Assessment of Heavy Metals Pollution of Some Water Resources (Kafr El-Dawar—Egypt)

Kafr El-Dawar is a major industrial city and a municipality on the Nile Delta in northern Egypt. Kafr El-Dawar area is unfortunately suffering from many factories that let out their waste water into the irrigation canal and agricultural drains. Twenty five water samples were collected from five water resources to assess their heavy pollution. The determination of heavy metals (HV) water resources content conducted to compose the following increasing HV concentration sequences ; Drain Abu Qir (DA): Min (Cu)_Max (Zn), Canal Dbora Deufsho (CD): Min (Cu)_Max (Zn), Drain Dbora Abu Qir (DD): Min (Cu)_Max (Fe), Drain Kafr Dawar Deufsho (DK) : Min (Cu)_Max (Mn) and Drain Yarn and Fabric (DY) Min (Cu)_Max (Zn). Distribution patterns of HV concentration of water resources were (a) wide spread-distribution (Cr, Co, Mn), (b) moderately spread distribution pattern (Cu, Ni, Pb),and (c) narrow spread distribution pattern (Fe, Cd, Li and Zn) . The association study conducted to classify the HV concentration into three groups; positively highly correlated HV: (Pb_Cd), (Pb_Co), (Pb_Cr), (Cd_Co), (Zn_Fe), (Cr_Co), (Ni_Co) and (Ni_Fe), negatively highly correlated HV: (Pb_Mn), (Cd_Mn), (Mn_Cu) and (Co_Li) and intermediate cases (non-significant positive and negative intercorrelation) that was represented by the other cases. The low values of contamination factor, of short term use (CfiST), showed that the majority of HV concentration, of the studied water resources was at safe use level. This certainly with exception of the cases of cadmium that classified the water resources DA and CD, and DD into polluted and risky levels, respectively. The high values of contamination factor, of long term use (CfiLT), indicated that the studied water resources were mainly contaminated by Cd, Co and Cr heavy metals. Contrary, the low values of (CfiLT) of Zn, Fe, Li, Ni, Pb and Cu, all studied water resources are safe. Contamination degree index (Cd) indicated the safe use at short term of water resources (DA), (CD) and (DD), and (DY) water resources were highly contaminated. According to (Cd) values, moderate risk is expected if we use the water resource (DK), even How to cite this paper: Abdelhady El-Hady, A.M., Abdelaty, E.F. and Boder, A.E. (2017) Assessment of Heavy Metals Pollution of Some Water Resources (Kafr El-Dawar—Egypt). Natural Resources, 8, 306-319. https://doi.org/10.4236/nr.2017.84019 Received: October 2, 2016 Accepted: April 27, 2017 Published: April 30, 2017 Copyright © 2017 by authors and Scientific Research Publishing Inc. This work is licensed under the Creative Commons Attribution International License (CC BY 4.0). http://creativecommons.org/licenses/by/4.0/ Open Access A. M. Abdelhady El-Hady et al. 307 in the short term. As for the long term use, all studied water resources were highly contaminated that they cannot be absolutely used in the long run.


Introduction
Heavy metals are elements having a specific gravity greater than four and their atomic weight ranges between 63.545 and 200.5 g [1].Heavy metals pollution is very often caused by human activities [2] [3].Industrial effluents discharged from various processing industries are the major sources of heavy metals pollution.These heavy metals reach to high concentrations and accumulate in dangerous quantity in different plant parts, and finally pose serious health hazard to human beings and animals [4].The protection of water quality and sewage infrastructure did not increase along with HV population have created some earnest apprehensions for our environment [5] [6] [7] [8] [9].[10] Applied multivariate statistical techniques, like principal component analysis (PCA), cluster analysis (CA) and factor analysis (FA) to identify the sources of heavy metals along a river basin.
HV water pollution is assessed by (a) referring to standard pollution tables of Environment Protection Agency (EPA) [11] and (b) applying of contamination indices, such as contamination index (C d ) that may be called as contamination degree.The contamination index (C d ) that summarizes the combined effects of several quality parameters considered harmful to domestic water [10] [12] [13] [14] [15].The degree of contamination was used as a reference to estimate the extent of metal pollution.Contamination degree (C d ) has three categories; low (C d = less) medium (C d = 1 -3) and highly polluted (C d > 3) [16].
A lot of researchers have focused on heavy metal pollution of all water resources around the world [17]- [23].Generally, pollution indices are applied for water pollution estimation in the samples under consideration.The indexing approach of HV pollution assessment depends mainly on three indices; heavy metal pollution index (HPI), heavy metal evaluation index (HEI) and contamination degree (Cd) [16].
The aims of this study are: (a) determine the resources and type of heavy metals (HV) water pollution, (b) assess the HV water pollution (in the cases of short and long uses), (c) define priority protecting water resources and (d) share the obtained results with the stakeholder agencies to start immediate pollution mitigation and conservation measures.

Materials and Methods
Kafr El-Dawar that was studied is a major industrial city and a municipality on the Nile Delta (Northern Egypt).Topographic-1:50,000 maps (Egyptian Survey Authority, Damanhour city, El-Bouheria Governorate) [24] were digitized, then the studied area was clipped (ARC-GIS Software, Version 9.3) [25].In order to achieve the research objective, water samples were collected, at 24-12-2015, from twenty five locations.Water sampling was elaborated by stealstein 50 cm-water sampler.These samples represented the water resources of Drain Abu Qir (DA), Canal Dbora Deufsho (CD), Drain Dbora Abu Qir (DD), Drain Kafr Dawar Deufsho (DK) and Drain Yarn and Fabric (DY), Table 1 and Figure   were selected along each water resource.Polyethylene bottles were used for samples collection and it has been carefully washed at the laboratory before the sampling campaign.The collected samples were filtered (Whatman no.42).Concentrations of heavy metals in water samples were determined by atomic absorption spectrophotometer (GCB-Avanta) using a specific lamp for particular metal.Average values of three replicates were taken for each determination and appropriate drift blank was taken before the analysis of samples [9].HV water pollution was assessed by (a) referring to standard guidelines water pollution of EPA [11] and (b) applying Contamination degree index (C d ) [16].A conventional scale was derived from recommended limits for constituents in reclaimed water for irrigation [11] to determine the classes of the heavy metal water pollution (Table 2).This conventional scale was based on standard maximum admissible concentration (MAC s ) that is the upper permissible limits of cases of short and long term uses.

Results and Discussion
(   a) Plotting of increasing concentration sequence of heavy metals: Heavy metals in the content of water resources were determined (Table 3) and illustrated by Figure 2. The table showed that Fe had the highest concentration with an averaged value of (98 µg/L).Contrary, the lowest concentration was represented by Cu that had a mean of (1.       6).
The contamination factor of the studied water resources was calculated to assess individually the contamination degree of each heavy metal (Table 7).The application of the conventional interpretative scale of heavy metals water pollution referred that the different grade pollution of each heavy metals.The table pointed out that the values of contamination factor, of short term use, (C fiST ) were generally valued to lay the studied water resources at safe use level (Table 7(a)).This conclusion excluded the cases of cadmium that classified the water resources DA, CD, and DD into polluted and risky levels, respectively.
The values of contamination factor, of long term use, (C fiLT ) designated the level of water heavy metals pollution (Table 7(b)).The table showed that the studied water resources were mainly contaminated by Cd, Co and Cr heavy metals.Cobalt and Cr heavy metals grouped all studied water resources in the polluted level.In addition, the table showed that the water resources were also highly contaminated by Cd heavy metal that they were classified as Cd-polluted  The contamination degree index (C d ) summarizes the combined effects of several heavy metals that are considered harmful to irrigation water [12].This index is calculated from the formula below: where Cfi, CAi and CNi represent contamination factor, analytical value and the upper allowable concentration of the ith component, respectively (N denotes the normative value).The index of the contamination degree (C d ) was calculated to assess the water pollution by all studied heavy metals (Table 8).In the cases of short use, the (C d ) values ranged from −7.49 (water resource of DA) to 7.51 (water resource of CD).As for the cases of long use, the (C d ) values extended from 5.49 (water resource of DY) to 33.20 (water resource of DK).The degree of contamination (C d ) was used as reference to estimate the extent of heavy metal pollution [27], Table 9).
The table showed that the contamination degree index (C d ) of water resources
Sources and type of water heavy metals pollution were assessed by three indicators (a) plotting of HV increasing concentration sequences (b) study HV distribution pattern (c) interpretation of the HV intercorrelation matrix.Descriptive statistics were calculated to assess HV data homogeneity that may indicate the HV resources.The whisker Plot box was drawn to present graphically HV pattern distribution.A Whisker Plot box gave information regarding the shape and variability of HV data set.It graphically presented HV distribution pattern [26].

1 )
Sources and Type of Water Heavy Metals Pollution The sources and type of HV pollution were assessed by three indicators (a) establishment of HV increasing concentration sequence (b) study distribution pattern of HV water resources (c) interpretation of HV intercorrelation matrix.
2 g/L).The figure showed that all increasing concentration sequences started by Cu, and almost ended by Zn.This may conduct to conclude that the studied water resources may have the same Cu-Zn polluting source.Dissimilarly, the changeable location of Pb, through the increasing concentration sequences, led to think that in the opposite conclusion.b) Distribution Pattern of Heavy Metals in Water Resources: The descriptive statistics of water heavy metals content pointed out to great variations between the mean and median of heavy metals concentration in water (Table 4).This heterogeneity of HV concentration was confirmed by the high values of standard deviation.These descriptive statistics, of heavy metals (HV) water resources content, led to select Wishker box plot-median to present (HV) distribution patterns.This type of whisker plot was preferred because of data heterogeneity (Figures 3(a)-(c)).The figure indicated that the pollution of heavy metals water resources can be classified, according to their concentration homogeneity, into three distribution patterns:  Wide spread-heterogeneous distribution pattern; Cr, Co and Mn (Figure 3(a))  Moderate spread-moderately homogeneous distribution pattern ; Cu, Ni and Pb (Figure 3(b))  Narrow spread-homogeneous distribution pattern; Cd, Fe, Li and Zn (Figure 3(c))

Figure 2 .
Figure 2. (a) Increasing sequence of heavy metals of water resources DA and CD; (b) increasing sequence of heavy metals of water resources DD, DK and DY.

( 2 - 1 )
Assessment of Heavy Metals Water Pollution by contamination factor (C i ) An interpretative scale of contamination factor (C fi) was derived by basing on the guidelines of the safe limits of Brraich and Jangu (2015) and EPA (2004).Scale's thresholds were calculated as follows: Contamination factor (C fi ) = (C Ai ) analytical conc./(CNi ) Permissible Conc.-1By designation: (ST) = short term use, and (LT) = long term use Thus, C fiST and C fiLT refer to the contamination factor of the cases of short and long term use, respectively (Table

(
DA, CD, DD, DY) and Cd-risky (DK).Contamination factor (C fiLT ) of Mn was high to be classified DD as polluted water resource.According to the values of (C fiLT ) of Zn, Fe, Li, Ni, Pb and Cu, all studied water resources are safe to use at long term.The table showed that the Co concentration of all studied water resources, occupied the polluted class.Meanwhile, Zn concentration of the water resource (DK) represented polluted class in the long term use.Ideal and safe

(
DY), (DD) and (DA) had the negative values of −5.67, −7.26 and −7.49, respectively, indicating water safety use of the term of short run.C d of water resources (CD) had the value of 7.51 to classify (Cd) water resources were highly contaminated at short run use.Moderate risk is expected if we use the water resource (DK), even in the short term.As for the long term use, all studied water re-

Table 2 .
Conventional interpretative scale of heavy metals water pollution.

Table 3 .
Averaged concentration water heavy metal.

Table 4 .
Descriptive statistics of water heavy metals content.

Table 5 .
The HV correlation matrix.

Table 6 .
Interpretative scale of contamination factor (C fi ).
classes dominated the cases, meanwhile the risky pollution class was only found in a few cases.The contamination factor of cadmium (C fCd ) had generally the highest values to refer that cadmium is the more effective pollutant.

Table 8 .
Contamination degree index of studied water resources.

Table 9 .
Interpretative scale of contamination degree index (C d ).