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Mexico City: Confluence of complex meteorology and air pollution -
Photoacoustic measurements of aerosol light absorption and scattering at four sites in and
near Mexico City
Lupita Paredes-Miranda & W. Patrick ArnottAtmospheric Sciences ProgramUniversity of Nevada Reno, Physics Department MS/220AMS Student Chapter Presentation, Nov. 09, 2006
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REFERENCES AND ACKNOLEDGEMENTS
Jerome Fast: PNNL
Jeffrey Gaffney & Nancy Marley: University of Arkansas
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The MILAGRO field campaign was carried out in March 1-30, 2006 in Mexico City.
(fixed and mobile ground sites, aircraft, and satellites).
MCMA Mexico City Metropolitan Area (DOE, NSF, Mexico)
MAX-MEX Megacity Aerosol Experiment in Mexico City (DOE)
MIRAGE Megacities Impacts on Regional and Global Environment (NSF)
INTEX Intercontinental Chemical Transport Experiment (NASA, DOE, NSF)
Understand the local and global radiative and cloud micro physical impacts of aerosol from a large city, Mexico City.
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LAT N 19 00 LONG W 99Altitude 2240 m to 3700 m North to SouthArea: 1 964 375 Km²
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• ~23,000,000 people in 2005
• >4,000,000 Motor vehicles
About Mexico City…
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MEASUREMENT SITES• T0: Instituto Mexicano del Petroleo, Distrito Federal,
Northeast Mexico City.
• T1: University of Tecamac, Tecamac, north of Mexico City.
• T2: Rancho La Biznaga, Road to Pachuca Hidalgo, north of Mexico City.
• T3: Paseo De Cortes, Amecameca, 12,500’ ASL on the saddle between volcanos Popocatepetl (17,883’ ASL) and Iztaccihuatl (17,338’ ASL).
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Scale 25 miles between
IMP and U of Tecamac
Scale 65 miles between IMP and La Biznaga
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Local Meteorology
Teotihuacan
Chalco
Cuautitlan
UNAM
1) slope flows[Jauregui, Atmosfera,
1988]
2) gap wind[Doran and Zhong, JAM,
2000]
4700 m
3) density current[Bossert, JAM,1997]
3700 m
3500 m
2200 m
1300 m
IMADA 1997 radar wind profiler and sounding sites
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Biomass Burning Contributes to the Regional Air Pollution
MODIS Satellite Image 2 March 2004
marine stratus common biomass burning sites (red)
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Effects of Clouds How do clouds affect aerosol properties over central Mexico and does the
Mexico City plume significantly alter cloud evolution? What is the fraction of boundary layer particulates vented into the free
atmosphere through clouds? MODIS Satellite Image 31 March 2005
Mexico City
clouds often form over the mountains surrounding Mexico City during the dry season
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Air Pollution in Mexico City
• ~ 85% coming from fuel combustion• ~ 15% dust • ~ 44 x106 liters of burned fuel per year as follows:
25% industry, 11% housing, 9% power companies, and 55% in transportation
(REFERENCESecretaria del Medio Ambiente SMP: Government Department for the study of the Environment)
THIS TALK CONSIDERS…• Gaseous (NO2) and aerosol light absorption and scattering at sites T0, T1, T2 and T3, and interpretation.
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Sometimes transportation may pollute in a different way! Methane Makers…
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Relatively clean afternoon at T0, IMP (located in Northeast MC) looking southwest.
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Example of a morning when the Mexico City Plume Goes South to Popocatepetl volcano.
near forward scattering by particlessca = 30 degrees
r << r ~ r >>
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Photoacoustic instrumentation at the sites
• T0: IMP Mexico CityAbsorption and Scattering by particles and gaseous compounds: 532 nm
• T1: TECAMACAbsorption and Scattering by particles: 870 nm
• T2: LA BIZNAGAAbsorption by particles: 870 nm
• T3: AMECAMECA Mountains Absorption and Scattering by particles, 780nm
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Photoacoustic Instrument Schematic For Light Absorption Measurements
• Basic principles:• Laser light is power modulated by the chopper.
• Light absorbing aerosols convert light to heat - a sound wave is produced.
• Microphone signal is a measure of the light absorption.
• Light scattering aerosols don't generate heat.
Light(532 nm)
Air Inletto pumpPhoto-detectorMicrophoneChopper
Acoustical Resonator
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Schematic of the Photoacoustic instrument with scattering sensor
Sample InletSample Outlet
Input
Coupler
Output
Coupler
Piezoelectric
Transducer
Microphone and
Surrounds
RESONATOR
SECTION
COUPLING
SECTION
COUPLING
SECTION
Photodetector
C osine-
Weighted
Sensor.
Scattering
Measurement.
Fiber-coupled
to PMT.
LASER 1
LASER 2
LASER 3
Fiber 1
Fiber 3
Fiber 2
Culmination
Fiber
LASER
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Photoacoustic Instrument Details: Equation to Obtain Light Absorption Coefficient.
Light Absorption in Dimensions of Inverse Distance = Babs
B
abs
=
Pm
P
L
Ares
γ − 1
π2
f
0
Q
,
f0=ResonanceFrequency.=Q ResonatorQualityFacto .r
Pm=PeakAcousticPressureatf0.= Ratio of Isobaric andIsochoricSpecificHeatsForA .ir PL=PeakLaserBeamPower atf0.
=Q resonatorqualityf .actorAres= Resonator CrossSectionalA .rea
}From the piezoelectric sound source
γ
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Inlet System at T0
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TO Site Mexico City, Aerosol Optics for 532 nm
Aerosol Absorption: Note the day to day variability in the peak absorption, probably due to meteorology.
Aerosol Scattering: peaks later in the day than absorption, due to dust, OC, secondary organic aerosol, and inorganics.
00am
06am
12pm
06pm
12am
11
16
21
26
00am
06am
12pm
06pm
12am
11
21
16
26
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1 Day = 1 hr = 2 m/s wind speed = 4.48 mph Arrow tail marks the day and the hour of the day
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EASTERLIES
WESTERLIES
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00am
06am
12pm
06pm
12am
16 21 26 31 06 11
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00am
06am
12pm
06pm
12am
11 16 21 26 06 31
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00am
06am
12pm
06pm
12am
00am
06am
12pm
06pm
12am
11
16
21
26
11
16
21
26
TO Site Mexico City Light Scattering for 532 nm (G. Paredes & P.Arnott) and 550 nm (J. Gaffney &N. Marley)
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Particles, Electron Microscope, by R. Chakrabarty and C. Mazzoleni
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Gaseous Absorption, 532 nm, mostly NO2 (1/3 Mm-1 / ppb efficiency for absorption by NO2)
Note that gaseous absorption peaks 2 hours later in the day than particulate absorption. Peak particle absorption is 6x gaseous absorption peak.
GASEOUS AND PARTICULATE ABSORPTION
00am
06am
12pm
06pm
12am
00am
06am
12pm
06pm
12am
09
11 13
15 21 09
11
13
15
21
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Average Single Scattering Albedo: Scattering/Extinction
Morning rush hour.
Large amounts of black carbon
aerosol.
SecondaryOrganicAerosolformation (UV+VOCs)
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Average Single Scattering Albedo: Scattering/Extinction
Morning rush hour.
Large amounts of black carbon
aerosol.
Regional MixingIncreases
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Aerosol Optics for 870 nm @ T1 30 minute average data
T1 Tecamac University typically has large amounts of windblown dust in the afternoon.
00am
06am
12pm
06pm
12am
11
16
21
26
11
16
21
26
00am
06am
12pm
06pm
12am
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Cooling effectWarming effect
Morning rush hour.Large amounts of black carbon aerosol.
Afternoon.Well mixed atmosphere.
Regional SOA, dust and local emissions mix.
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Rancho La Biznaga, Mexico Rural Site: Absorption only, Long range plume transport from the south when level are higher.
11
16
21
26
00am
06am
12pm
06pm
12am
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Rural Mountain Site:, Long range plume transport from the north when level are higher.
06
11
16
21
26
06 31
00am
06am
12pm
06pm
12am
3100am
06am
12pm
06pm
12am
2621161106
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A Tale of 2 Cities…
Vegas: Jan thru Feb
Daily variations small
Mexico City: March 15
Sunrise: 6:45 am
Sunset: 6:45 pm
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Las Vegas Nevada sits in a basin
Site Location,
E Charleston
Typical Surface Wind Direction
Typical Wind Speed: 2 mph (daily average)
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A Tale of 2 Cities… Vegas: February 1, 2003
Sunrise: 6:42 am
Sunset: 5:07 pm
Lat N 35.2
Long W 115.2
City width 11 miles E-W
Wind Speed Ave 2.4 mph W-SW
Mexico City: March 15, 2006
Sunrise: 6:45 am
Sunset: 6:45 pm
Lat N 19.49
Long W 99.15
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SUMMARY
•Significant day to day variations of BC are observed due to meteorology in the Mexico City Basin.
•Peak gaseous absorption is approx. 2 hrs later in the day than peak particle absorption. Peak 30-minute-average aerosol absorption in Mexico City was 180 Mm-1. Heating effects on BL dynamics are likely.
•Daily single scattering albedos vary between 0.6 and 0.85 at 532 nm at the T0 site. Transportation dominates aerosol optics in the morning and secondary OC is important in the afternoon. Dust is also important at the T1 site.
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Working on an instrument at Gloria’s house in Mexico City. Thanks for the help, “ayuda”. Thanks for your attention.