iaar seminar 21 may 2013 aod trends over megacities based on space monitoring using modis and misr...
TRANSCRIPT
1
IAAR Seminar 21 May 2013
AOD trends over megacities based on space monitoring using MODIS and MISR
Pinhas Alpert1,2, Olga Shvainshtein1 and Pavel Kishcha1
1Department of Geophysical, Atmospheric and Planetary Sciences2Porter School of Environmental Studies
Tel Aviv UniversityAlpert, P., Alpert, P., Shvainshtein, O., KishchaSS, P. (2012), AOD trends over megacities based on space monitoring using MODIS and MISR. American Journal of Climate Change, accepted. Climate Change, accepted.
ted.
2
Alpert, P., Shvainshtein, O., Kishcha, P. (2012), “AOD trends over megacities based on space monitoring using MODIS and MISR “American Journal of Climate Change, 1, 117-131, doi:10.4236/ajcc.2012.13010 Published Online September 2012 (http://www.SciRP.org/journal/ajcc), 2012.
Can also be downloaded from my Publications Website:http://www.tau.ac.il/~pinhas/publications.htm
3
The research objectives
To explore the capability of satellite aerosol sensors in
detecting the impact of megacities on the Aerosol Optical
Depth (AOD).
To estimate the effect of urbanization on the AOD over the
largest cities in the world, by analyzing last decade
tendencies of the AOD.
4
The sensorsMODIS (Moderate Resolution Imaging Spectroradiometer)
MISR (Multi-angle Imaging
SpectroRadiometer)
Resolution (degrees) 1×1 0.5×0.5
Global coverage time
Every 1-2 days Every 9 days
Equator crossing: Terra10.30 a.m. –
local time (north to south)
Aqua13.30 a.m. – local time
(south to north )
10.30 a.m. – local time (north to south)
View angles 1 angle 9 different angles
MISR
5
Methodology and data
The 189 largest cities in the world with population exceeding 2 million were studied.
For each city we obtained the AOD and the cloud fraction data from GIOVANNI website.
GIOVANNI – GES-DISC Interactive Online Visualization ANd aNalysis Infrastructure.
GES DISC – Goddard Earth Sciences Data and Information Services Center
6
Methodology and data continued
MODIS and MISR have quite a limited opportunity to view aerosols if cloud cover is higher than 0.8. Thus, in order to minimize the AOD retrieval uncertainty, AOD data were used only for months with cloud fraction less than 0.7.
In order to ensure that satellite aerosol sensors could differentiate between AOD over megacities and over surrounding rural areas, an 8-year mean AOD distributions over 26 megacities were analyzed (> 10 million).
Thereafter the AOD trends were estimated both over the 58 largest cities in the world (>5 million) and also over 189 largest cities in the world (> 2 million).
Latitudinal distribution of AOD - 13 megacities (a) MODIS - Terra (b) MODIS – Aqua(8-year normalized mean)
Results
8
Latitudinal distributions of a normalized AOD averaged over the top 26 megacities.
9
Time periods Jul 2002 – Jun 2006 Jul 2006 – Jun 2010
The averaged AOD mean
A B
Calculation of the AOD trend
values [%]
Separation of the AOD trends into groups by sign and size of
the change
The decreasing tendency (C<0)
The increasing tendency (C>0)
(-5) - 0 0 - 5
(-5) - (-10) 5 - 10
< (-10) >10
10
The global distribution of the AOD tendencies during the 8-year period 2002-2010, based on MODIS-Terra
58 megacities (>5 million)
The global distribution of the AOD tendencies over the largest cities in the world
MODIS Terra
MISR
The global distribution of the AOD tendencies over the largest cities in the world
MODIS Terra
MODIS Aqua
13
The global distribution of the AOD tendencies during the 8-year period 2002-2010, based on MODIS-Terra
189 megacities (>2 million)
The global distribution of the AOD tendencies over the largest cities in the world
MODIS Terra
MISR
The global distribution of the AOD tendencies over the largest cities in the world
MODIS Terra
MODIS Aqua
16
The distribution of the AOD tendencies for each of the three sensors
Sensor AOD tendencyLatitudinal zones
Total45°S-15°S 15°S-15°N 15°N-45°N >45°N
MODIS Terraincreasing tendency 1 (5%) 9 (36%) 55 (44%) 4 (19%) 69 (37%)
decreasing tendency 18 (95%) 16 (64%) 69 (56%) 17 (81%) 120 (63%)
MODIS Aquaincreasing tendency 10 (53%) 13 (52%) 82 (66%) 9 (43%) 114 (60%)
decreasing tendency 9 (47%) 12 (48%) 42 (34%) 12 (57%) 75 (40%)
MISRincreasing tendency 8 (42%) 11 (44%) 69 (56%) 8 (38%) 96 (51%)
decreasing tendency 11 (58%) 14 (56%) 55 (44%) 13 (62%) 93 (49%)
17
ConclusionsSpace-born sensors MODIS and MISR seem to be
capable to differentiate between AOD over megacities and over surrounding rural areas.
The increasing AOD tendencies were observed over the majority of sites in the Indian subcontinent, the Middle East, North China, and in the countries of the Gulf of Guinea.
The declining AOD tendencies were dominant over the sites in Europe and the east part of North America, where effective air quality regulation has been established.
18
Conclusions continued
All three sensors (MODIS - Terra, MODIS - Aqua and MISR) show similar results of predominant AOD tendencies over all the aforementioned areas.
It was found that, overall the trends are:
(1) MODIS-Terra trends tend to be more negative (63%),
(2) MODIS-Aqua has a shift to more positive trends (60%) (3) MISR has approximately equal number of increasing and declining AOD trends