Previous: Ongoing work Up: Ext. Abst.

7. References

Ansmann, A., J. Bosenberg, G. Brogniez, S. Elouragini, P. H. Flamant, K. Klapheck, H. Linn, L. Menenger, W. Michaelis, M. Riebesel, C. Senff, P-Y. Thro, U. Wadinger and C. Weitkamp, 1993: Lidar network observations of cirrus clouds morphological and scattering properties during the International Cirrus Experiment 1989: The 18 October 1989 case study and statistical analysis. J. Appl. Meteorol., 32, 1608 ? 1622.

Antuña J. C., R. Aroche, A. Guaty y C. Morales (1994) Comportamiento de la tropopausa en el PMC. Parte I: Variables aerológicas. Ciencias de la Tierra y el Espacio # 23-24.

Cervantes S. y R. Aroche (1997). Análisis de las Nubes Cirros Medidas por la Estación Lidar en Camagüey, Cuba, durante el Período de Marzo 1992 hasta Agosto de 1996. Reporte Científico Técnico. (Manuscript, unpublished). 19 pp.

Estevan, R., R. Aroche, I. Pomares and S. Cervantes, 1998: Aerosols, cirrus clouds and temperature measurements with lidar in Camagüey, Cuba. Proceeding of 19th ILRC.

Imasu R. and Y. Iwasaka (1991). Characteristics of Cirrus Clouds Observed by Laser Radar (Lidar) during the Spring of 1987 and the Winter of 1987/88. Journal of the Meteorological Society of Japan., 69, No. 3, pp. 401-411.

Mims, F., (1996). Bulletin of the Global Vulcanism Network. Vol. 21, No. 2, pp.13.

Pal, S.R., W. Steinbrecht, and A. I. Carswell, (1992). Automated method for lidar determination of cloud base height and vertical extend. Appl. Optics. 31 - 10, 1488 - 1494.

Sassen, K. (1992). Evidence of liquid-phase cirrus cloud formation from volcanic aerosols: climate implications. Science,257,pp.516-519.

Song, N., D. o’Starr, D. Wuebbles, A. Williams and S. larson (1996). Volcanisc aerosols and interanual variation of high clouds. Geophys. Res. Let., 23, pp. 2657-2660.

WRCP, 1998: Stratospheric indicators of climate change, Chapter 2 in "SPARC implementation Plan", WRCP report No. 105.

Previous: Ongoing work Up: Ext. Abst.