Current research has been focused on heavy metals pollution in surface water and groundwater and effect on irrigated soil from El Minia Province, north Upper Egypt. Concentration of heavy metals (e.g., As, Co, Hg, Ni, Se, Cd and Cr) in surface water, groundwater and irrigated soil samples is most significantly affected by leachate of many pollutants as the factories, agricultural activities, urban and natural processes. Microbiological parameters and microscopic investigations are revealed that some localities are common by micro-organisms, which are unsuitable for drinking waters.
The area under investigation lies between latitudes 27˚35'N and 28˚45'N and longitudes 30˚35'E and 30˚55'E, within El Minia Province, northern Upper Egypt (
These elements are encountered in various emission sources related to industrial, transportation, urban activities and agricultural practices [
in the study area discussed the heavy metals pollution in surface water with groundwater and its effect on soils. Therefore, the aim of this study is to assess the heavy metals contamination in waters and its effect on irrigated soils of El Minia Province, northern Upper Egypt.
A total of 169 water samples were collected during 2013 from El Minia Province. They are distributed as; eighty one surface water samples are represented by fifteen samples from River Nile, fourteen samples from El Ibrahimia canal and Bahr Youssef, five samples from El Sabakha canal, forty seven from surface drains, and eighty- eight groundwater samples. Microbiological procedure and microscopic study of the collected waters were carried out to determine the micro-organisms to confirm the safety for human consumption.
Fifty-four soil samples distributed through eight sites were collected from the surface layers (10 - 30 cm) of the concerned land uses. The depth to water and total depth of drilling were collected from the owner of the wells. The collected soil samples were air-dried, crushed, sieved with a 2 mm size and subjected to physical and chemical analyses. The collected waters and soils were carried out at the Central Health Laboratories, Abdein, Cairo, Egypt and analyzed by using atomic absorption spectrometer (GBC, GF 3000, USA).
Locally, the stratigraphic sequence of the study area is built up from base to top [
The Quaternary aquifer represents the main aquifer in the study area and composed of massive cross-bedded fluvial sand with gravel and clay sediments and rests directly on the Pliocene clay and the fissured Eocene limestone. Generally, the thickness of this aquifer decreases gradually towards the Eocene plateau and hydraulically connected with the underlined Eocene aquifer through many faults [
The groundwater flow in the study area is directed generally towards the northeast, i.e. towards the River Nile due to the influence of recharging canals. The flow regime has a general trend parallel to the flow of water in the Nile and other trends are parallel to the water of irrigation canals.
In the study area, the heavy metals distribution in surface water and groundwater are given in
An estimated 44% of surface water (i.e., Bahr Youssefi, El Ibrahemia canal and El Sabakha canals) is acceptable for human drinking based on [
About 49% of the groundwater collected samples exhibit high values of B, Mn, As, Hg, Cr, Ni, Co, Cd, and Se, may be caused by leaching from the industrial wastes coming to El Moheet drain, drainages water of splendiferous irrigated soil and Eocene rocks and corrosion of well casing and other pipes.
Also, the geographic position of the River Nile, El Ibrahemia canal, and El Moheet drain are impact on the groundwater quality. While, 51% of the groundwater samples is suitable for drinking water because these elements have values below the permissible limits of Egyptian standards guidelines for drinking water [
Microbiological analysis of surface water and groundwater indicate that about 29% and 25% respectively, of the total collected samples are positive for bacteria (positive gram of fecal and total coliform bacteria), i.e., surface water samples (sample No. 4 of River Nile, No. 2 of Bahr Youssefi, No. 3 of El Ibrahemia canal, No. 2 of El Sabakha and all samples of El Moheet drain), as well as groundwater samples (samples Nos. 10, 18, 22, 23, 25, 29, 32, 33, 40, 44, 48, 53, 63, 66, 80, 81, 83, and 84). Remaining samples are suitable for drinking and domestic properties. The icroscopic investigation show that about 15% of the total surface water samples are positive for micro-organisms, such as protozoa, A. Minthes (Scistoosom), and algae (Cyamophyte), due to infiltration from septic tanks, while 85% rest is suitable for drinking. The groundwater samples indicate that 75% are free from of the protozoa, Scistoosoma Minthes and Cyamophyte (algae) and the rest (25%) are positive due to infiltration from septic tanks.
71% of soils which irrigated by surface water are polluted with most of heavy metals (Fe, Mn, Zn, Cu and B) and the rest were in the permissible level. The data revealed large different between trace elements content in different soils. The highest content of trace elements (Fe, Mn, Zn, Cu and B) in soils sites which irrigated by surface water, the mean of these element are (4.73, 4.92, 1.4, 1.22 and 1.72 mg/l) compared to that of soils sites which irrigated with groundwater, the mean of these element were (6.39, 3.94, 1.30, 1.61 and 1.28 mg/l) and
soils sites which irrigated with drains, the mean of these element are (9.8, 11.15, 8.25, 6.30 and 7.05 mg/l) (
Soils samples which irrigated with groundwater are polluted by some heavy metals (B, Fe and Cu) are represented about 75%, and all soils samples which irrigated with drainage water are exceeds the permissible level that are polluted with high heavy metals (B, Fe and Cu) with mean value of (7.05, 9.8 and 6.30 mg/l) due to recharged of domestic and industrial effluents.
The Sites of Contaminated SoilThe soil which irrigated by River Nile water contaminated with Mn at El Biadia village (Malawi city) refers to domestic activities. The soil which irrigated by El Moheet water contaminated with B, Fe, Cu, Zn, Mn, Pb, Cd, Cr and Se, i.e., Nawai and Ebshadat villages (Malawi city) at east and west of El Moheet drain; Nazlt Grais; Nazlt Roman; Gowaid and Reda villages (Abo Qorkas city) at south of El Moheet drain; Tala and Damsher villages (El Minia city) at east of El Moheet drain; Etsa and Dafsh villages (Samalut city); and Ezbt Ahmed Yones village (Maghagha city).
Hydrochemically, surface water shows that about 44% of the collected samples (i.e., Bahr Youssefi, El Ibrahemia canal and El Sabakha canals) are acceptable for human drinking and the rest 56% are unsuitable for drinking due to higher constituent of heavy metals. However, 49% of the groundwater samples exhibit high values of some heavy metals as well as soils samples which irrigated by surface and groundwater are polluted by some heavy metals. These heavy metals may be caused by leaching from the anthropogenic activities (i.e., El Moheet drain and its branches, where they receive wastewater from the factories of Abo-Qurqas Sugar and Maghagha Onion, as well as agricultural wastewater and urban).
RafatZaki,Esam A.Ismail,Wagih S.Mohamed,Ali KamelAli, (2015) Impact of Surface Water and Groundwater Pollutions on Irrigated Soil, El Minia Province, Northern Upper Egypt. Journal of Water Resource and Protection,07,1467-1472. doi: 10.4236/jwarp.2015.717120