Comparing Precipitation during Typhoons in the Western North Pacific Using Satellite and In Situ Observations

Jessica R. P. Sutton, Alexandra Jakobsen, Kathryn Lanyon, Venkat Lakshmi
2022 Remote Sensing  
Typhoons are known for causing heavy precipitation, very strong winds, and storm surges. With climate change, the occurrence, strength, and duration of typhoons are changing. Daily, weekly, and monthly precipitation from in situ stations from the NOAA Global Historical Climatological Network (GHCN) were compared in the Western North Pacific from 2000 to 2018 against two widely used datasets: NASA's TRMM TMPA and PERSIANN-CDR. Additionally, precipitation levels during twenty-five typhoons were
more » ... mpared using precipitation estimates. There have been reductions in the average number of typhoons per year from 1959 to present and by month during the months of August, September, and October. Satellite-derived precipitation estimates from PERSIANN and TRMM TMPA explained approximately 50% of the variation in weekly cumulative precipitation and approximately 72% of the variation in monthly cumulative precipitation during the study period (March 2000–December 2018) when using all available stations. When analysis was completed using only stations close to the best track for the entire duration of a typhoon, 62% of the variation was explained, which is comparable to the weekly and monthly cumulative comparisons. However, most of the stations available and with sufficient data were not located in the tracks of the typhoons. It is of utmost importance to better understand typhoon events by utilizing precipitation data from satellite remote sensing in the Western North Pacific.
doi:10.3390/rs14040877 fatcat:xcpcy2xjofhcnbr4ndwer7vaqa