Abstract
Previous studies used the temperature-related variables from model outputs (e.g., 2-m temperature) for precipitation phase determination (i.e., rain-snow separation). This study presents a new idea for precipitation phase determination using brightness temperatures (TBs) from Advanced Technology Microwave Sounder. It is found that TB-based phase discrimination shows comparable determination performance to that from model outputs over land. In contrast, TB-based phase discrimination over ocean performs noticeably worse than that from model outputs. Further analyses reveal that the phase determination performance over land from TBs slightly depends on the satellite local zenith angle. However, the determination performance over ocean strongly depends on the satellite local zenith angle, with the skill score decreasing sharply from 0.74 near nadir to 0.55 near the edge. These results imply that over land TBs may be used directly for phase determination, which can be extended to other operational and future microwave sounders with similar channels available.
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