Reusing drainage water for leaching of saline and sodic soils in the Khuzestan province, Iran

被引：0

作者：

Shahrayini E. ^{[1
]}

Ebrahimi E. ^{[2
]}

Kamyab T. ^{[3
]}

Asilianmahabadi A. ^{[4
]}

Hamid A.A. ^{[5
]}

Amirinejad A. ^{[6
]}

机构：

[1] Soil Science Department, Tarbiat Modares University, Tehran

[2] Soil Science Department, Faculty of Agricultural Sciences, University of Guilan, Rasht

[3] Department of Engineering Technology and Construction Management, Univ. of North Carolina, Charlotte, 28223, NC

[4] Head of Soil Science Department, MahabGhodss Consulting Engineering Company, Tehran

[5] Department of Geography, University of Halabja, Halabja

[6] Soil Science Department, Razi University, Kermanshah

来源：

Water Supply | 2024年 / 24卷 / 05期

关键词：

Desalinization; electrical conductivity; reclamation; sodium adsorption ratio;

D O I：

10.2166/ws.2024.091

中图分类号：

学科分类号：

摘要：

This study investigates the feasibility of utilizing drainage water for reclamation of saline and sodic soils in the Dosalagh plain of Khuzestan province, Iran. With significant drainage water generated in the region’s irrigation networks, repurposing it for soil reclamation emerges is a low-risk strategy. Leaching, a practical technique for soil desalination, was examined using the double ring method at depths up to 150 cm. Four water qualities (electrical conductivities of 2.12, 7, 25 and 40 dS m-1) and depths (0, 25, 50 and 75 cm) were tested, with intermittent leaching over three cycles. Results indicate a substantial reduction in electrical conductivity (117.7 to 29 dS m-1) and sodium content (1415.9 to 39.83 mEq L-1) at the 0-25 cm depth with drainage water incorporation. The study highlights the beneficial impact on soil quality, emphasizing decreased sodium content, sodium adsorption ratio, and electrical conductivity. Overall, reusing drainage water proves advantageous for soils with high salinity levels, showcasing its potential for sustainable soil management in saline regions. This research underscores the importance of effective drainage water management for soil reclamation and agricultural sustainability in arid regions like Khuzestan province. © 2024 The Authors.

引用

页码：1462 / 1476

页数：14

共 67 条

[1]

Abrol I. P., Yadav J. S. P., Massoud F. I., Salt-affected Soils and Their Management, FAO Soils Bulletin, 39, (1988)

[2]

Adeyemo T., Kramer I., Levy G. J., Mau Y., Salinity and sodicity can cause hysteresis in soil hydraulic conductivity, Geoderma, 413, (2022)

[3]

Alizadeh A., Bazari M. E., Velayati S., Hasheminia M., Yaghmai A., Using reclaimed municipal wastewater for irrigation of Corn, ICID International Workshop on Wastewater Reuse Management, pp. 147-154, (2001)

[4]

Bansal S., Kapoor K. K., Vermicomposing of crop residues and cattle dung with Eisenia Foetida, Bioresource Technology, 73, pp. 95-98, (2000)

[5]

Becher M., Kalembasa D., Kalembasa S., Symanowicz B., Jaremko D., Matyszczak A., A new method for sequential fractionation of nitrogen in drained organic (Peat) soils, International Journal of Environmental Research and Public Health, 20, 3, (2023)

[6]

Bernstein L., Effects of salinity and sodicity on plant growth, Annual Review of Phytopathology, 13, pp. 295-312, (1975)

[7]

Cao Z., Zhu T., Cai X., Hydro-agro-economic optimization for irrigated farming in an arid region: The Hetao Irrigation District, Inner Mongolia, Agricultural Water Management, 277, (2023)

[8]

Carpenter S. R., Caraco N. F., Correll D. L., Howarth R. W., Sharpley A. N., Smith V. H., Nonpoint pollution of surface waters with phosphorus and nitrogen, Ecological Applications, 8, 3, pp. 559-568, (1998)

[9]

Chaudhari S. K., Dependence of saturated hydraulic conductivity on dispersion, swelling and exchangeable sodium under different quality waters, Journal of the Indian Society of Soil Science, 49, 1, pp. 12-20, (2001)

[10]

Corwin D. L., Climate change impacts on soil salinity in agricultural areas, European Journal of Soil Science, 72, 2, pp. 842-862, (2021)

← 1 2 3 4 5 6 7 →