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Bibliography

Borrmann et al., 1996

Borrmann, S., S. Solomon, J.E. Dye, and B. Luo, The potential of cirrus clouds for heterogeneous chlorine activation, 23, 2133-2136, 1996.

Hauchecorne et al., 1992

Hauchecorne, A., M.-L. Chanin, P. Keckhut, and D. Nedeljkovic, LIDAR monitoring of the temperature in the middle and lower atmosphere, App. Phys., B55, 29-34, 1992.

Heymsfield and Platt, 1984

Heymsfield, A.J., and C.M.R. Platt, A Parameterization of the particle size spectrum of ice clouds in terms of the ambient temperature and the ice water content, J. Atmos. Sci., 41, 846-855, 1984.

Jensen et al., 1999

Jensen, E.J., W.J. Read, J. Mergenthaler, B.J. Sandor, and L. Pfister, High humidities and subvisible cirrus near the tropical tropopause, 26, 2347-50, 1999.

Keckhut et al., 1993

Keckhut, P., A. Hauchecorne, and M.-L. Chanin, A critical review of the database acquired for the long-term Surveillance of the middle atmosphere by the French Rayliegh lidars, J. Atmos. Ocean., 10, 850-867, 1993.

Liou 1986

Liou, K.-N., Influence of cirrus clouds on weather and climate processes : A global perspective., Mon. Weather Rev., 114, 1167-1199, 1986.

Penner et al., 1999

Penner, J.E., D.H. Lister, D.J. Griggs, D. J. Dokken, and M. McFarland, Aviation and the Global Atmosphere: Special Report of the Intergovernmental Panel on Climate Change, Cambridge University Press, Cambridge, 1999.

Platt and Dilley, 1984

Platt, C.M.R., and A.C. Dilley, Determination of the cirrus particle single-scattering phase function from lidar and solar radiometric data, App. Opt., 23 (3), 380-386, 1984.

Riedi et al., 1999

Riedi, J., P. Goloub, R. Marchand, and H. Chepfer, Cloud thermodynamic phase from POLDER/ADEOS: Comparison with millimetre wave radar measurements and synoptic weather reports, In Proceedings of the Europto Conference on Satellite Remote Sensing of Clouds and the Atmosphere IV, 1999.

Roscow et al., 1996

Roscow, W.B., A.W. Walker, D.E. Beuschel, and M.D. Roiter, International Satellite Cloud Climatology Project (ISCCP),Documentation of new cloud datasets, World Climate Research Program (ICSU and WMO),Tech. Doc. WMO/TD 737, World Meteorol. Org., Geneva, 1996.

Rosenfield et al., 1998

Rosenfield, J.E., D.B. Considine, M.R. Schoeberl, and E.V. Browell, The impact of the subvisible cirrus clouds near the tropical tropopause on stratospheric water vapor, 25, 1883-1886, 1998.

Sassen and Cho, 1992

Sassen, K., and B.S. Cho, Subvisible-thin cirrus lidar dataset for satellite verification and climatological research, J. Appl. Meteor., 31, 1275-1285, 1992.

Sassen et al., 1989

Sassen, K., M.K. Griffin, and G.C. Dodd, Optical scattering and microphysical properties of subvisible cirrus clouds, and climatic implications, J. Appl. Meteor., 28, 91-98, 1989.

Wang et al., 1996

Wang, P.-H., P. Minnis, M.P. McCormick, G.S. Kent, and K.M. Skeens, A 6-Year climatology of cloud occurrences frequency from Stratospheric Aerosol and Gas Experiment II observations (1985-1990), 101, 29407-29429, 1996.

Wang et al., 1998

Wang, P.-H., P. Minnis, M.P. McCormick, G.S. Kent, G.K. Yue, D.F. Young, and K.M. Skeens, A study of the vertical structure of tropical (20 S-20 N) optically thin clouds from SAGE II observations, Atmos. Res., 47-48, 599-614, 1998.