| P52 | A Method for Ongoing Validation of Profiling Microwave Radiometer Water Vapour Products Using Radiosonde Data Agnew, J.; STFC Rutherford Appleton Laboratory, UNITED KINGDOM |
| P53 | Accuracy of Water Vapor Observations from in-situ and Remote Sensing Techniques: First Results from the DEMEVAP 2011 Campaign Bock, O.1; Pipis, K.1; Bosser, P.2; Thom, C.3; Pelon, J.4; Keckhut, P.4; Hoareau, C.4; Sarkissian, A.4; Bourcy, T.5; Poujol, G.5; Tzanos, D.6; Tournois, G.7; 1IGN, LAREG, FRANCE; 2IGN, ENSG, FRANCE; 3IGN, LOEMI, FRANCE; 4IPSL, LATMOS, FRANCE; 5Mto-France, DSO, FRANCE; 6Mto-France, CNRM, FRANCE; 7OAMP, OHP, FRANCE |
| P54 | Retrieving 2-D Water Vapor Fields with Two Microwave Radiometers Steinke, S.; Lhnert, U.; Crewell, S.; University of Cologne, GERMANY |
| P55 | Concentration Tropospheric Profiles in the Lagoon Environment of Venice Masieri, S.1; Premuda, M.2; Bortoli, D.3; Kostadinov, I.2; Petritoli, A.2; Ravegnani, F.2; Giovanelli, G.2; 1ISAC - CNR, CA' FOSCARI UV, ITALY; 2ISAC-CNR, ITALY; 3ISAC-CNR, CGE-UE, PORTUGAL |
| P56 | A 6-Year Water Vapor Raman Lidar Climatology (3-20 km) at the JPL-Table Mountain Facility, California Paper not available Leblanc, T.1; McDermid, I. S.2 1California Institute of Technology, Jet Propulsion Laboratory, UNITED STATES; 2Califonia Institute of Technology, UNITED STATES |
| P57 | AIRCRAFT OBSERVATIONS OF NOY ABOVE UK DURING RONOCO CAMPAIGN: IMPLICATION FOR ?ANS AND OZONE PRODUCTION Aruffo E.; CETEMPS/Universitá degli Studi dell'Aquila, ITALY |
| P58 | Caeli Water Vapour Raman Lidar Calibration at the Cabauw Experimental Site for Atmospheric Research Apituley, A.; Bosveld, F.; Klein Baltink, H.; Wilson, K.M. KNMI, NETHERLANDS |
| P59 | Airborne Lidar Observations of Water Vapour Variability and Transport Kiemle, C.1; Schaefler, A.1; Wirth, M.1; Fischer, L.2; Craig, G.C.2; 1DLR Institute for Atmospheric Physics, GERMANY; 2Meteorol. Inst. University of Munich, GERMANY |