Climate of Mesoamerica and Caribbean

1. Climate of Mesoamerica and Caribbean Prepared by Adam Carpenter, based on research by Amy Huff, Battelle

2. Climate Overview • Subtropical to tropical • Rainfall 150cm (60in) to 380cm (150in) • Dry and rainy seasons, based on the Intertropical Convergence Zone (ITCZ)

3. ITCZ • Low pressure near the equator • NW and SE trade winds meeting • Band of heavy precipitation • Moves with the seasons

4. Seasons • April to November: Rainy Season • November to February: Transition Period • February to April: Dry Season

5. El Niño Southern Oscillation (ENSO) • Irregularly occurring global climate phenomenon every 2-7 years • NE Trade Winds Reduced • Dry Season Lengthened http://winds.jpl.nasa.gov/images/winds_over_ocean2.gif

6. La Niña • Essentially opposite of El Niño • Rainy season extended • Higher rainfall may cause: • Flooding • Landslides • Runoff http://www-das.uwyo.edu/~geerts/cwx/notes/chap12/lanina_walker.gif

7. Wind and Hurricanes • Wind is primarily easterly • Rainfall tends to be on Atlantic side of elevation • Hurricane’s often form in the Atlantic • June 1 to November 30 is main season • Peaks in September http://www.essc.psu.edu/essc_web/news/images/hurricane.jpg

8. Weather Characteristics • In the Caribbean, often heavy rain in afternoon due to on-shore flow • Wider temperature changes inland, both day-to-night and over the year

9. Regional Overview of Aerosol Optical Depth (AOD) for Mesoamerica and the Caribbean

10. AOD & PM Overview • Aerosol Optical Depth (AOD) measures absorbed/reflected light by particulate matter (PM) • Major PM sources • Local Agricultural Fires: April-May Peak • Smoke and Dust from Africa & South America: June-July Peak • Reduced PM during rainy season

11. 0 0.2 0.4 0.6 0.8 1 May 2007 January 2007 September 2007 February 2007 October 2007 June 2007 March 2007 July 2007 November 2007 April 2007 August 2007 December 2007

12. General Guidelines: Interpreting Air Quality based on Meteorology

13. Main Components of AQ • Concentration of Pollutants • Factors that increase or decrease pollutants • Air mass

14. Wind Speed and Direction • High winds (>10mph, 5m/s) improve AQ • Low winds allow buildup of pollutants • Winds from cities and agriculture tend to be reduce AQ • Winds from off shore or “clean areas” tend to improve AQ

15. Height of Boundary Layer and Vertical Mixing • A higher boundary layer promotes better AQ: • More space for pollutants to dilute into • Greater vertical mixing promotes better air quality • Pollutants more likely to move away from ground http://www.esrl.noaa.gov/research/themes/pbl/img/fig1.jpg

16. Precipitation and Cloud Cover • Cloud Cover tends to improve AQ: • Blocks sunlight which decreases Ozone • Precipitation also tends to improve AQ: • Rain “grabs” pollutants in the air as it falls http://www.allthegoodness.com/images/evap_09_clouds.jpg

17. Frontal Boundaries • AQ poor ahead of cold fronts, good after it passes. • Warm fronts tend to cause poor AQ, especially when they are slow moving http://www.atmos.millersville.edu/~lead/clip_image002_0001.jpg

18. High and Low Pressure Systems • High pressure systems tend to cause poor air quality because of: • Clear, sunny skies • Light winds and limited vertical mixing • Low pressure systems tend to cause good air quality because of: • Reduce ozone with cloud cover • Reduce PM with heavy rain http://www.crh.noaa.gov/lmk/soo/docu/wx_cyclone2.gif