Squall lines and turbulent exchange at the Amazon forest-atmosphere interface

IF 1.9 4区地球科学 Q3 METEOROLOGY & ATMOSPHERIC SCIENCES Meteorology and Atmospheric Physics Pub Date : 2024-09-16 DOI:10.1007/s00703-024-01039-7

Marcos B. Gonçalves, Cleo Q. Dias-Júnior, Flávio A. F. D’Oliveira, Ivan M. Cely-Toro, Júlia C. P. Cohen, Hardiney S. Martins, Gilmar H. S. da Silva, Alessandro C. de Araújo, Luca Mortarini

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Abstract

Squall lines (SLs) are convective phenomena frequently occurring in the tropical atmosphere and have been widely investigated by the scientific community. In this work, satellite images of the central Amazon region were used to identify the occurrence of SLs between 2014, considered as a typical year, and 2015, characterize by a strong El Nino. Subsequently, fast response data from the Amazon Tall Tower Observatory (ATTO) site were used to establish the effects of SLs on surface parameters and the differences between the typical and strong El Niño years. The objective of this study was to investigate whether there is an influence in El Niño years on the number of occurrences of SLs and consequently on the impact that these phenomena exert on the variables, such as: precipitation, temperature, relative humidity, radiation and turbulent fluxes calculated by the eddy covariance method. Average daily cycles of these variables were used for different seasons (dry and rainy) for both years. When SLs were detected, increasing in (i) precipitation rates; (ii) wind speed; (iii) relative humidity; and (2) decreasing in (i) air temperature; (ii) shortwave radiation; (iii) sensible and latent heat flux were observed. The CO₂ flux, on the other hand, reversed its sign during the presence of SLs, in both observed years. The influence of the El Niño phenomenon in the SLs formation and their impact on the meteorological quantities (turbulent fluxes and thermodynamics variables) measured just above the canopy top is discussed.

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亚马逊森林-大气界面的降雨线和湍流交换

涡流线（SLs）是热带大气中经常出现的对流现象，科学界对此进行了广泛研究。在这项研究中，亚马逊中部地区的卫星图像被用来识别 2014 年（被认为是典型年份）和 2015 年（厄尔尼诺现象严重）之间出现的塌方线。随后，亚马逊高塔观测站（ATTO）的快速反应数据被用来确定SL对地表参数的影响，以及典型厄尔尼诺年和强厄尔尼诺年之间的差异。这项研究的目的是调查在厄尔尼诺年份，SLs 的发生次数是否有影响，以及这些现象对降水、温度、相对湿度、辐射和涡度协方差法计算的湍流通量等变量的影响。这些变量的日平均周期被用于这两年的不同季节（旱季和雨季）。当检测到可持续降水时，发现(1) 降水率；(2) 风速；(3) 相对湿度；(2) (i) 气温；(ii) 短波辐射；(iii) 显热通量和潜热通量都在增加。另一方面，在两个观测年份中，二氧化碳通量在出现可持续降水时都出现了符号反转。本文讨论了厄尔尼诺现象对 SLs 形成的影响，以及 SLs 对树冠顶上测得的气象量（湍流通量和热力学变量）的影响。

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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来源期刊

Meteorology and Atmospheric Physics 地学-气象与大气科学

CiteScore

4.00

自引率

5.00%

发文量

审稿时长

6-12 weeks

期刊介绍： Meteorology and Atmospheric Physics accepts original research papers for publication following the recommendations of a review panel. The emphasis lies with the following topic areas: - atmospheric dynamics and general circulation; - synoptic meteorology; - weather systems in specific regions, such as the tropics, the polar caps, the oceans; - atmospheric energetics; - numerical modeling and forecasting; - physical and chemical processes in the atmosphere, including radiation, optical effects, electricity, and atmospheric turbulence and transport processes; - mathematical and statistical techniques applied to meteorological data sets Meteorology and Atmospheric Physics discusses physical and chemical processes - in both clear and cloudy atmospheres - including radiation, optical and electrical effects, precipitation and cloud microphysics.