Comparative Characteristics of Gypsum Morphotypes in Irrigated and Non-Irrigated Calcaric Gypsisols and Methodological Aspects of Their Study
Kravchenko E.I. Yamnova I.A. Lebedeva M.P. Golovanov D.L. Churilin N.A. Mushnikova N.A. Musaelyan R.E. Kusherbayev S.A. Lednev S.A. Amanzholov A.I.
January 2026
Eurasian Soil Science
2026#59Issue 1
Abstract: Gypsum morphotypes were studied in nonirrigated and irrigated gypsiferous soils of the Dzhezkazgan Botanical Garden (Ulytau oblast, Republic of Kazakhstan). The profiles of never-irrigated (Zh-23) and irrigated (Zh-27-2) soils were compared. According to the international WRB classification, the non-irrigated soil Zh-23 is Calcaric Gypsisol (Abruptic, Katohypergypsic, Siltic), and the irrigated soil Zh-27-2 is assigned to Cambic Calcaric Gypsisols (Abruptic, Katohypergypsic, Siltic). The irrigated soil was irrigated by aryk water for 80 years. The soils were studied by the soil-morphological method, by examination of undisturbed sample fragments under a low-magnification microscope, by soil thin section analysis, and by scanning electron microscopy. The efficiency of the express method of X-ray fluorescence analysis (XRF), using a portable analyzer, and of the method of powder X-ray diffractometry (XRD) for assessing gypsum content in gypsiferous horizons and parent material of Gypsisols was demonstrated. Macro- and micromorphological features of the compared soils enabled the identification of three macromorphotypes and five micromorphotypes of gypsum-containing soil horizons. The predominant sizes of gypsum crystals and their shape in the horizon during terrain description were taken as the basis for identifying gypsum macromorphotypes. Characteristic microstructure expressed in combinations of gypsum crystals of certain sizes and shapes and their allocation to inter-aggregate voids (infillings) or intrapedal mass was taken into account to determine micromorphotypes. Micromorphological analysis helped to determine the genesis of the horizons and the processes developed in the studied soils. Carbonate pseudomorphs of gypsum crystals are noticeable in both soils at the microlevel. However, the results of gypsum dissolution and recrystallization processes in the irrigated soil are most pronounced. At the sub-microlevel, the edge of lenticular gypsum in the irrigated soil is corroded, which indicates the dissolution of coarse gypsum aggregates under regular effect of irrigation water. The lower boundary of occurrence of crystals with the relief edge may indicate the depth of irrigation water penetration.
crystals , gypsum , irrigation , methods for gypsum identification , micromorphological analysis , X-ray fluorescence analysis
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Dokuchaev Soil Science Institute, Moscow, 119017, Russian Federation
Lomonosov Moscow State University, Moscow, 119991, Russian Federation
Karaganda Buketov University, Karaganda, 100024, Kazakhstan
MSU-BIT University, Guangdong Province, Longgang District, Dayunxincheng, Shenzhen City, 518172, China
Geological Institute, Russian Academy of Sciences, Moscow, 119017, Russian Federation
Dokuchaev Soil Science Institute
Lomonosov Moscow State University
Karaganda Buketov University
MSU-BIT University
Geological Institute
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