Mineralogy of soils and differentiation of hydroxy interlayer smectite from vermiculite on Sefidrud river terraces in central Gilan province

Abstract

Adsorption, storage and release of nutrient elements are related to clay minerals in agriculture and environmental activities. In this study, mineralogy of soils in a chronosequence of Sefidrud river terraces in Gilan province was investigated. After removing organic matters, carbonates and iron and aluminum oxides, fractionation of soil particles was performed by centrifuge. Soil minerals were identified using X-ray diffraction. Primary minerals were also identified in thin sections using micro-morphological techniques. Quartz, micas, feldspars, chlorite and epidote were the primary minerals observed in sand and coarse silt fraction. Chlorite was transformed to smectite, hydroxy interlayer smectite and other mixed minerals. In the middle terrace (T2) soil, chlorite is completely disappeared but the relative amount of smectite is increased. With time smectite becomes dominant in clay particles, specially fine clay size. Smectite was increased with depth in Bt horizon on middle and upper terraces. Three different methods were tested to remove hydroxy interlayers from 2:1 clays, but only one of these methods which consisted of washing coarse clay fraction by 0.05 M HCl, heating to 400°C and finally boiling it in 0.5 M NaOH was able to remove hydroxy interlayer. The results showed this mineral is primarily hydroxy interlayer smectite (HIS).

Keywords

References

[1] Harris W. G., Lyengar S. S., Zelazny L. W., Parker J. C., Lietzkeand D. A., Edmonds W. J., "Mineralogy of a chronosequence formed in New River alluvium", Soil Sci. Soc. Am. J. 44 (1980) 862-868.

[2] Mermut A. R., Acton O. F., "The age of some Holocene soils on the Ear Lake terraces in Saskatchewan", Can. J. Soil Sci. 64 (1984) 163-172.

[3] Alexander E. B., Holowaychuk N., "Soil on terraces along the Cauca River, Colombia: II. The sand and clay fraction", Soil Sci. Soc. Am. J. 47 (1983) 721-727.

[4] Sidhu P. S., Gilkes R. J., "Mineralogy of soils developed on alluvium in the Indo- Gangetic plain", Soil Sci. Soc. Am. J. 41(1977) 1194-1201.

[5] Barnhisel R. I., Bertsch P. I., "Chlorites and hydroxy-interlayer vermiculite and smectite", ed. By: Dixon J. B., et al, "Minerals in soil environments", 2'nd ed. SSSA, Madison, Wisconsin, USA (1989) pp. 729- 788.

[6] Jackson M. L., Lime C. H., Zelazny L. W., "Oxides, hydroxides, and aluminosilicates", ed. by: Klute A., "Methods of soil analysis", Part 1., 2'nd ed., Agron. Monogr. 9. ASA and SSSA, Madison, WI. (1986) pp. 101-150.

[7] Bain D. C., "The weathering of chlorite minerals in some Scottish soils", Journal of Soil Sci. 28 (1977) pp. 144- 164.

[8] Dixon J. B., Jakcson M. L., "Dissolution of interlayers from intergradient soil clays after preheating at 400 °C", Science 129 (1959) pp. 1616-1617.

[9] Hakimian M., "Characteristics of some selected soils in the Caspian Sea region of Iran", Soil Sci. Soc. Am. J. 41 (1977) pp. 1155-1161.

[10] امیری ر.، "بررسی پتانسیل تثبیت و اشکال مختلف پتاسیم در اراضی شالیکاری شرق گیلان"، مؤسسه تحقیقات خاک و آب، نشریه فنی شماره 933 (1374).

[11] اوستان ش.، "بررسی تخلیه پتاسیم از خاکهای شالیزاری شمال کشور"، پایان نامه کارشناسی ارشد، دانشکده کشاورزی کرج، دانشگاه تهران (1373).

[12] Ramzanpour H., Bahmaniar M. A., Rozitalab M. H., Malakouti M. J., "The effect of continous rice cultivation on the morphology and clay mineralogy of paddy soils in Northern Iran", Ag. Sci. Tec. Vol. 1, No.1 (1992).

[13] ترابی گل سفیدی ح.، کریمیان اقبال م.، گیوی ج.، خادمی ح.، "مطالعه کانیهای رسی در اراضی شالیکاری روی لندفرمهای مختلف شرق گیلان"، مجله علوم خاک و آب، جلد 15، شماره1 (1380) صفحه 122 تا 139.

[14] "Soil survey staff., Keys to soil taxonomy", Soil Conservation service, Eight Editions (1998).

[15] علی‌احیایی م.، بهبهانی‌زاده ع. ا.، "شرح روشهای تجزیه شیمیایی خاک"، مؤسسه تحقیقات خاک و آب، نشریه فنی شماره 893 (1372).

[16] Kittrick J. A., Hope E. W., "A procedure for particle size separations of soils for x-ray diffraction analysis", Soil Sci. 96 (1963) pp. 319-325.

[17] معزز لسکو ض.، شریفیان عطار ر.، کانی‌شناسی نوری، انتشارات واژگان خرد (1380).

[18] ترابی گل سفیدی ح.، کریمیان اقبال م.، "بررسی‌ تکامل‌ خاک‌ در یک‌ ردیف‌ زمانی روی پادگانه‌های‌حاشیه رودخانه‌ سفیدرود در گیلان مرکزی"، مجله علوم خاک و آب، جلد 16،

شماره 1 (1381).

[19] Boettinger J. L., "Duripan genesis on granitic pediments of the Mojave Desert", Thesis submitted in partial satisfaction of the requirements for the degree of MS in soil science in the graduate of the Un. of California, Davis. (1988) 195.

[20] Johnson M. G., McBride M. B., "Mineralogical and chemical characteristics of Adirondack Spodosols evidence for para and noncrystalline aluminosilicate minerals", Soil Sci. Soc. Am. J. 53 (1989) pp. 482-490.

[21] Coffman C. B., D. S. Fanning., "Maryland soils developed in residume from chlorite metabasalt having high amounts of vermiculite in sand and silt fraction", Soil Sci. Soc. Am. Proc. 39 (1975) pp. 723-732.

[22] Ahmad M., Rayan J., Pateh C., "Soil development as a function of time in the Punjab River Plains of Pakistan", Soil Sci. Soc. Am. J. 41 (1977) pp. 1162- 1166.

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  • Receive Date: 02 July 2025
  • Revise Date: 04 February 2026
  • Accept Date: 02 July 2025

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