The hydrologic cycle, unidirectional charter of the dissolved salts and suspended load.

Soil Forming Factors and Processes from the Temperate Zone Pub Date : 2012-12-08 DOI:10.15551/FPPZT.V11I1.468

N. Florea, V. Coteț

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引用次数: 1

Abstract

In this paper it is underlined that the hydrologic cycle in nature, reversible and regenerating of fresh water, carries out also an unidirectional and irreversible circulation – by means of a fragment of the hydrologic cycle – of the dissolved salts and stream’s suspended load, entailed by the water drained from continents to ocean. The trend is to transfer soluble salts from land to ocean in the same time with the running water on land in the portion of the hydrologic cycle which refers to the water transfer from continents to ocean in order to equilibrate the annual water balance of the hydrologic cycle. But, one can realize here and there some local salt accumulations in salt soils or in salt lakes within areas without drainage in arid climate; these salts accumulations are cases of local hydrologic cycles „grafted” along the way of water on land (to ocean). The energy necessary to the hydrologic cycle in nature is delivered by the Sun, and the entropy remains at a low level as a consequence of the elimination in this cycle of water vapors with high entropy, and of the receiving of liquid or solid water with low entropy, so that the annual level of entropy is maintained at a low level.

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水文循环，溶解盐和悬浮荷载的单向包租。

本文强调指出，自然界的水文循环，即淡水的可逆和再生，也通过水文循环的一部分，对从大陆排入海洋的水所带来的溶解盐和溪流的悬浮负荷进行了单向和不可逆的循环。趋势是在大陆向海洋的水循环部分，与陆地上的流水同时从陆地向海洋转移可溶盐，以平衡水文循环的年水平衡。但是，在干旱的气候条件下，在没有排水的地区，在盐土或盐湖中随处可见局部的盐积累;这些盐的积累是当地水文循环沿着陆地(到海洋)的水“嫁接”的情况。自然界水文循环所必需的能量是由太阳提供的，由于在这个循环中消除了具有高熵的水蒸气和接收具有低熵的液体或固体水，因此熵保持在一个低水平，因此年熵水平保持在一个低水平。

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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Soil Forming Factors and Processes from the Temperate Zone

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