Author(s)

Ghislain Kouadio, Eric-Pascal Zahiri^*, Modeste Kacou, Augustin Kadjo Koffi, Abé Delfin Ochou, Paul Assamoi

Laboratoire de Physique de l’Atmosphère et de Mécanique des Fluides (LAPA-MF), UFR SSMT, Université Félix Houphouët-Boigny, Abidjan, Côte d’Ivoire.

This study evaluates the improvement of the radar Quantitative Precipitation Estimation (QPE) by involving microphysical processes in the determination of Z-R algorithms. Within the framework of the AMMA campaign, measurements of an X-band radar (Xport), a vertical pointing Micro Rain Radar (MRR) to investigate microphysical processes and a dense network of rain gauges deployed in Northern Benin (West Africa) in 2006 and 2007 were used as support to establish such estimators and evaluate their performance compared to other estimators in the literature. By carefully considering and correcting MRR attenuation and calibration issues, the Z-R estimator developed with the contribution of microphysical processes and non-linear least-squares adjustment proves to be more efficient for quantitative rainfall estimation and produces the best statistic scores than other optimal Z-R algorithms in the literature. We also find that it gives results comparable to some polarimetric algorithms including microphysical information through DSD integrated parameter retrievals.

Drop Distribution, Micro Rain Radar, Calibration, Microphysical Processes, Z-R Relationships, Rainfall Estimation

Kouadio, G. , Zahiri, E. , Kacou, M. , Koffi, A. , Ochou, A. and Assamoi, P. (2021) Improving Radar Rainfall Estimation by Accounting for Microphysical Processes Using a Micro Rain Radar in West Africa. Atmospheric and Climate Sciences, 11, 658-688. doi: 10.4236/acs.2021.114039.