Diurnal Precipitation Features over Complex Terrains along the Yangtze River in China Based on Long-Term TRMM and GPM Radar Products

Remote. Sens. Pub Date : 2023-07-07 DOI:10.3390/rs15133451
Suxing Zhu, Chuntao Liu, Jie Cao, T. Lavigne
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引用次数: 1

Abstract

Based on the 20-year high-resolution precipitation data from TRMM and GPM radar products, diurnal features over complex terrains along the Yangtze River (YR) are investigated. Using the Fast Fourier Transform (FFT) method, the first (diurnal) and second (semi-diurnal) harmonic amplitude and phase of precipitation amount (PA), precipitation frequency (PF), and intensity (PI) are analyzed. The diurnal amplitudes of PA and PF have a decreasing trend from the west to the east with the decreasing altitude of large-scale terrain, while the semi-diurnal amplitudes of PA and PI depict the bimodal precipitation cycle over highlands. For the eastward propagation of PA, PF is capable of depicting the propagation from the upper to the middle reaches of YR, while PI shows the eastward propagation from the middle to the lower reaches of YR during nighttime and presents sensitivity to highlands and lowlands. According to the contribution of different-sized precipitation systems to PI over the highlands and lowlands, the small (<200 km2) ones contribute the least while the large ones (>6000 km2) contribute the most, but the medium ones (200–6000 km2) show a slightly larger contribution over the highlands than over the lowlands. The propagation of each scaled precipitation system along the YR is further analyzed. We found that small precipitation systems mainly happen in the afternoon without obvious propagation. Medium ones peak 2–4 h later than the small ones, with two eastward propagation directions at night from the middle reaches of YR to the east. The large ones are mainly located in lowlands at night, with two propagation routes in the morning over the middle and lower reaches of YR. Such a relay of the propagation of the medium and large precipitation systems explains the eastward movement of PI along the YR, which merits future dynamic studies.
基于长期TRMM和GPM雷达产品的长江沿岸复杂地形日降水特征
利用20年TRMM和GPM雷达产品的高分辨率降水资料,研究了长江沿岸复杂地形的日变化特征。利用快速傅里叶变换(FFT)方法,分析了降水量(PA)、降水频率(PF)和降水强度(PI)的第一次(日)和第二次(半日)谐波幅值和相位。PA和PF的日振幅随大尺度地形海拔的降低呈现自西向东递减的趋势,而PA和PI的半日振幅则呈现高原双峰降水循环。对于PA的东向传播,PF能够描绘YR的上游到中游的传播,而PI表示夜间从YR的中游到下游的东向传播,对高地和低地都很敏感。从不同规模降水系统对高原和低地PI的贡献来看,小降水系统(6000 km2)对PI的贡献最大,而中等降水系统(200 ~ 6000 km2)对PI的贡献略大于低地。进一步分析了各尺度降水系统沿YR的传播。小降水系统主要发生在下午,没有明显的传播。中型比小型晚2 ~ 4 h达到峰值,夜间从YR中游向东有两个向东的传播方向。大的主要分布在夜间的低地,早上在YR中下游有两条传播路线。这种中大型降水系统传播的接力解释了PI沿YR东移的原因,值得未来的动力学研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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