1. Comparative Analysis of TMPA and IMERG Precipitation Datasets in the Arid Environment of El-Qaa Plain, Sinai
- Author
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Peter Dietrich, Silas Michaelides, Youssef Sherief, Erik Borg, Thomas Scholten, Mona Morsy, and Levizzani, Vincenzo
- Subjects
arid areas ,010504 meteorology & atmospheric sciences ,Science ,Sinai ,0208 environmental biotechnology ,Precipitation ,02 engineering and technology ,precipitation ,Civil Engineering ,01 natural sciences ,Arid areas ,Nationales Bodensegment ,Precipitation analysis ,TRMM ,0105 earth and related environmental sciences ,Data source ,Rain gauge ,GPM ,stressed aquifers ,Stressed aquifers ,Arid ,020801 environmental engineering ,Data set ,Climatology ,Engineering and Technology ,General Earth and Planetary Sciences ,Environmental science ,Satellite ,Global Precipitation Measurement - Abstract
The replenishment of aquifers depends mainly on precipitation rates, which is of vital importance for determining water budgets in arid and semi-arid regions. El-Qaa Plain in the Sinai Peninsula is a region that experiences constant population growth. This study compares the performance of two sets of satellite-based data of precipitation and in situ rainfall measurements. The dates selected refer to rainfall events between 2015 and 2018. For this purpose, 0.1° and 0.25° spatial resolution TMPA (Tropical Rainfall Measurement Mission Multi-satellite Precipitation Analysis) and IMERG (Integrated Multi-satellite Retrievals for Global Precipitation Measurement) data were retrieved and analyzed, employing appropriate statistical metrics. The best-performing data set was determined as the data source capable to most accurately bridge gaps in the limited rain gauge records, embracing both frequent light-intensity rain events and more rare heavy-intensity events. With light-intensity events, the corresponding satellite-based data sets differ the least and correlate more, while the greatest differences and weakest correlations are noted for the heavy-intensity events. The satellite-based records best match those of the rain gauges during light-intensity events, when compared to the heaviest ones. IMERG data exhibit a superior performance than TMPA in all rainfall intensities.
- Published
- 2021
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