Seasonal and Local Time Variation in the Observed Peak of the Meteor Altitude Distributions by Meteor Radars

IF 3.8 2区 地球科学 Q2 METEOROLOGY & ATMOSPHERIC SCIENCES Journal of Geophysical Research: Atmospheres Pub Date : 2024-11-05 DOI:10.1029/2024JD040978
E. C. M. Dawkins, D. Janches, G. Stober, J. D. Carrillo-Sánchez, R. S. Lieberman, C. Jacobi, T. Moffat-Griffin, N. J. Mitchell, N. Cobbett, P. P. Batista, V. F. Andrioli, R. A. Buriti, D. J. Murphy, J. Kero, N. Gulbrandsen, M. Tsutsumi, A. Kozlovsky, M. Lester, J.-H. Kim, C. Lee, A. Liu, B. Fuller, D. O’Connor, S. E. Palo, M. J. Taylor, J. Marino, N. Rainville
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Abstract

Meteoroids of sub-milligram sizes burn up high in the Earth's atmosphere and cause streaks of plasma trails detectable by meteor radars. The altitude at which these trails, or meteors, form depends on a number of factors including atmospheric density and the astronomical source populations from which these meteoroids originate. A previous study has shown that the altitude of these meteors is affected by long-term linear trends and the 11-year solar cycle related to changes in our atmosphere. In this work, we examine how shorter diurnal and seasonal variations in the altitude distribution of meteors are dependent on the geographical location at which the measurements are performed. We use meteoroid altitude data from 18 independent meteor radar stations at a broad range of latitudes and investigate whether there are local time (LT) and seasonal variations in the altitude of the peak meteor height, defined as the majority detection altitude of all meteors within a certain period, which differ from those expected purely from the variation in the visibility of their astronomical source. We find a consistent LT and seasonal response for the Northern Hemisphere locations regardless of latitude. However, the Southern Hemisphere locations exhibit much greater LT and seasonal variation. In particular, we find a complex response in the four stations located within the Southern Andes region, which indicates that the strong dynamical atmospheric activity, such as the gravity waves prevalent here, disrupts, and masks the seasonality and dependence on the astronomical sources.

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流星雷达观测到的流星高度分布峰值的季节和地方时间变化
亚毫克大小的流星体在地球大气层的高空燃烧,形成流星雷达可探测到的等离子体条状轨迹。这些轨迹或流星形成的高度取决于多种因素,包括大气密度和这些流星体的天文来源群。之前的一项研究表明,这些流星体的高度受长期线性趋势和与大气变化有关的 11 年太阳周期的影响。在这项工作中,我们将研究流星体高度分布中较短的昼夜变化和季节变化是如何依赖于进行测量的地理位置的。我们使用了来自 18 个独立流星雷达站的流星体高度数据,研究了流星体高度峰值(定义为某一时期内所有流星体的主要探测高度)的高度是否存在当地时间(LT)和季节性变化,这些变化不同于纯粹从其天文来源的能见度变化所预期的变化。我们发现,在北半球各地,无论纬度如何,都有一致的 LT 和季节性响应。然而,南半球各地点的 LT 和季节变化要大得多。特别是,我们在位于南安第斯山脉地区的四个站点发现了复杂的响应,这表明强烈的动态大气活动,如这里普遍存在的重力波,扰乱并掩盖了季节性和对天文源的依赖性。
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来源期刊
Journal of Geophysical Research: Atmospheres
Journal of Geophysical Research: Atmospheres Earth and Planetary Sciences-Geophysics
CiteScore
7.30
自引率
11.40%
发文量
684
期刊介绍: JGR: Atmospheres publishes articles that advance and improve understanding of atmospheric properties and processes, including the interaction of the atmosphere with other components of the Earth system.
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