TY - JOUR
T1 - Improving the analysis and forecast of hurricane dorian (2019) with simultaneous assimilation of goes-16 all-sky infrared brightness temperatures and tail doppler radar radial velocities
AU - Hartman, Christopher M.
AU - Chen, Xingchao
AU - Clothiaux, Eugene E.
AU - Chan, Man Yau
N1 - Publisher Copyright:
© 2021 American Meteorological Society. All rights reserved.
PY - 2021/7
Y1 - 2021/7
N2 - Recent studies have shown that the assimilation of all-sky infrared (IR) observations can be beneficial for tropical cyclone analyses and predictions. The assimilation of tail Doppler radar (TDR) radial velocity observations has also been shown to improve tropical cyclone analyses and predictions; however, there is a paucity of literature on the impacts of simultaneously assimilating them with all-sky IRbrightness temperatures (BTs). This study examines the impacts of assimilating combinations ofGOES-16 all-sky IRbrightness temperatures,NOAAP-3 TDRradial velocities, and conventional observations from the Global Telecommunications System (GTS) on the analyses and forecasts of Hurricane Dorian (2019). It is shown that including IR and/or TDR observations on top of conventional GTS observations significantly reduces both track and intensity forecast errors. Track errors are reduced the most (25%at lead times greater than 48 h) when TDR and GTS observations are assimilated. In terms of intensity, errors are always lower at lead times greater than 48 h when IR BTs are assimilated. Simultaneously assimilating TDR and IR observations has the potential to further improve the intensity forecast by as much as 37%at a lead time of 48 72 h. The improved intensity forecasts produced by the experiments assimilating all three observation sources are shown to be a result of the competing effects of IR assimilation producing an overly broad area of strong cyclonic circulation and TDR assimilation constraining that circulation to a more realistic size and intensity. Interestingly, the order in which observations are assimilated has nonnegligible impacts on the analyses and forecasts of Dorian.
AB - Recent studies have shown that the assimilation of all-sky infrared (IR) observations can be beneficial for tropical cyclone analyses and predictions. The assimilation of tail Doppler radar (TDR) radial velocity observations has also been shown to improve tropical cyclone analyses and predictions; however, there is a paucity of literature on the impacts of simultaneously assimilating them with all-sky IRbrightness temperatures (BTs). This study examines the impacts of assimilating combinations ofGOES-16 all-sky IRbrightness temperatures,NOAAP-3 TDRradial velocities, and conventional observations from the Global Telecommunications System (GTS) on the analyses and forecasts of Hurricane Dorian (2019). It is shown that including IR and/or TDR observations on top of conventional GTS observations significantly reduces both track and intensity forecast errors. Track errors are reduced the most (25%at lead times greater than 48 h) when TDR and GTS observations are assimilated. In terms of intensity, errors are always lower at lead times greater than 48 h when IR BTs are assimilated. Simultaneously assimilating TDR and IR observations has the potential to further improve the intensity forecast by as much as 37%at a lead time of 48 72 h. The improved intensity forecasts produced by the experiments assimilating all three observation sources are shown to be a result of the competing effects of IR assimilation producing an overly broad area of strong cyclonic circulation and TDR assimilation constraining that circulation to a more realistic size and intensity. Interestingly, the order in which observations are assimilated has nonnegligible impacts on the analyses and forecasts of Dorian.
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U2 - 10.1175/MWR-D-20-0338.1
DO - 10.1175/MWR-D-20-0338.1
M3 - Article
AN - SCOPUS:85109202199
SN - 0027-0644
VL - 149
SP - 2193
EP - 2212
JO - Monthly Weather Review
JF - Monthly Weather Review
IS - 7
ER -