Wednesday, 12 January 2000: 1:30 PM
Christian D. Kummerow, NASA/GSFC, Greenbelt, MD
The importance of quantitative knowledge of tropical rainfall, its associated latent heating and variability is summarized in the context of the global hydrologic cycle. Much of the tropics is covered by oceans. What land exists, is covered largely by rainforests that are only thinly populated. The only way to adequately measure the global tropical rainfall for climate and general circulation models is from space. The TRMM orbit is inclined 35° leading to good sampling in the tropics and a rapid precession to study the diurnal cycle of precipitation. The precipitation instrument complement consists of the first rain radar to be flown in space (PR), a multi-channel passive microwave sensor (TMI) and a five-channel VIS/IR (VIRS) sensor. The precipitation radar operates at a frequency of 13.6 GHz. The swath width is 220 km, with a horizontal resolution of 4 km and the vertical resolution of 250 m. The minimum detectable signal from the precipitation radar has been measured at 17 dBZ. The TMI instrument is designed similar to the SSM/I with two important changes. The 22.235 GHz water vapor absorption channel of the SSM/I was moved to 21.3 GHz in order to avoid saturation in the tropics and 10.7 GHz V&H polarized channels were added to expand the dynamic range of rainfall estimates. The resolution of the TMI varies from 4.6 km at 85 GHz to 36 km at 10.7 GHz. The visible and infrared sensor (VIRS) measures radiation at 0.63, 1.6, 3.75, 10.8 and 12.0 microns. The spatial resolution of all five VIRS channels is 2 km at nadir. In addition to the three primary rainfall instruments, TRMM will also carry a Lightning Imaging Sensor (LIS) and a Clouds and the Earths Radiant Energy System (CERES) instrument.
By the beginning of new millenium, TRMM will have been collecting data for over two years. The latest version of TRMM rainfall algorithms will have been running operationally since October of 1999. This presentation will give an overview of the current status of the TRMM rainfall products and their relationship to ground based measurements. Convergence of products towards a global rainfall that is consistent with calibrated ground based radars and rain gauges to levels of about 10% is expected. The synergy between the TRMM radar and passive microwave radiometer will be emphasized with regards to the radars ability to verify many of the assumptions needed by the TRMM TMI and SSM/I rainfall algorithms in ways that cannot be accomplished using ground based instruments.
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