Abstract
This paper utilizes a modified Water Accounting Model (WAM) to track the moisture sources of an extreme precipitation event in Shandong during 18–20 July 2007. It is found that different methods in dealing with the residual of the water budget always produce different results in moisture recycling calculations. In addition, results from the backward tracking without the residual are in complete agreement with those from the forward tracking with the residual, and vice versa, implying a mathematical consistency. We thus analyze and derive the conditions under which the two tracking approaches equate with each other. We applied the backward tracking to the Shandong extreme rainfall case and obtained quantitative estimates of moisture contributions of three selected regions away from the rainfall area. The results indicate that the spatial pattern rather than numerical value of the recycling moisture is more reliable in tracking the moisture sources. The moisture of this Shandong rainfall event comes mostly from the nearby upwind area in Southwest China, which is of the terrestrial origin; while the moisture originating from the neighboring West Pacific contributes little to this event.
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Supported by the National Science and Technology Support Program of China (2012BAC20B06).
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Zhang, C., Li, Q. Tracking the moisture sources of an extreme precipitation event in Shandong, China in July 2007: A computational analysis. J Meteorol Res 28, 634–644 (2014). https://doi.org/10.1007/s13351-014-3084-9
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DOI: https://doi.org/10.1007/s13351-014-3084-9