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The Ozone Hole October 2020
The total ozone maps are based on ground-based measurements available from the World Ozone and Ultraviolet Radiation Data Centre. Preliminary near real-time data from ground-based observations were also used for the most recent maps. Total ozone values are given in Dobson Units. The numbers represent observations taken from ground stations situated at the bottom left corner of the number. Maps of deviations represent total ozone deviations from the 1978-1988 level estimated using Total Ozone Mapping Spectrometer (TOMS) data for all areas except the Antarctic and from the pre-1980 level estimated using Dobson data over the Antarctic. Over areas with poor data coverage adjustments are made according to TOMS on Nimbus-7, Meteor-3, ADEOS and Earth Probe satellites. Over the polar night area Dobson and Brewer moon observations and/or NOAA's TIROS Operational Vertical Sounder (TOVS) satellite data are used. TOVS data are also used when the more reliable TOMS data are not available. The mapping algorithm is similar to those used by the WMO Ozone Mapping Centre. NOAA's TIROS Operational Vertical Sounder(TOVS)
NOAA's TIROS
Operational Vertical Sounder(TOVS) is a suite of three instruments: the
Microwave Sounding Unit(MSU), the High resolution Infrared Radiation
Sounder(HIRS), and the Stratospheric Sounding Unit(SSU). Each instrument
measures radiation emmitted by the Earth at several different wavelengths.
The HIRS channel 9 measures Earth's emmitted infrared radiation at
9.7 microns (10-6 meters). This is a "window channel"
meaning that the radiation measured by the HIRS instrument is emmited from
the earth's surface (as opposed to radiation being emmitted at other
levels of the earth's atmosphere). The amount of radiation reaching the
HIRS instrument is dependant upon how much ozone is in the earth's
atmosphere (less ozone = more radiation). Therefore, the TOVS Total Ozone
algorithm uses this channel (along with information from other HIRS
channels) to estimate the total amount of ozone in the earth's atmosphere.
The greatest
contribution of the emmitted radiation occurs in a region between 200
hPa and 30 hPa (13km to 27km). This "lower stratosphere" region is below
the levels where the
greatest contribution to the total ozone amount occurs(50hpa to 10hPa
or 20km to 30km). Thus the ozone amount measured by the TOVS Total Ozone
algorithm is not a true measure of the "total" amount of ozone in the
earth's atmosphere. Rather it is a better measure of the ozone amount in
the lower stratosphere. To obtain a "total" ozone amount, the TOVS Total
Ozone algorithm adjusts the lower stratosphere ozone amount by a
climatological amount that is variable with season and latitude.
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