Soil salinization processes in the impact zone of mineralized water discharge by the case study in the Yaroslavl Volga region, Russia

Pub Date : 2020-09-30 DOI:10.21638/spbu07.2020.404
Yu. V. Simonova, A. Rusakov, E. Korkina
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引用次数: 2

Abstract

Humid conditions do not encourage the formation of salt-affected soils enhancing leaching salts out of soil profiles. Nevertheless, the occurrence of salt-affected soils under humid climate is evident as a result from another factors but not the climatic one. Soil salinity in these landscapes is caused by anthropogenic salinization. The objective of this study was to identify types of chemical composition and salinity level of soils forming within the impact zone of artesian water discharge. This paper also provides determining the degree of contrast to adjacent non-saline soils and salt contamination boundaries. Soil and water samples were collected from three sites located in the Yaroslavl’ region, the Upper Volga. Sampling was released in June 2017. In the Upper Volga region high-mineralized water rises from saline aquifers via abandoned exploration wells drilled in the 1960s. These soils are found under an average annual rainfall of about 500-700 mm in taiga zone. This type of climate and vegetation cover normally should lead to the formation of Albic Retisols. Saline waters affecting soils are dominantly Na-Cl or Ca-Na-Cl-SO4 brines. Total dissolved solids in the saline waters range from 10000 to 259500 mg·L-1. Salt-affected soils have from low to high salinity (0,1-0,8%) but salt content does not exceed 1%. In the study areas maximum of salinity in the soils investigated was fixed near the water table or was associated with lithic discontinuity or abrupt textural change. Salt leaching from the upper horizons prevails in the course of annual cycle and that is what differs them from hydromorphic saline soils formed in arid climate. Field electrical surveys of salinity indicated the local zones of salinization. The salinization phenomenon in humid climate is not of the main pedogenic processes but the additional process. The upper horizons of salt-affected soils tend to have similar morphological features to zonal and intrazonal soils. The salt-affected soils studied were classified according to WRB as Orthofluvic Fluvisol (Humic, Loamic, Endosalic, Technic), Orthofluvic Gleyic Fluvisol (Humic, Siltic, Endosalic, Raptic), Amphistagnic Albic Retisol (Siltic, Anoaric, Cutanic, Endosalic), Albic Retisol (Siltic, Anoaric, Cutanic, Endosalic, Raptic).
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以俄罗斯雅罗斯拉夫尔伏尔加河地区为例研究矿化水排放影响区土壤盐碱化过程
潮湿的条件不鼓励形成受盐影响的土壤,增强了土壤剖面的淋滤盐。然而,湿润气候条件下盐渍土的发生是其他因素的结果,而不是气候因素的结果。这些景观中的土壤盐分是由人为盐碱化造成的。本研究的目的是确定在自流排水影响区内形成的土壤的化学成分类型和盐度水平。本文还提供了与邻近非盐碱地和盐污染边界对比程度的确定方法。土壤和水样采集于伏尔加河上游雅罗斯拉夫尔地区的三个地点。《采样》于2017年6月发布。在上伏尔加河地区,高矿化度的水通过废弃的勘探井从盐碱层中涌出,这些勘探井是在20世纪60年代钻探的。这些土壤在针叶林地区的年平均降雨量约为500-700毫米。这种类型的气候和植被覆盖通常会导致白垩灰岩的形成。影响土壤的盐水主要是Na-Cl或Ca-Na-Cl-SO4盐水。盐水中溶解固体总量为10000 ~ 259500 mg·L-1。盐渍土壤含盐量从低到高(0,1-0,8%),但含盐量不超过1%。在研究区,所调查土壤的最大盐度固定在地下水位附近,或与岩屑不连续或突然的结构变化有关。在年循环过程中,上层土壤的盐淋溶作用普遍存在,这是它们与干旱气候下形成的水成盐渍土不同的地方。野外电测盐度显示了局部的盐渍化区。湿润气候下的盐碱化现象不是主要的成土过程,而是附加的成土过程。盐渍土的上层与地带性和地带性土壤具有相似的形态特征。研究的盐渍土按WRB分为正流型(腐殖质、土质、土质、技术)、正流型(腐殖质、粉质、土质、土质)、双流型白质(粉质、土质、土质、土质)、白质(粉质、土质、土质、土质、土质)。
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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