formed from AEW

5 North Carolina Tropical Cyclones
Season peak in Aug/Sep Half come from African Easterly Waves

6 Hurricane Floyd Bio Hurricane Dennis (1999)
Formed from an African Easterly Wave that left the coast of Africa on Aug 17 Category 2 hurricane Tropical Storm at landfall in NC on Sep 1 Hurricane Floyd (1999) Formed from an African Easterly Wave that left the coast of Africa on September 2 Category 4 hurricane category 2 (105 mph winds) at landfall on Sep 16 Hurricane Floyd Bio

7 What is an African Easterly Wave?
Like our own Jet Stream, cyclonic meandering in winds over West Africa favor the formation of storms

8 African Easterly Wave precursor to Hurricane Helene
AEW

9 African Easterly Wave precursor to Hurricane Helene

10 African Easterly Wave precursor to Hurricane Helene

11 African Easterly Wave precursor to Hurricane Helene

12 African Easterly Wave precursor to Hurricane Helene

13 African Easterly Wave precursor to Hurricane Helene

14 African Easterly Wave precursor to Hurricane Helene

15 African Easterly Wave precursor to Hurricane Helene

16 African Easterly Wave precursor to Hurricane Helene

17 African Easterly Wave precursor to Hurricane Helene

18 African Easterly Wave precursor to Hurricane Helene

19 African Easterly Wave precursor to Hurricane Helene

20 African Easterly Wave precursor to Hurricane Helene

21 African Easterly Wave precursor to Hurricane Helene

22 African Easterly Wave precursor to Hurricane Helene

23 African Easterly Wave precursor to Hurricane Helene

24 African Easterly Wave precursor to Hurricane Helene

25 African Easterly Wave precursor to Hurricane Helene

26 African Easterly Wave precursor to Hurricane Helene

27 African Easterly Wave precursor to Hurricane Helene

28 African Easterly Wave precursor to Hurricane Helene

29 African Easterly Wave precursor to Hurricane Helene

30 How do African Easterly Waves form?

31 African Easterly Jet (AEJ)
Statistics Summertime feature of the African Circulation 10-15 m/s centered at 15°N between mb strongest over West Africa and the east Atlantic AEJ Formation Mechanisms reversed meridional temperature gradient between warm Sahara and cool Gulf of Guinea Intertropical convergence zone (ITCZ) convection (e.g., Carson 69, Burpee 74, Reed et al 77, Norquist 77, Thorncroft and Hoskins 94)

32 West African Monsoon 10 N 20 N 30 N EQ 600 200 Latitude
Pressure (mb) Latitude ITCZ (Monsoon Rain) Sahara Warm Dry Air African Easterly Jet Cool Gulf of Guinea SSTs

33 West African Monsoon Circulation in the NCEP Reanalysis
(Sep , 20W-10E) TEJ AEJ Monsoon Westerlies Nieto-Ferreira and Suarez, in preparation

34 WITHOUT Easterly Waves
ITCZ only Simple Physics Model WITHOUT Easterly Waves Both NCEP Reanalysis (Sep , 20W-10E) Sahara only TEJ AEJ Monsoon Westerlies Nieto-Ferreira and Suarez, in preparation

35 WITH Easterly Waves Simple Physics Model NCEP Reanalysis
(Sep , 20W-10E) Both ITCZ only Sahara only TEJ AEJ Monsoon Westerlies Nieto-Ferreira and Suarez, in preparation

36 African Easterly Waves (AEW)
Statistics 15° N Wavelength ~ km Propagate westward at 8 m/s or 8°/day 29 waves during May-October (Thorncroft and Hodges, 01) Rainfall occurs ahead of the trough (e.g., Reed et al. 77, Gu et al. 04) Formation Mechanism Combined barotropic and baroclinic instability of the African Easterly Jet AEW Rain AEJ (e.g., Carson 69, Burpee 74, Norquist 77, Thorncroft and Hoskins 94)

37 How is African Easterly Wave Activity affected by rainfall in Africa?

38 1) AEW 2) ITCZ Two different regimes of rainfall in Equatorial Africa
2006 GPCP 1dd Rainfall - Niamey 2006 GPCP 1dd Rainfall - Abuja Niamey, Niger Abuja, Nigeria mean = mm = mm It rains almost every day in Abuja On average, 9mm per rainy day mean = mm = mm It rains every 3-5 days On average, 9 mm per rainy day

39 Mean rainfall per rainy day 17 mm
Two contrasting years in the Sahel GPCP Apr-Oct Rainfall 1997 15 rainy days with > 5 mm Mean rainfall per rainy day 17 mm Total ~ 255 mm 1999 29 rainy days with > 5 mm Mean rainfall per rainy day 18.8 mm Total ~ 528 mm Wet 99 Dry 97

40 African Easterly Waves
1997 ~12 AEW passed through Niamey 1999 ~20 AEW passed through Niamey mb Relative Vorticity (5N-15N) mb Relative Vorticity (5N-15N) Time West African Coastline 20W Niamey 2.5E + Rainfall > 5 mm Rainfall > 20 mm

41 Formed in African Easterly Waves Formed in African Easterly Waves
Two contrasting years in the Sahel - Tropical Cyclones 1997 1 of 8 Tropical Cyclones Formed in African Easterly Waves 1999 7 of 12 Tropical Cyclones Formed in African Easterly Waves mb Relative Vorticity (5N-15N) mb Relative Vorticity (5N-15N) H10 H7 8 H6 6 5 H3 H4 + Rainfall > 5 mm Rainfall > 20 mm In good agreement with Thorncroft and Hodges 2001

42 In general, we should expect more and stronger African Easterly Waves during wet years in the African Sahel but it is not the case that more African Easterly Waves result in more Atlantic tropical cyclones, at least not in interannual timescales…

43 AMMA - African Monsoon Multidisciplinary Analysis Field Campaign - Summer 2006

44 In 2006 Niamey rainfall was slightly below average for the 1997-2007 period

45 7 of 10 Atlantic Tropical Cyclones Formed in African Easterly Waves
2006 7 of 10 Atlantic Tropical Cyclones Formed in African Easterly Waves H6 H7 4 5 H8 H10 H9 mb Relative Vorticity (5N-15N) 27 rainy days with > 5 mm Mean rainfall per rainy day 15.4 mm Total ~ 416 mm + Rainfall > 5 mm Rainfall > 20 mm

46 H Helene H Gordon H Florence TS Debby H Ernesto TS Chris
mb Relative Vorticity (5N-15N) H Helene H Gordon H Florence TS Debby H Ernesto TS Chris

47 The 2006 African Monsoon in Niamey
H Helene’s African Easterly wave was captured by the Niamey radar

48 West African ‘Rainmakers’
Organized as squall lines: the largest, rainiest systems observed over land Squall lines feed back to reinforce African Easterly Waves Squall lines produce most of the monsoon rain vital to subsistence agriculture in West Africa African squall lines are “seedlings” for about half of all Atlantic hurricanes

49 MIT Radar - Niamey, Niger, West Africa
Squall line precursor to Hurricane Helene 8 September 2006

50 MIT Radar - Niamey, Niger, West Africa
Squall line precursor to Hurricane Helene 8 September 2006

51 MIT Radar - Niamey, Niger, West Africa
Squall line precursor to Hurricane Helene 8 September 2006

52 MIT Radar - Niamey, Niger, West Africa
Squall line precursor to Hurricane Helene 8 September 2006

53 MIT Radar - Niamey, Niger, West Africa
Squall line precursor to Hurricane Helene 8 September 2006

54 MIT Radar - Niamey, Niger, West Africa
Squall line precursor to Hurricane Helene 8 September 2006

55 MIT Radar - Niamey, Niger, West Africa
Squall line precursor to Hurricane Helene 8 September 2006

56 MIT Radar - Niamey, Niger, West Africa
Squall line precursor to Hurricane Helene 8 September 2006

57 MIT Radar - Niamey, Niger, West Africa
Squall line precursor to Hurricane Helene 8 September 2006

58 MIT Radar - Niamey, Niger, West Africa
Squall line precursor to Hurricane Helene 8 September 2006

59 MIT Radar - Niamey, Niger, West Africa
Squall line precursor to Hurricane Helene 8 September 2006

60 MIT Radar - Niamey, Niger, West Africa
Squall line precursor to Hurricane Helene 8 September 2006

61 MIT Radar - Niamey, Niger, West Africa
Squall line precursor to Hurricane Helene 8 September 2006

62 MIT Radar - Niamey, Niger, West Africa
Squall line precursor to Hurricane Helene 8 September 2006

63 MIT Radar - Niamey, Niger, West Africa
Squall line precursor to Hurricane Helene 8 September 2006

64 MIT Radar - Niamey, Niger, West Africa
Squall line precursor to Hurricane Helene 8 September 2006

65 MIT Radar - Niamey, Niger, West Africa
Squall line precursor to Hurricane Helene 8 September 2006

66 MIT Radar - Niamey, Niger, West Africa
Squall line precursor to Hurricane Helene 8 September 2006

67 MIT Radar - Niamey, Niger, West Africa
Squall line precursor to Hurricane Helene 8 September 2006

68 MIT Radar - Niamey, Niger, West Africa
Squall line precursor to Hurricane Helene 8 September 2006

69 MIT Radar - Niamey, Niger, West Africa
Squall line precursor to Hurricane Helene 8 September 2006

70 MIT Radar - Niamey, Niger, West Africa
Squall line precursor to Hurricane Helene 8 September 2006

71 MIT Radar - Niamey, Niger, West Africa
Squall line precursor to Hurricane Helene 8 September 2006

72 MIT Radar - Niamey, Niger, West Africa
Squall line precursor to Hurricane Helene 8 September 2006

73 MIT Radar - Niamey, Niger, West Africa
Squall line precursor to Hurricane Helene 8 September 2006

74 MIT Radar - Niamey, Niger, West Africa
Squall line precursor to Hurricane Helene 8 September 2006

75 MIT Radar - Niamey, Niger, West Africa
Squall line precursor to Hurricane Helene 8 September 2006

76 West African ‘Rainmakers’
Organized as squall line these are the largest, rainiest systems observed over land A toatl of 23 squall line-MCS like this one produced over 70 percent of the 2006 rainfall in Niamey

77 2006 African Monsoon was about average E-mail: ferreirar@ecu.edu
Conclusion 2006 African Monsoon was about average 23 squall line systems associated with African Easterly waves were the major rainmaker in the African Sahel in 2006 Rainfall in the Sahel is a good indicator of the number and strength of African Easterly Waves, but not a good indicator of the number of tropical cyclones in the Atlantic. The relationship between the strength of the African monsoon and the number of altantic hurricanes is not very strong in interannual timescales.

78 Ongoing Work Use a combination of the AMMA-Niamey radar, NCEP Reanalysis, GPCP rainfall datasets and a hierarchy of numerical models of the atmosphere to further improve our understanding of the two-way interaction between convection and synoptic-scale flow in the West African Monsoon

79 GPCP Rainfall and NCEP Reanalysis 700 mb Vorticity and Winds
8 Sep Niamey Squall Line

Download ppt "East Carolina University Nick Guy (San José State University)"

Similar presentations

FORECASTING ACTIVITIES DURING THE SOP THE WEST AFRICA SYNTHETIC ANALYSIS WASA/F APPROACH J.P. Lafore 1, Z. Mumba 2, P. Chapelet 1, N. Chapelon 1, M. Dufresne.

FORECASTING ACTIVITIES DURING THE SOP THE WEST AFRICA SYNTHETIC ANALYSIS WASA/F APPROACH J.P. Lafore 1, Z. Mumba 2, P. Chapelet 1, N. Chapelon 1, M. Dufresne.
6 th International Workshop on Tropical Cyclones Topic 4.1: Variability of Tropical Cyclone Activity/Intensity on Intraseasonal and Interannual Scales.

6 th International Workshop on Tropical Cyclones Topic 4.1: Variability of Tropical Cyclone Activity/Intensity on Intraseasonal and Interannual Scales.
ROLE OF THE INDIAN AND ATLANTIC OCEANS ON THE CLIMATE VARIABILITY OF EASTERN AFRICA Charles C. Mutai Kenya Meteorological Department P. O. Box 30259,

ROLE OF THE INDIAN AND ATLANTIC OCEANS ON THE CLIMATE VARIABILITY OF EASTERN AFRICA Charles C. Mutai Kenya Meteorological Department P. O. Box 30259,
Tropical Storms and Hurricanes

Tropical Storms and Hurricanes
Regional rainfall variability over Central Africa: What is influencing it?

Regional rainfall variability over Central Africa: What is influencing it?
Africa Group paper session, Monday 18 February 2008 Charlie Williams Climate modelling in AMMA Ruti, P. M., Hourding, F. & Cook, K. H. CLIVAR Exchanges,

Africa Group paper session, Monday 18 February 2008 Charlie Williams Climate modelling in AMMA Ruti, P. M., Hourding, F. & Cook, K. H. CLIVAR Exchanges,
NOAAs Atlantic Hurricane Season Outlooks By Dr. Gerry Bell Lead Seasonal Hurricane Forecaster Climate Prediction Center/ NOAA/NWS Hurricanes: Science and.

NOAAs Atlantic Hurricane Season Outlooks By Dr. Gerry Bell Lead Seasonal Hurricane Forecaster Climate Prediction Center/ NOAA/NWS Hurricanes: Science and.
The Inter-Tropical Convergence Zone. The greatest amount of rain falls across the coast of West Africa. Here rainfall can exceed 2000mm per year. The.

The Inter-Tropical Convergence Zone. The greatest amount of rain falls across the coast of West Africa. Here rainfall can exceed 2000mm per year. The.
Characteristics of Convection in an African Easterly Wave Observed During NAMMA Robert Cifelli, Timothy Lang, Steven A. Rutledge Colorado State University.

Characteristics of Convection in an African Easterly Wave Observed During NAMMA Robert Cifelli, Timothy Lang, Steven A. Rutledge Colorado State University.
Global Average Barometric Pressure: January

Global Average Barometric Pressure: January
Topic 12 El Niño GEOL 2503 Introduction to Oceanography.

Topic 12 El Niño GEOL 2503 Introduction to Oceanography.
The Structural Evolution of African Easterly Waves Matthew A. Janiga and Chris Thorncroft DEPARTMENT OF ATMOSPHERIC AND ENVIRONMENTAL SCIENCES University.

The Structural Evolution of African Easterly Waves Matthew A. Janiga and Chris Thorncroft DEPARTMENT OF ATMOSPHERIC AND ENVIRONMENTAL SCIENCES University.
GCM Scenarios for Regional Studies over West Africa Gregory S. Jenkins Department of Meteorology Penn State University.

GCM Scenarios for Regional Studies over West Africa Gregory S. Jenkins Department of Meteorology Penn State University.
Unit 9: Circulation Patterns of the Atmosphere

Unit 9: Circulation Patterns of the Atmosphere
TropicalM. D. Eastin Tropical Waves Composite of TRMM Rainfall and Ocean Surface Wind Anomalies April 2000-2003 Eastward propagating Kelvin waves From.

TropicalM. D. Eastin Tropical Waves Composite of TRMM Rainfall and Ocean Surface Wind Anomalies April Eastward propagating Kelvin waves From.
Tropical Revolving Storms Tropical Cyclogenesis Warm ocean waters - at least 26.5°C throughout a depth of 50m Unstable/moist atmosphere - rapid cooling.

Tropical Revolving Storms Tropical Cyclogenesis Warm ocean waters - at least 26.5°C throughout a depth of 50m Unstable/moist atmosphere - rapid cooling.
TropicalM. D. Eastin Tropical Cyclone Climatology Where do TCs occur? When? Why? How Many?

TropicalM. D. Eastin Tropical Cyclone Climatology Where do TCs occur? When? Why? How Many?
The Structure of AEWs in the CFSR and their Relationship with Convection.

The Structure of AEWs in the CFSR and their Relationship with Convection.
Green Events. Aug 3. 2006 DatePropagation Speed Lightning Stripe Length (degrees) Squall line length Aug. 315 m/s35 deg.770 km Additional Comments: AEJ.

Green Events. Aug DatePropagation Speed Lightning Stripe Length (degrees) Squall line length Aug. 315 m/s35 deg.770 km Additional Comments: AEJ.
Section 4: Synoptic Easterly Waves. 4.1 Introduction 4.2 The Mean State over West Africa 4.3 Observations of African Easterly Waves 4.4 Theory 4.5 Modeling.

Section 4: Synoptic Easterly Waves. 4.1 Introduction 4.2 The Mean State over West Africa 4.3 Observations of African Easterly Waves 4.4 Theory 4.5 Modeling.

Similar presentations

Ads by Google