The ozone datasets for total column ozone include total ozone and total ozone observations and the vertical
ozone profile includes lidar, ozonesonde, Umkehr N - value and C - Umkehr.
Beekmann, M., G. Ancellet, G. Megie, H.G.J. Smit, and D. Kley, Intercomparison campaign for vertical
ozone profiles including electrochemical sondes of ECC and Brewer - Mast type and a ground based UV - differential absorption lidar, J. Atmos.
Not exact matches
Ozone is one of the current WOUDC data classes and includes these data categories: total column ozone (two levels: daily and hourly values), lidar vertical profiles, ozonesonde vertical profiles, and Umkehr (two levels: N - value and C - Umkehr) vertical prof
Ozone is one of the current WOUDC data classes and
includes these data categories: total column
ozone (two levels: daily and hourly values), lidar vertical profiles, ozonesonde vertical profiles, and Umkehr (two levels: N - value and C - Umkehr) vertical prof
ozone (two levels: daily and hourly values), lidar vertical
profiles, ozonesonde vertical
profiles, and Umkehr (two levels: N - value and C - Umkehr) vertical
profiles.
Ozone data set categories include total column ozone and vertical profile data from lidar measurements, ozonesonde flights, and the Umkehr techn
Ozone data set categories
include total column
ozone and vertical profile data from lidar measurements, ozonesonde flights, and the Umkehr techn
ozone and vertical
profile data from lidar measurements, ozonesonde flights, and the Umkehr technique.
For more than thirty years, NASA research - driven missions, such as the EOS, have pioneered remote sensing observations of the Earth's climate,
including parameters such as solar irradiance, the Earth's radiation budget,
ozone vertical
profiles, and sea surface height.
The present scope
includes accurately monitoring column
ozone with Dobson spectrophotometers globally, monitoring the
ozone profile at key sites, monitoring all relevant chlorine - and bromine - containing compounds globally, improving and developing new instrumentation, conducting laboratory studies of newly proposed chemicals, and using statistical models to test the observations for signs of
ozone layer recovery.
Retrieved variables from CrIS and ATMS
include temperature, moisture, and pressure
profiles, surface emissivity and temperature, total - column
ozone, and additional possible data products such as trace gases (CO, N2O, CH4, and CO2).