Convective DA

p3-4 January 23 14:50-15:50

Analysis and Forecast Using Dropsonde Data from the Inner-Core Region of Tropical Cyclone Lan (2017) Obtained during Aircraft Missions of T-PARCII

K. Ito (University of the Ryukyus), H. Yamada (University of the Ryukyus), M. Yamaguchi (Meteorological Research Institute), T. Nakazawa (Meteorological Research Institute), N. Nagahama (Meisei Electric), K. Shimizu (Meisei Electric), T. Ohigashi (National Research Institute for Earth Science and Disaster Resilience), T. Shinoda (Nagoya University), K. Tsuboki (Nagoya University)


The inner core of Tropical Cyclone Lan was observed on 21−22 October 2017 by GPS dropsondes during the first aircraft missions of the Tropical Cyclones-Pacific Asian Research Campaign for the Improvement of Intensity Estimations/Forecasts (T-PARCII). To evaluate the impact of dropsondes on forecast skill, 12 36-h forecasts were conducted using a Japan Meteorological Agency non-hydrostatic model (JMA-NHM) with a JMANHM-based mesoscale four-dimensional data assimilation (DA) system. Track forecast skill improved over all forecast times with the assimilation of the dropsonde data. The improvement rate was 8−16% for 27−36-h forecasts. Minimum sea level pressure (Pmin) forecasts were generally degenerated (improved) for relatively short-term (long-term) forecasts by adding the dropsonde data, and maximum wind speed (Vmax) forecasts were degenerated. Some of the changes in the track and Vmax forecasts were statistically significant at the 95% confidence level. It is notable that the dropsonde-derived estimate of Pmin was closer to the real-time analysis by the Regional Specialized Meteorological Center (RSMC) Tokyo than the RSMC Tokyo best track analysis. The degeneration in intensity forecast skill due to uncertainties in the best track data is discussed.

Contact information

Prof. Kosuke Ito University of the Ryukyus