Urban Spatial Variation of Aerosols
Urban Spatial Variation of Aerosols
By:Kendra Brathwaite
Dr. Barbara CarlsonDr. Reginald BlakeKaren Padavatton
By:Kendra Brathwaite
Dr. Barbara CarlsonDr. Reginald BlakeKaren Padavatton
IntroductionIntroductionThe purpose of this project is to form a connection between the increase of aerosols in the atmosphere with the increase or large amount of individuals that have asthma. We picked at least four different areas in Manhattan that is near the NASA GISS (Goddard Institute for Space Studies ) and we made measurements with the sun photometer to find the amount of aerosols in the atmosphere. We went to several areas, located by zip code, that had a high and low percentage of individuals that had asthma. We found out this information through a survey done previously by other researchers. An aerosol study of New York City has been done to look at the spatial distribution of aerosols in the city instead of in just one specific location. We have used a sun photometer to conduct such research. By using the sun photometer in different areas of the city, we will also try to discover if the areas with a greater amount of aerosols have a greater effect on causing individuals to start developing the many signs or conditions of asthma. Aerosols from the surface can cause serious health complications because of their impact on he quality of the air.
The purpose of this project is to form a connection between the increase of aerosols in the atmosphere with the increase or large amount of individuals that have asthma. We picked at least four different areas in Manhattan that is near the NASA GISS (Goddard Institute for Space Studies ) and we made measurements with the sun photometer to find the amount of aerosols in the atmosphere. We went to several areas, located by zip code, that had a high and low percentage of individuals that had asthma. We found out this information through a survey done previously by other researchers. An aerosol study of New York City has been done to look at the spatial distribution of aerosols in the city instead of in just one specific location. We have used a sun photometer to conduct such research. By using the sun photometer in different areas of the city, we will also try to discover if the areas with a greater amount of aerosols have a greater effect on causing individuals to start developing the many signs or conditions of asthma. Aerosols from the surface can cause serious health complications because of their impact on he quality of the air.
Cycle of Atmospheric AerosolsCycle of Atmospheric Aerosols
What are Aerosols?What are Aerosols? Aerosols are small particles that
suspended in the Earth’s atmosphere Aerosol particles can cause a natural
haze in the troposphere. Aerosols can be washed out of the
Earth’s atmosphere by rain or some type of precipitation (hail, snow, etc…).
Aerosols can cause acid rain by possibly lowering the pH level of the rain.
Aerosols are known to scatter sunlight. They can block considerable sunlight
which causes cooling effect on the Earth’s climate.
Aerosols are small particles that suspended in the Earth’s atmosphere
Aerosol particles can cause a natural haze in the troposphere.
Aerosols can be washed out of the Earth’s atmosphere by rain or some type of precipitation (hail, snow, etc…).
Aerosols can cause acid rain by possibly lowering the pH level of the rain.
Aerosols are known to scatter sunlight. They can block considerable sunlight
which causes cooling effect on the Earth’s climate.
Source of AerosolsSource of Aerosols Aerosols originate from volcanoes, forest and grassland fire, living
vegetation, and dust storms. Aerosols also come from human activities such as the burning of
fossil fuels and agriculture.
Aerosols originate from volcanoes, forest and grassland fire, living vegetation, and dust storms.
Aerosols also come from human activities such as the burning of fossil fuels and agriculture.
Examples of AerosolsExamples of Aerosols• Dust Smoke Bacteria Salt Pollen Carbon Monoxide (CO) Nitrogen Dioxide (NO2) Smog (Ozone) Particulate Matter (PM 2.5 & PM 10) Asbestos (.PDF)• Tiny droplets of water Black Carbon
• Dust Smoke Bacteria Salt Pollen Carbon Monoxide (CO) Nitrogen Dioxide (NO2) Smog (Ozone) Particulate Matter (PM 2.5 & PM 10) Asbestos (.PDF)• Tiny droplets of water Black Carbon
What is asthma?What is asthma? A serious health disease,
caused mostly by allergens,that affects the respiratory system.
It causes a sudden attack of difficulty breathing, the constriction of the chest, coughing and wheezing.
A serious health disease, caused mostly by allergens,that affects the respiratory system.
It causes a sudden attack of difficulty breathing, the constriction of the chest, coughing and wheezing.
Causes of AsthmaCauses of Asthma Pollutants Wood dust Smoke Irritants Chemicals Viral infections Bacteria
Pollutants Wood dust Smoke Irritants Chemicals Viral infections Bacteria
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ResultsResultsFrom the historical data found, we have found out that the Bronx is the area that is the most polluted borough in New York City with PM2.5. When looking at different many individuals in the Bronx that have asthma or asthmatic symptoms. Another two areas in New York City that are highly polluted are Upper-Manhattan and Mid-Manhattan. It can also be proven by survey that the individuals in the areas could have been affected by the airborne pollutant, PM2.5 ,which can cause people to have asthma.
From the historical data found, we have found out that the Bronx is the area that is the most polluted borough in New York City with PM2.5. When looking at different many individuals in the Bronx that have asthma or asthmatic symptoms. Another two areas in New York City that are highly polluted are Upper-Manhattan and Mid-Manhattan. It can also be proven by survey that the individuals in the areas could have been affected by the airborne pollutant, PM2.5 ,which can cause people to have asthma.
Optical Depth vs. Wave Length Day 1
0
0.1
0.2
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400 500 600 700 800 900
Wave Length (nm)
Op
tical D
ep
th
day 1am
day 1pm
Power(day1 pm)Power(day1 am)
On day 1, the optical depth in the A.M. is lower than the optical depth of the P.M. This means that in the A.M., there were less aerosols present in the
atmosphere. Eventually as the day progressed, the amount of aerosols increased causing the sky to start getting a natural haze.
Optical Depth vs. Wave Length Day 2
0
0.1
0.2
0.3
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400 500 600 700 800 900
Wave Length (nm)
Op
tic
al D
ep
th
day 2am
day 2pm
Power(day 2am)Power(day 2pm)
On day 2, the optical depth in the A.M. is higher than the optical depth of the P.M..This basically means that in the A.M., there were more
aerosols present in the atmosphere. Eventually as the day progressed, the skies became clearer and their wasn’t as many aerosols present in the
atmosphere.
ConclusionConclusion
It can be concluded that individuals are at a high risk of getting asthma in New York City due to the spatial distribution of aerosols.
It can be concluded that individuals are at a high risk of getting asthma in New York City due to the spatial distribution of aerosols.
Future WorkFuture Work
To extend this project is to take more measurements at different sites around the city and even outside the city so that we can update the information that is available now. By doing this we can learn more about aerosols and really discover whether or not cities or urban areas are really sinks or sources of aerosols and whether cities accelerate the onset or the increases in cases of asthma.
To extend this project is to take more measurements at different sites around the city and even outside the city so that we can update the information that is available now. By doing this we can learn more about aerosols and really discover whether or not cities or urban areas are really sinks or sources of aerosols and whether cities accelerate the onset or the increases in cases of asthma.
Acknowledgements Acknowledgements NASA GISS (Goddard Institute for Space Studies) Center
Dr. Barbara Carlson
Dr. Reginald Blake
Ms. Laura Hatten: mentor for SHARP students
New York City College of Technology- CUNY
Medgar Evers College- CUNY
NASA SHARP (Summer High School Apprenticeship Research Program)
EPA (Environmental Protection Agency) website
NY DEC (New York State Department of Environmental Conservation)
NASA GISS (Goddard Institute for Space Studies) Center
Dr. Barbara Carlson
Dr. Reginald Blake
Ms. Laura Hatten: mentor for SHARP students
New York City College of Technology- CUNY
Medgar Evers College- CUNY
NASA SHARP (Summer High School Apprenticeship Research Program)
EPA (Environmental Protection Agency) website
NY DEC (New York State Department of Environmental Conservation)
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