Implications of the differences between daytime and nighttime CloudSat observations over the tropics

[1] Using 1 year of CloudSat level 2B Cloud Geometrical Profile product, the vertical structures, geographical distributions, and seasonal variations of cloud occurrence at the daytime (1330 LT) and the nighttime (0130 LT) overpasses and their differences over tropical land and ocean are presented separately. The differences between the cloud and precipitation occurrence at 0130 and 1330 LT and the 24 h mean are quantitatively evaluated using climatologies of diurnal variation from 9 years of TRMM observations. Then the vertical structures, geographical distributions, and seasonal variations of cloud and precipitation near the two CloudSat overpass times are generated from 9 years of TRMM observations and compared to those from CloudSat. Larger differences between cloud and precipitation occurrences at 0130 LT and those at 1330 LT were found at high altitudes because the amplitude of diurnal variation increases with height. Cloud and precipitation occurrences show day versus night differences which are opposite with respect to each other in the upper troposphere over the tropics. For example, near 1330 LT over tropical oceans, there are more clouds, but less precipitation at 13–14 km than near 0130 LT except over Panama. This may be explained with the phase lags between precipitation and clouds in the life cycles of the convective systems over land and ocean. The differences between the seasonal cycles of cloud and precipitation sampled at the 0130 and 1330 LT A-Train overpass times and the seasonal cycles generated from full day samples are shown.

[1]  A. Dai Global Precipitation and Thunderstorm Frequencies. Part II: Diurnal Variations , 2001 .

[2]  T. Hall,et al.  The Diurnal Cycle of West Pacific Deep Convection and Its Relation to the Spatial and Temporal Variation of Tropical MCSs , 1999 .

[3]  Edward J. Zipser,et al.  Diurnal cycles of precipitation, clouds, and lightning in the tropics from 9 years of TRMM observations , 2008 .

[4]  Kuolin Hsu,et al.  The frequency, intensity, and diurnal cycle of precipitation in surface and satellite observations over low- and mid-latitudes , 2007 .

[5]  Edward J. Zipser,et al.  Global distribution of convection penetrating the tropical tropopause , 2005 .

[6]  B. Fisher Statistical Error Decomposition of Regional-Scale Climatological Precipitation Estimates from the Tropical Rainfall Measuring Mission (TRMM) , 2007 .

[7]  G. Heygster,et al.  Effect of cirrus clouds on the diurnal cycle of tropical deep convective clouds , 2006 .

[8]  S. Rutledge,et al.  Diurnal Cycle of Shallow and Deep Convection for a Tropical Land and an Ocean Environment and Its Relationship to Synoptic Wind Regimes , 2006 .

[9]  Chialin Wu,et al.  Cloud profiling radar for the CloudSat mission , 2005, IEEE International Radar Conference, 2005..

[10]  J. Janowiak,et al.  An Examination of the Diurnal Cycle in Oceanic Tropical Rainfall Using Satellite and In Situ Data , 1994 .

[11]  E. Zipser,et al.  The Diurnal Cycle of Rainfall and Convective Intensity according to Three Years of TRMM Measurements , 2003 .

[12]  C. Kummerow,et al.  The Tropical Rainfall Measuring Mission (TRMM) Sensor Package , 1998 .

[13]  E. O'connor,et al.  The CloudSat mission and the A-train: a new dimension of space-based observations of clouds and precipitation , 2002 .

[14]  Graeme L. Stephens,et al.  Tropical oceanic cloudiness and the incidence of precipitation: Early results from CloudSat , 2007 .

[15]  J. Augustine The Diurnal Variation of Large-Scale Inferred Rainfall over the Tropical Pacific Ocean during August 1979 , 1984 .

[16]  R. Houze,et al.  Three-Dimensional Kinematic and Microphysical Evolution of Florida Cumulonimbus. Part II: Frequency Distributions of Vertical Velocity, Reflectivity, and Differential Reflectivity , 1995 .

[17]  Thomas L. Bell,et al.  Sampling of the Diurnal Cycle of Precipitation Using TRMM , 2002 .

[18]  Gerald G. Mace,et al.  Global hydrometeor occurrence as observed by CloudSat: Initial observations from summer 2006 , 2007 .

[19]  R. Marchand,et al.  Hydrometeor Detection Using Cloudsat—An Earth-Orbiting 94-GHz Cloud Radar , 2008 .

[20]  Kuolin Hsu,et al.  Diurnal Variability of Tropical Rainfall Retrieved from Combined GOES and TRMM Satellite Information , 2002 .

[21]  J. Slingo,et al.  The Diurnal Cycle in the Tropics , 2001 .

[22]  K. Lau,et al.  Diurnal Variations in Tropical Oceanic Cumulus Convection during TOGA COARE , 1997 .

[23]  Edward J. Zipser,et al.  A Cloud and Precipitation Feature Database from Nine Years of TRMM Observations , 2008 .

[24]  Gerald G. Mace,et al.  Cluster analysis of tropical clouds using CloudSat data , 2007 .

[25]  R. Spencer,et al.  Diurnal Variation of Precipitation over the Tropical Oceans Observed by TRMM/TMI Combined with SSM/I , 2000 .

[26]  W. M. Gray,et al.  Diurnal Variation of Deep Cumulus Convection , 1977 .