Observations of Unexpected Short-Term Heating in the Uppermost Layer of the Dead Sea after a Sharp Decrease in Solar Radiation

Adv. Artif. Neural Syst. Pub Date : 2017-05-25 DOI:10.1155/2017/5810575

P. Kishcha, B. Starobinets, I. Gertman, T. Ozer, P. Alpert

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引用次数: 2

Abstract

The Dead Sea is one of the saltiest bodies of water in the world. Observational evidence has been obtained of unexpected short-term water heating in the 2 m uppermost layer of this hypersaline lake, following a sharp drop in solar radiation under weak winds. This was carried out using Dead Sea buoy measurements. Passing frontal cloudiness mixed with significant dust pollution over the Judean Mountains and the Dead Sea, which occurred on March 22, 2013, led to a dramatic drop in noon solar radiation from 860 W m−2 to 50 W m−2. This drop in solar radiation caused a short-term (1-hour) pronounced temperature rise in the uppermost layer of the sea down to 2 m depth. After the sharp drop in noon solar radiation, in the absence of water mixing, buoy measurements showed that the temperature rise in the uppermost layer of the Dead Sea took place for a shorter time and was more pronounced than the temperature rise under the regular diurnal solar cycle. The water heating could be explained by gravitational instability in the skin-surface layer, when the warm surface water with the increased salinity and density submerged, thereby increasing temperature in the layers below.

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太阳辐射急剧减少后死海最上层意外短期升温的观测

死海是世界上最咸的水体之一。观测证据表明，在弱风下太阳辐射急剧下降后，这个高盐湖最上层2米的地方出现了意想不到的短期水加热。这是使用死海浮标测量进行的。2013年3月22日，朱迪亚山脉和死海上空的锋面云混合了明显的沙尘污染，导致正午太阳辐射从860 W m−2急剧下降到50 W m−2。太阳辐射的减少导致海洋最上层2米深处的温度短期(1小时)明显上升。在正午太阳辐射急剧下降之后，在没有水混合的情况下，浮标测量表明，死海最上层的温度上升发生的时间较短，比正常的日太阳周期下的温度上升更为明显。水的加热可以用表层重力的不稳定性来解释，当盐度和密度增加的温暖的表层水浸入水中，从而提高了下面层的温度。

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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Adv. Artif. Neural Syst.

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