Climatology of the Low-Level Jet at the Southern Great Plains Atmospheric Boundary Layer Experiments Site

Jie Song, Ke Liao, R. Coulter, B. Lesht
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引用次数: 169

Abstract

A unique dataset obtained with combinations of minisodars and 915-MHz wind profilers at the Atmospheric Boundary Layer Experiments (ABLE) facility in Kansas was used to examine the detailed characteristics of the nocturnal low-level jet (LLJ). In contrast to instruments used in earlier studies, the ABLE instruments provide hourly, high-resolution vertical profiles of wind velocity from just above the surface to approximately 2 km above ground level (AGL). Furthermore, the 6-yr span of the dataset allowed the examination of interannual variability in jet properties with improved statistical reliability. It was found that LLJs occurred during 63% of the nighttime periods sampled. Although most of the observed jets were southerly, a substantial fraction (28%) was northerly. Wind maxima occurred most frequently at 200–400 m AGL, though some jets were found as low as 50 m, and the strongest jets tended to occur above 300 m. Comparison of LLJ heights at three locations within the ABLE domain and at one location outside the domain suggests that the jet is equipotential rather than terrain following. The occurrence of southerly LLJ varied annually in a way that suggests a connection between the tendency for jet formation and the large-scale circulation patterns associated with El Nino and La Nina, as well as with the Pacific decadal oscillation. Frequent and strong southerly jets that transport moisture downstream do not necessarily lead to more precipitation locally, however.
大平原南部大气边界层试验点低空急流气候学研究
利用堪萨斯州大气边界层实验(ABLE)设施的微型雷达和915 mhz风廓线仪组合获得的独特数据集,研究了夜间低空急流(LLJ)的详细特征。与早期研究中使用的仪器相比,ABLE仪器每小时提供从地表以上到离地面约2公里(AGL)的高分辨率风速垂直剖面。此外,该数据集的6年跨度使研究喷流特性的年际变化具有更高的统计可靠性。研究发现,在63%的夜间采样期间发生了llj。虽然观测到的大部分喷流是向南的,但也有相当一部分(28%)是向北的。在200 ~ 400 m高度处,虽然有低至50 m的急流,但最大风速出现的频率最高,而最强急流往往出现在300 m以上。ABLE域中三个位置和域外一个位置的LLJ高度对比表明,射流是等势的,而不是地形跟随的。南侧LLJ的出现每年都在变化,这表明急流形成趋势与厄尔尼诺和拉尼娜相关的大尺度环流模式以及太平洋年代际振荡之间存在联系。然而,频繁而强烈的南风急流将水汽输送到下游并不一定会导致当地更多的降水。
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