Abstract
This study investigates the Global Navigation Satellite System (GNSS) radio occultation (RO) data from FORMOSAT-7/COSMIC-2 (FS7/C2), which provides considerably more and deeper profiles at lower latitudes than those from the former FORMOSAT-3/COSMIC (FS3/C). The statistical analysis of six-month RO data shows that the rate of penetration depth below 1 km height within ±45° latitudes can reach 80% for FS7/C2, significantly higher than 40% for FS3/C. For verification, FS7/C2 RO data are compared with the observations from chartered missions that provided aircraft dropsondes and on-board radiosondes, with closer observation times and distances from the oceanic RO occultation over the South China Sea and near a typhoon circulation region. The collocated comparisons indicate that FS7/C2 RO data are reliable, with small deviations from the ground-truth observations. The RO profiles are compared with collocated radiosondes, RO data from other missions, global analyses of ERA5 and National Centers for Environmental Prediction (NCEP) final (FNL), and satellite retrievals of NOAA Unique Combined Atmospheric Processing System (NCAPS). The comparisons exhibit consistent vertical variations, showing absolute mean differences and standard deviations of temperature profiles less than 0.5 °C and 1.5 °C, respectively, and deviations of water vapor pressure within 2 hPa in the lower troposphere. From the latitudinal distributions of mean difference and standard deviation (STD), the intertropical convergence zone (ITCZ) is evidentially shown in the comparisons, especially for the NUCAPS, which shows a larger deviation in moisture when compared to FS7/C2 RO data. The sensitivity of data collocation in time departure and spatial distance among different datasets are presented in this study as well.
Highlights
Many studies have demonstrated the benefits of Global Navigation Satellite System (GNSS) radio occultation (RO) data on numerical weather predictions and climate change studies, as overviewed by [1]
FS7 project is the follow-on mission of FS3, consisting of six satellites in the low inclination of 24° that were launched in June 2019
The RO observation data of FS7 was officially released at the end of 2019
Summary
FORMOSAT-3/COSMIC (FS3/C, hereafter FS3), with cross-links to the Global Navigation Satellite System (GNSS), has provided more than six million radio occultation (RO) soundings during the past fourteen years. Many studies have demonstrated the benefits of GNSS RO data on numerical weather predictions and climate change studies, as overviewed by [1]. The GNSS RO data can provide valuable information about the vertical variations in the ionosphere and lower atmosphere, and FS3 has contributed most of the RO measurements since launch in 2006. The advantages of GNSS RO data rely on their highly accurate retrieval of the temperature in the upper troposphere and lower stratosphere (UTLS) (e.g., [2,3,4,5]). A challenge remains the demanding improvement for RO
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