Examinando por Autor "Bojkov, B."

Mostrando 1 - 2 de 2

Acceso Abierto
A trajectory-based estimate of the tropospheric ozone column using the residual method
(AGU Publishing, 2007-12-19) Schoeberl, M. R.; Ziemke, J. R.; Bojkov, B.; Livesey, N.; Duncan, B.; Strahan, S.; Froidevaux, L.; Kulawik, S.; Bhartia, P. K.; Chandra, S.; Levelt, P. F.; Witte, J. C.; Thompson, A. M.; Cuevas, E.; Redondas, A.; Tarasick, D. W.; Davies, J.; Bodeker, G.; Hansen, G.; Johnson, B. J.; Oltmans, S. J.; Vömel, H.; Allaart, M.; Kelder, H.; Newchurch, M.; Godin Beekmann, S.; Ancellet, G.; Claude, H.; Andersen, S. B.; Kyrö, Esko; Parrondo, María Concepción; Yela González, Margarita; Zablocki, G.; Moore, D.; Dier, H.; Von der Gathen, P.; Viatte, P.; Stübi, R.; Calpini, B.; Skrivankova, P.; Dorokhov, V.; De Backer, H.; Schmidlin, F. J.; Coetzee, G.; Fujiwara, M.; Thouret, V.; Posny, F.; Morris, G.; Merrill, J.; Leong, C. P.; Koenig Langlo, G.; Joseph, E.
[1] We estimate the tropospheric column ozone using a forward trajectory model to increase the horizontal resolution of the Aura Microwave Limb Sounder (MLS) derived stratospheric column ozone. Subtracting the MLS stratospheric column from Ozone Monitoring Instrument total column measurements gives the trajectory enhanced tropospheric ozone residual (TTOR). Because of different tropopause definitions, we validate the basic residual technique by computing the 200-hPa-to-surface column and comparing it to the same product from ozonesondes and Tropospheric Emission Spectrometer measurements. Comparisons show good agreement in the tropics and reasonable agreement at middle latitudes, but there is a persistent low bias in the TTOR that may be due to a slight high bias in MLS stratospheric column. With the improved stratospheric column resolution, we note a strong correlation of extratropical tropospheric ozone column anomalies with probable troposphere-stratosphere exchange events or folds. The folds can be identified by their colocation with strong horizontal tropopause gradients. TTOR anomalies due to folds may be mistaken for pollution events since folds often occur in the Atlantic and Pacific pollution corridors. We also compare the 200-hPa-to-surface column with Global Modeling Initiative chemical model estimates of the same quantity. While the tropical comparisons are good, we note that chemical model variations in 200-hPa-to-surface column at middle latitudes are much smaller than seen in the TTOR.
Acceso Abierto
Validation of Aura Microwave Limb Sounder Ozone by ozonesonde and lidar measurements
(AGU Publishing, 2007-12-15) Jiang, T. B.; Froidevaux, L.; Lambert, A.; Livesey, N. J.; Read, W. G.; Waters, J. W.; Bojkov, B.; Leblanc, T.; Mcdermid, I. S.; Godin-Beekmann, S.; Filipiak, M. J.; Harwood, R. S.; Fuller, R. A.; Daffer, W. H.; Drouin, B. J.; Cofield, R. E.; Cuddy, D. T.; Jarnot, R. F.; Knosp, B. W.; Perun, V. S.; Schwartz, M. J.; Snyder, W. V.; Stek, P. C.; Thurstans, R. P.; Wagner, P. A.; Allaart, M.; Andersen, S. B.; Bodeker, G.; Calpini, B.; Claude, H.; Coetzee, G.; Davies, J.; De Backer, H.; Dier, H.; Fujiwara, M.; Johnson, B.; Kelder, H.; Leme, N. P.; König Langlo, G.; Kyrö, Esko; Laneve, G.; Fook, L. S.; Merrill, J.; Morris, G.; Newchurch, M.; Oltmans, S.; Parrondo, María Concepción; Posny, F.; Schmidlin, F.; Skrivankova, P.; Stubi, R.; Tarasick, D.; Thompson, A.; Thouret, V.; Viatte, P.; Vömel, H.; Von der Gathen, P.
We present validation studies of MLS version 2.2 upper tropospheric and stratospheric ozone profiles using ozonesonde and lidar data as well as climatological data. Ozone measurements from over 60 ozonesonde stations worldwide and three lidar stations are compared with coincident MLS data. The MLS ozone stratospheric data between 150 and 3 hPa agree well with ozonesonde measurements, within 8% for the global average. MLS values at 215 hPa are biased high compared to ozonesondes by ∼20% at middle to high latitude, although there is a lot of variability in this altitude region. Comparisons between MLS and ground-based lidar measurements from Mauna Loa, Hawaii, from the Table Mountain Facility, California, and from the Observatoire de Haute-Provence, France, give very good agreement, within ∼5%, for the stratospheric values. The comparisons between MLS and the Table Mountain Facility tropospheric ozone lidar show that MLS data are biased high by ∼30% at 215 hPa, consistent with that indicated by the ozonesonde data. We obtain better global average agreement between MLS and ozonesonde partial column values down to 215 hPa, although the average MLS values at low to middle latitudes are higher than the ozonesonde values by up to a few percent. MLS v2.2 ozone data agree better than the MLS v1.5 data with ozonesonde and lidar measurements. MLS tropical data show the wave one longitudinal pattern in the upper troposphere, with similarities to the average distribution from ozonesondes. High upper tropospheric ozone values are also observed by MLS in the tropical Pacific from June to November.