Transmission and Retention Status of the Contamination Index (Escherichia Coli) with Different Levels of Salinity in the Saturated Column
Subject Areas : soil pollution
Sahar Akhavan
1
(Ph.D., Soil Physics Department of Soil and Water Engineering, Gorgan University of Agricultural Sciences and Natural Resources, Gorgan, Iran.)
Soheila Ebrahimi
2
(Faculty Member of Department of Soil and Water Engineering Gorgan University of Agricultural Science and Natural Resources, Gorgan, Iran.*(Corresponding Author))
Maryam Navabian
3
(Faculty Member of Water Engineering Department, Faculty of Agricultural Sciences, University of Guilan, Rasht, Iran.)
Mahmoud Shabanpour
4
(Faculty Member of Department of Soil Sciences, Faculty of Agricultural Sciences, Rasht, Iran .)
Ali Mojtahedi
5
(Faculty Member of Microbiology Department, School of Medicine, Guilan University of Medical Sciences, Rasht, Iran.)
Alireza Movahedi Naeini
6
(Faculty Member of Department of Soil and Water Engineering, Gorgan University of Agricultural Sciences and Natural Resources, Gorgan, Iran.)
Keywords: Chloride, Salinity, Bacteria, preferential flow, Macro pour,
Abstract :
Background and Objectives: Escherichia coli is the most common fecal coliform in the cow manure that is considered as an indicator of groundwater contamination. In this regard, the present study was designed to investigate the preferential transmission and retention of Escherichia coli bacteria as an indicator of pollution in terms of using saline water. Material & Methodology: Laboratory studies were conducted in preferential flow system with synthetic m acro-pores with different diameter and salinity treatments under saturation flow in 2016. E. coli and chloride bio-tracer were used for detecting the effect of different water salinity levels. The wastewater samples were collected continuously during the transmission experiment at specific intervals. At the end of the experiment, three depths of soil from each column were sampled in two macro-porous and matrix areas. Then, the concentrations of bacteria and chloride were analyzed. Findings: The highest and the lowest concentration of E. coli in the collected drainage were observed in salinity of 1dS m-1 and 4dS m-1, respectively. At a depth of 5 cm, the bacterial retention rate was maximal and equal to 1.3 × 105 CFU-1. Discussion and Conclusion: The results showed that most of the treated bacteria were retained in the surface layers of the soil. Also, the amount of contaminants passing through the soil decreased with soil depth, so that the retention rate was decreased 10% per 5 cm increase in depth. In addition, the high concentration of bacteria exhausting from the soil columns treated with high salinity is due to the role of minerals such as salt in the transmission of bacteria. Therefore, water salinity can play an important role in reducing the pollution of groundwater resources.
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