Abstract
Attenuation from clouds and precipitation hinders the use of Ka-band in SARs, radar altimeters and in satellite link communications. The NASA-JAXA Global Precipitation Measurement (GPM) mission, with its core satellite payload including a dual-frequency (13.6 and 35.5 GHz) radar and a multifrequency passive microwave radiometer, offers an unprecedented opportunity for better quantifying such attenuation effects. Based on four years of GPM products, this article presents a global climatology of Ka-band attenuation caused by clouds and precipitation and analyses the impact of the precipitation diurnal cycle. As expected, regions of high attenuation mirror precipitation patterns. Clouds and precipitation cause two-way attenuation at 35.5 GHz in excess of 3 dB about 1.5% of the time in the regions below 65°, peaking at as much as 10% in the tropical rain belt and the South Pacific Convergence Zone and at circa 5% along the storm tracks of the North Atlantic and Pacific Oceans. Confirming previous findings, the diurnal cycle is particularly strong over the land and during the summer period; while over the ocean, the diurnal cycle is generally weaker some coherent features emerge in the tropical oceans and in the northern hemisphere. Results are useful for estimating data loss from (sun-synchronous) satellite adopting active instruments/links at a frequency close to 35 GHz.
Highlights
M ILLIMETER radars offer unprecedented capabilities in cloud and precipitation and ocean/land remote sensing due to their greater potential for finer resolution and improved sensitivity
Cloudy conditional mean values of liquid water attenuation over the ocean generally agree with the results shown in [34, Fig. 5] with cloud water paths peaking at 0.25 kg/m2 in the Tropics
The cloud path integrated attenuation (PIA) seem to be underestimated with respect to the results from [25] where clouds liquid water path (LWP) are derived from Moderate Resolution Imaging Spectroradiometer (MODIS) high-resolution (1 km) cloud data
Summary
M ILLIMETER radars offer unprecedented capabilities in cloud and precipitation and ocean/land remote sensing due to their greater potential for finer resolution and improved sensitivity. Ka-band frequencies in the range between 26.5 and 40.0 GHz have been increasingly used and proposed for satellite missions and, due to the higher bandwidth they offer, in satellite communication links [1]. Color versions of one or more of the figures in this article are available online at http://ieeexplore.ieee.org. While such attenuation can be used to retrieve precipitation [15], it is generally detrimental to the altimeter waveform [16], [17] and the SAR images [18] and, causes errors in the retrieval of the geophysical parameters. BATTAGLIA et al.: GPM-DERIVED CLIMATOLOGY OF ATTENUATION DUE TO CLOUDS AND PRECIPITATION AT Ka-BAND
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