Mineralogical and physico-chemical characterization of gypsiferous semi-arid soils in the north of Urmia, Iran

L. Pashei, S. Manafi
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Abstract

Gypsiferous soils contain sufficient gypsum to influence soil physico-chemical, mineralogical, mechanical properties and geotechnical conditions and as a consequence, affect plant growth and crop production. So physico-chemical and mineralogical properties of 6 soil profiles located on the gypsiferous parent material with semi-arid climate in north of Urmia, West Azerbaijan province, Iran, were investigated. Based on standard methods, morphological, physico-chemical and mineralogical properties of these soils were determined. Soils with higher gypsum content had lighter color, lighter texture, lower values of organic carbon and cation exchange capacity and higher values of electrical conductivity. These parameters were reversely changed with decreasing gypsum content of soils. Semi-quantitative analysis of clay minerals indicated the presence of smectite, illite, chlorite, kaolinite and palygorskite were as major clay minerals with decreasing order from smectite to palygorskite. The origin of illite, chlorite and kaolinite were related to the inheritance from parent material. Smectite group of clay minerals has been resulted from three origins of inheritance from parent material, transformation of illite and palygorskite and neoformation, but the transformation and neoformation are the main pathways for its formation. Palygorskite has pedogenic origin and has been formed via neoformation. The comparison of clay mineralogy of soils with different gypsum values revealed the presence of higher smectites in soils with higher gypsum. Palygorskite was identified just in soils with higher gypsum. In soils with lower values of gypsum, illite and chlorite were the predominant clay minerals and palygorskite did not identified.
伊朗乌尔米亚北部吉普赛半干旱土壤的矿物学和物理化学特征
石膏土含有足够的石膏,会影响土壤的物理化学、矿物学、机械性能和岩土工程条件,从而影响植物生长和作物生产。为此,对位于伊朗西阿塞拜疆省乌尔米亚北部半干旱气候的石膏质母质上的6个土壤剖面的理化性质和矿物学性质进行了研究。根据标准方法,测定了这些土壤的形态、物理化学和矿物学性质。石膏含量较高的土壤颜色较浅,质地较轻,有机碳和阳离子交换能力较低,电导率较高。随着土壤中石膏含量的降低,这些参数发生了相反的变化。粘土矿物的半定量分析表明,蒙脱石、伊利石、绿泥石、高岭石和坡缕石是主要的粘土矿物,从蒙脱石到坡缕石依次递减。伊利石、绿泥石和高岭石的成因与母质的继承有关。蒙脱石类粘土矿物的成因有母质继承、伊利石和坡缕石的转化和新生三个方面,但转化和新生是其形成的主要途径。坡缕石具有成土成因,通过新生代形成。不同石膏值土壤的粘土矿物学比较表明,石膏含量较高的土壤中存在较高的蒙脱石。坡缕石仅在石膏含量较高的土壤中发现。在石膏含量较低的土壤中,伊利石和绿泥石是主要的粘土矿物,坡缕石未被鉴定。
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