Abstract

Flash floods which occur due to heavy rainfall in hilly and semi-hilly areas may prove deleterious when they hit urban centers. The prediction of such localized and heterogeneous phenomena is a challenge due to a scarcity of in-situ rainfall. A possible solution is the utilization of satellite-based precipitation products. The current study evaluates the efficacy of Tropical Rainfall Measuring Mission (TRMM) Multi-satellite Precipitation Analysis (TMPA) three-hourly products, i.e., 3B42 near-real-time (3B42RT) and 3B42 research version (3B42V7) at a sub-daily time scale. Various categorical indices have been used to assess the capability of products in the detection of rain/no-rain. Hourly rain rates are assessed by employing the most commonly used statistical measures, such as correlation coefficients (CC), mean bias error (MBE), mean absolute error (MAE), and root-mean-square error (RMSE). Further, a diurnal analysis is performed to authenticate TMPA’s performance in specific hours of the day. In general, the results show the good capability of both TMPA products in the detection of rain/no-rain events in all seasons except winter. Specifically, 3B42V7 performed better than 3B42RT. Moreover, both products detect a high number of rainy days falsely in light rain ranges. Regarding rainfall measurements, TMPA products exhibit an overall underestimation. Seasonally, 3B42V7 underestimates rainfall in monsoon and post-monsoon, and overestimates in winter and pre-monsoon. 3B42RT, on the other hand, underestimates rainfall in all seasons. A greater MBE and RMSE are found with both TMPA rain measurements in monsoon and post-monsoon seasons. Overall, a weak correlation and high MBE between the TMPA (3B42RT, 3B42V7) and reference gauge hourly rain rates are found at a three-hourly time scale (CC = 0.41, 0.38, MBE = −0.92, −0.70). The correlation is significant at decadal (CC = 0.79, 0.77) and monthly (CC = 0.91, 0,90) timescales. Furthermore, diurnal rainfall analysis indicates low credibility of 3B42RT to detect flash flooding. Within the parameters of this study, we conclude that the TMPA products are not the best choice at a three-hourly time scale in hilly/semi-hilly areas of Pakistan. However, both products can be used at daily, yet more reliably above daily, time scales, with 3B42V7 preferable due to its consistency.

Highlights

  • Precipitation is a key phenomenon which has a direct impact on global climate patterns

  • The suitability of the TMPA three-hourly products is studied at the flash flooding site of Lai Nullah basin in Islamabad, Pakistan, using 10-min telemetric rain gauge data

  • The performance of TMPA products is questionable at light rain rates, but it improves at higher rain intensities

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Summary

Introduction

Precipitation is a key phenomenon which has a direct impact on global climate patterns. Lai Nullah is a natural stream fed by rainwater It passes through the twin cities, i.e., Islamabad and Rawalpindi, and inundates the surrounding areas almost every year due to heavy rainfall in the monsoon [3,6]. There is a dire need for accurate and high spatio-temporal precipitation data to minimize risks to people’s lives and properties due to regular flash floods in Lai Nullah. Such measurements are important to predict rapidly developing hydro-meteorological phenomena like a flash flood, and significant for sustainable planning and the management of water resources, agriculture lands, urban areas, and ecological systems [16,17]

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