Effects of using wastewater on soil chemical properties under drip and furrow irrigation methods

Paper Details

Research Paper 01/01/2015
Views (374) Download (16)
current_issue_feature_image
publication_file

Effects of using wastewater on soil chemical properties under drip and furrow irrigation methods

Parviz Haghighat Jou, Rasoul Asadi
J. Bio. Env. Sci.6( 1), 102-110, January 2015.
Certificate: JBES 2015 [Generate Certificate]

Abstract

The significance of water consumption within the economic, humanistic, agricultural, and industrial realms may not be ignored. Hence, the implementation of a variety of methods for irrigation through low-quality water such as wastewater is considered as an appropriate as well as a practical approach. In addition, wastewater can be regarded as a rich source with reference to mineral and organic substances leading to soil fertilization. In order to evaluate the wastewater effects, the present study aimed to investigate the refined municipal wastewater of Kerman (in Iran) on the chemical characteristics of soil within the framework of the two methods of drip and furrow irrigation in comparison to well-water irrigation. Also, the present study scrutinized a six-day irrigation period throughout six-month period. The samples were obtained from the middle part of atmosphere in the two depth parts of 0-30 cms and 30-60 cms in four treatments of furrow irrigation with well water, furrow irrigation with wastewater, drip irrigation with well water, as well as drip irrigation with wastewater within the framework of perfect randomized blocks through three frequencies. The results showed reduction in acidity amount, increase in salinity, increase in phosphorus phosphor, as well as increase in nitrate nitrogen and in the concentration of heavy metals in the depth of soils through furrow irrigation in comparison to drip irrigation.

VIEWS 18

Aiello R, Cirelli, GL, Consoli S. 2007. Effects of reclaimed wastewater irrigation on soil and tomato fruits: A case study in Sicily (Italy). Agricultural water management. 93, 65-72. DOI: 10.1016/j.agwat.2007.06.008.

Asadi R, Haghighatjou P, Koohi N. 2010. Evaluation of the evapotranspiration based on solar radiation and air temperature in Kerman city. The 1st International Conference on Plant, Water, Soil and Weather Modeling; Kerman, Iran. (In Persian).

Blum J, Herpin U, Melfi AJ, Montes CR. 2012. Soil properties in a sugarcane plantation after the application of treated sewage effluent and phosphogypsum in Brazil. Agricultural Water Management. 115, 203-216. DOI: 10.1016/j.agwat.2012.09.010.

Hanifehlou A, Moazed H. 2007. Effects of Ahwaz treated municipal wastewater application on hydraulic characteristics of soil. Journal of Agricultural Engineering Research. 8, 47-62. (In Persian).

Heidarpour M, Mostafazadeh-Fard B, Abedi Koupai J, Malekian R. 2007. The effects of treated wastewater on soil chemical properties using subsurface and surface irrigation methods. Agricultural Water Management. 90, 87-94. DOI: 10.1016/j.agwat.2007.02.009.

Hosseinpour A, Haghnia G, Alizadeh A, Fotovat A. 2008. Transport of some elements to depth of a soil following irrigation with raw and treated municipal wastewaters under continuous and intermittent flood conditions. Journal of water and soil. 22, 117-133. (In Persian).

Karimzadeh M, Alizadeh A, Mohammady Arya M. 2012. Effect of Irrigation with Waste Water on Soil Saturated Hydraulic Conductivity. Journal of water and soil. 26, 1553-1547. (In Persian).

Kaschl A, Romheld V, Chen Y. 2002. The influence of soluble organic matter from municipal solid waste compost on trace metal leaching in calcareous soils. The Science of the Total Environment. 291, 45-57.

Khai N, Tuan P, Vinh C, Oborn I. 2008. Effects of using wastewater as nutrient sources on soil chemical properties in peri per urban agricultural systems. Journal of Science, Earth Sciences. 24, 87-95.

McLaren RG, Clucas LM, Taylor MD, Hendry T. 2003. Leaching of macronutrients and metals from undisturbed soils treated with metal-spiked sewage sludge, Leaching of macronutrients. Australian Journal of Soil Research. 41, 571-588.

Meli S, Porto M, Belligno A, Bufo SA, Mazzatura A, Scopa A. 2002. Influence of irrigation with lagooned urban wastewater on chemical and microbiological soil parameters in a citrus orchard under Mediterranean condition. Science of the Total Environment. 285, 69-77.

Mojiri A. 2011. Effects of municipal wastewater on physical and chemical properties of saline soil. Journal of Biology and Environmental Science. 14, 71-76.

Najafi P, Nasr S. 2009. Comparison effects of wastewater on soil chemical properties in three irrigation methods. Research on Crops. 10, 277-280.

Papadopoulos A, Bird NRA, Whitmore AP, Mooney SJ. 2014. Does organic management lead to enhanced soil physical quality. Geoderma. 213, 435-443

Rezapour S, Samadi A, Khodaverdiloo H. 2012. Impact of long-term wastewater irrigation on variability of soil attributes along a landscape, semi-arid region of Iran. Environmental Earth Sciences. 67, 1713–1723.

Sacco D, Cremon C, Zavattaro L, Grignani C. 2012. Seasonal variation of soil physical properties under different water managements in irrigated rice. Soil and Tillage Research. 118, 22-31. DOI: 10.1016/j.still.2011.10.011.

Sepaskhah AR, Karizi A. 2011. Effects of alternate use of wastewater and fresh water on soil saturated hydraulic conductivity. Journal of agronomy and soil science. 57, 149–158. DOI: 10.1002/jpln .200800220.

SouDakoure M Y, Mermoud A, Yacouba H, Boivin P. 2013. Impacts of irrigation with industrial treated wastewater on soil properties. Geoderma. 200, 31-39.

Xu J, Wu L, Chang AC, Zhang Y. 2010. Impact of long-term reclaimed wastewater irrigation on agricultural soils: A preliminary assessment. Journal of Hazardous Materials. 183, 780-786.