Increasing the efficiency of consuming cotton water using refined domestic sewage water under the conditions of applying different irrigation levels
Subject Areas :
Water and Environment
Ali Neshat
1
,
Farzin Forouzesh
2
1 - Associate Professor, Faculty of Eng., Department of Water Eng., Kerman Branch, Islamic Azad University. *(Corresponding Author)
2 - M.Sc. irrigation & drainage, Islamic Azad University, Kerman Branch, Kerman, Iran.
Received: 2023-05-09
Accepted : 2023-06-20
Published : 2023-07-23
Keywords:
Deficit irrigation,
Performance,
Water use efficiency,
Cotton,
the Refined Sewage,
Abstract :
Background and Objective: The water resources restriction introduces the water use efficiency in the agricultural section. In this study, an experiment based on the randomized complete block design with three replications was conducted in order to evaluate the effect of refined sewage on the performance and performance elements of cotton in the city of Kerman. Material and Methodology: The experiment treatments were considered as three percent water requirement of plant as main factors: I1 =100, I2=85, and I3 =70 and two water quality as secondary factors: Q1 = well water and Q2 = domestic refined sewage. Findings: The results showed that the 15 percent deficit-irrigation in comparison with the full water requirement when the domestic refined sewage is used in providing the full water requirement of the plant caused 14.8 percent increase in the water use efficiency and economizing 2405m3 water in conditions and the crop performance and morphologic characteristics remain constant relatively.Discussion and Conclusion: Accordingly, the refined sewage can face the water deficit problem of the country and increase the efficiency of irrigation. Also, the 15 percent deficit irrigation in comparison with the full providing of water requirement is recommended in the cotton planting in the Kerman province in order to economize the water use.
References:
SouDakoure M Y, Mermoud A, Yacouba H and Boivin P. Impacts of irrigation with industrial treated wastewater on soil properties. Geoderma. 2013. 200–201:31-39.
Zhang, Y. & Shen, Y. 2019. Wastewater irrigation: past, present, and future. Wiley Interdisciplinary Reviews: Water, 6, e1234.
Morgan Torghabe, M. S., Khashaveh Siouki, A., Shahidi, A., Yaghoubzadeh, M. (2019). Study of irrigation effect wastewater on soil salinity by using satellite image (case study: Birjand treatment). Application of Geography information system and remote sensing in planning, 10(2), 19-34. (In Persian)
Al-Sanafy, M., and Akba, r A. Effects of Irrigation with Treated Wastewater on the Physical and Chemical Properties of Soil in Kuwait. International Journal of Science and Technology, 2012. 4: 139-151.
Mojiri; A. Effects of municipal wastewater on physical and chemical properties of saline soil. Journal of Biology, Environ Science.2011.14.71-76.
Ghafoori, S., Hassanpour Darvishi, H., Mohammdvali Samani, H. 2021. “Sustainable management of water resources reusing municipal wastewater in the toll land approach” Journal of Water and Wastewater, 32(4), 122-135. Doi: 10.22093/wwj.2021.277964.3125. (In Persian)
Pirsaheb. M; Sharafi. K; Dogaohar. K. Comparison of Mashhad Aolang Wastewater Treatment Plant Effluent with Wells Water Quality for Irrigation. Journal of water and wastewater. Ab Va Fazilab. 2010.4.116-124. (In Persian)
Tavassoli; A. Ghanbari; A. Heydari; M. Paygozar; Y. Esmaeelian; Y. Effect of Treated Wastewater Combined with Various Amounts of Manure and Chemical Fertilizers on Nutrient Content and Yield in Corn. Journal of water and waste water Ab Va Fazilab.2010-3.37-45. (In Persian)
Khasi; M.A., Koochakzadeh; M; Effect of Irrigation with Treated Municipal Wastewater on Cotton Plant Characteristics. Journal of Soil and Water Research.2010.2.229-235. (In Persian)
Basal, H., Dagdelen, N., Unay, A., and Yilmaz, EEffects of deficit drip irrigation ratios on Cotton (Gossypium Hirsutum) yield and fiber quality. Agronomy and Crop Science, 2009. 159: 19–29.
Allen, R., Pereira, L., Raes, D., and Smith, M. Crop evapotranspiration: Guidelines for computing crop water requirements. FAO-56. FAO, Rome, Italy. 1998. 11-27.
Dagdelen, N., Basal, H., Yılmaz, E., Gurbuz, T. and Akcay, S. Different drip irrigation regimes affect Cotton yield, water use efficiency and fiber quality in western Turkey. Agricultural water management, 2009. 69: 111 – 120.
Unlu; M., Kanber, R, Levent, D., Tekin, S., and Kapur., B. Effect of deficit irrigation on the yield and yield components of drip irrigation cotton in Mediterranean environment. Agriculural Water Management., 2010.98:597-605.
Rahimi, M., Kalantari, N., Sharifidoost, M. & Kazemi, M. 2018. Quality assessment of treated wastewater to be reused in agriculture. Global Journal of Environmental Science and Management, 4, 217-230.
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SouDakoure M Y, Mermoud A, Yacouba H and Boivin P. Impacts of irrigation with industrial treated wastewater on soil properties. Geoderma. 2013. 200–201:31-39.
Zhang, Y. & Shen, Y. 2019. Wastewater irrigation: past, present, and future. Wiley Interdisciplinary Reviews: Water, 6, e1234.
Morgan Torghabe, M. S., Khashaveh Siouki, A., Shahidi, A., Yaghoubzadeh, M. (2019). Study of irrigation effect wastewater on soil salinity by using satellite image (case study: Birjand treatment). Application of Geography information system and remote sensing in planning, 10(2), 19-34. (In Persian)
Al-Sanafy, M., and Akba, r A. Effects of Irrigation with Treated Wastewater on the Physical and Chemical Properties of Soil in Kuwait. International Journal of Science and Technology, 2012. 4: 139-151.
Mojiri; A. Effects of municipal wastewater on physical and chemical properties of saline soil. Journal of Biology, Environ Science.2011.14.71-76.
Ghafoori, S., Hassanpour Darvishi, H., Mohammdvali Samani, H. 2021. “Sustainable management of water resources reusing municipal wastewater in the toll land approach” Journal of Water and Wastewater, 32(4), 122-135. Doi: 10.22093/wwj.2021.277964.3125. (In Persian)
Pirsaheb. M; Sharafi. K; Dogaohar. K. Comparison of Mashhad Aolang Wastewater Treatment Plant Effluent with Wells Water Quality for Irrigation. Journal of water and wastewater. Ab Va Fazilab. 2010.4.116-124. (In Persian)
Tavassoli; A. Ghanbari; A. Heydari; M. Paygozar; Y. Esmaeelian; Y. Effect of Treated Wastewater Combined with Various Amounts of Manure and Chemical Fertilizers on Nutrient Content and Yield in Corn. Journal of water and waste water Ab Va Fazilab.2010-3.37-45. (In Persian)
Khasi; M.A., Koochakzadeh; M; Effect of Irrigation with Treated Municipal Wastewater on Cotton Plant Characteristics. Journal of Soil and Water Research.2010.2.229-235. (In Persian)
Basal, H., Dagdelen, N., Unay, A., and Yilmaz, EEffects of deficit drip irrigation ratios on Cotton (Gossypium Hirsutum) yield and fiber quality. Agronomy and Crop Science, 2009. 159: 19–29.
Allen, R., Pereira, L., Raes, D., and Smith, M. Crop evapotranspiration: Guidelines for computing crop water requirements. FAO-56. FAO, Rome, Italy. 1998. 11-27.
Dagdelen, N., Basal, H., Yılmaz, E., Gurbuz, T. and Akcay, S. Different drip irrigation regimes affect Cotton yield, water use efficiency and fiber quality in western Turkey. Agricultural water management, 2009. 69: 111 – 120.
Unlu; M., Kanber, R, Levent, D., Tekin, S., and Kapur., B. Effect of deficit irrigation on the yield and yield components of drip irrigation cotton in Mediterranean environment. Agriculural Water Management., 2010.98:597-605.
Rahimi, M., Kalantari, N., Sharifidoost, M. & Kazemi, M. 2018. Quality assessment of treated wastewater to be reused in agriculture. Global Journal of Environmental Science and Management, 4, 217-230.
