Abstract

The present study involves the chemical and bacteriological analysis of water from different sources i.e., bore, wells, bottle, and tap, from Peshawar, Mardan, Swat and Kohat districts of Khyber Pakhtunkhwa (KP) province, Pakistan. From each district, 50 water samples (10 samples from each source), regardless of urban and rural status, were collected from these sources and analysed for sulphates, nitrates, nitrites, chlorides, total soluble solids and coliforms (E. coli). Results indicated that majority of the water sources had unacceptable E. coli count i.e.> 34 CFU/100mL. E. coli positive samples were high in Mardan District, followed by Kohat, Swat and Peshawar district. Besides this, the some water sources were also chemically contaminated by different inorganic fertilizers (nitrates/nitrites of sodium, potassium) but under safe levels whereas agricultural and industrial wastes (chloride and sulphate compounds) were in unsafe range. Among all districts, the water quality was found comparatively more deteriorated in Kohat and Mardan districts than Peshawar and Swat districts. Such chemically and bacteriologically unfit water sources for drinking and can cause human health problems.

Keywords:
faecal coliforms; sulphate; TSS; nitrite; chloride; nitrate; Peshawar; Kohat

Resumo

O presente estudo envolve a análise química e bacteriológica de água de diferentes fontes, ou seja, furo, poços, garrafa e torneira, dos distritos de Peshawar, Mardan, Swat e Kohat da província de Khyber Pakhtunkhwa (KP), Paquistão. De cada distrito, 50 amostras de água (10 amostras de cada fonte), independentemente do status urbano e rural, foram coletadas dessas fontes e analisadas para sulfatos, nitratos, nitritos, cloretos, sólidos solúveis totais e coliformes (E. coli). Os resultados indicaram que a maioria das fontes de água tinha uma contagem inaceitável de E. coli, ou seja, > 34 UFC / 100 mL. As amostras positivas para E. coli foram elevadas no distrito de Mardan, seguido por Kohat, Swat e distrito de Peshawar. Além disso, algumas fontes de água também foram contaminadas quimicamente por diferentes fertilizantes inorgânicos (nitratos/nitritos de sódio, potássio), mas em níveis seguros, enquanto os resíduos agrícolas e industriais (compostos de cloreto e sulfato) estavam em níveis inseguros. Entre todos os distritos, a qualidade da água foi considerada comparativamente mais deteriorada nos distritos de Kohat e Mardan do que nos distritos de Peshawar e Swat. Essas fontes de água química e bacteriologicamente impróprias para beber podem causar problemas à saúde humana.

Palavras-chave:
coliformes fecais; sulfato; TSS; nitrito; cloreto; nitrato; Peshawar; Kohat

1. Introduction

Contaminated water is known as one of the major health risks in Pakistan (Ahmad et al., 2012aAHMAD, I., BAHADAR, K., ULLAH, H., REHMAN, A., IQBAL, H., WAHAB, A., HAQ, A.U., KHAN, M.A. and IJAZ, F., 2012a. Physico-chemical analysis of drinking water sources at sampling point of Billitang, KDA, Nasrat Khel and Chongee of District Kohat, K.P.K., Pakistan. International Journal of Science Innovations and Discoveries, vol. 2, pp. 598-609.). Both chemical ions and microbial contamination are considered as the culprit. Common bacterial contaminants include E. coli, Salmonella, Shigella, and Campylobacter jejuni. On the other hand, viral contaminants like norovirus, rotavirus, enteroviruses, hepatitis causing viruses and parasitic agents e.g. Giardia, Cryptosporidium and Microsporidia etc. are mostly involved in water contamination (Leclerc et al., 2002LECLERC, H., SCHWARTZBROD, L. and DEI-CAS, E., 2002. Microbial agents associated with waterborne diseases. Critical Reviews in Microbiology, vol. 28, no. 4, pp. 371-409. http://dx.doi.org/10.1080/1040-840291046768. PMid:12546197.
http://dx.doi.org/10.1080/1040-840291046... ). Among all these infectious contaminants, Coliform i.e. E. coli is considered as most prevalent infectious agent that is highly associated with the human and animal intestinal infections (Nkere et al., 2011NKERE, C., IBE, N. and IROEGBU, C., 2011. Bacteriological quality of foods and water sold by vendors and in restaurants in Nsukka, Enugu State, Nigeria: a comparative study of three microbiological methods. Journal of Health, Population, and Nutrition, vol. 29, no. 6, pp. 560-566. PMid:22283029.).

In addition to microbial contamination, anions and cations in high quantity such as nitrates, nitrites, sulphates, and chlorides also cause serious threats to human and animal health. Nitrate and nitrite affect non-breastfed infants and cause ‘blue baby syndrome’ in them. In addition to this, it has no taste, colour and smell and can only be detected through chemical tests. According to World Health Organization (WHO) and Pakistan Research Council in Water Resources (PCRWR), nitrite and nitrate levels greater than 1-3 mg/L and 10-50 mg/L, respectively, can pose a risk to humans. It is gains entry through ingestion only – drinking, cooking, teeth brushing (Rashid et al., 2018RASHID, H., MANZOOR, M.M. and MUKHTAR, S., 2018. Urbanization and its effects on water resources: an exploratory analysis. Asian Journal of Water, Environment and Pollution, vol. 15, no. 1, pp. 67-74. http://dx.doi.org/10.3233/AJW-180007.
http://dx.doi.org/10.3233/AJW-180007... ). On the other hand, chloride ions are potential cause of bad taste and hypertension because of its presence along with sodium ions. Addition to these studied ions, presence of sulphate ions in drinking water causes a laxative effect and dehydration. Its presence in drinking water also changes in the taste. For chlorides and sulphates, WHO and PCRWR have set standard limits to 250 mg/L. In short, these ions, more than their standard limits, can cause major impact on human health (Feldman et al., 2007FELDMAN, P.R., ROSENBOOM, J.-W., SARAY, M., SAMNANG, C., NAVUTH, P. and IDDINGS, S., 2007. Assessment of the chemical quality of drinking water in Cambodia. Journal of Water and Health, vol. 5, no. 1, pp. 101-116. http://dx.doi.org/10.2166/wh.2006.048. PMid:17402283.
http://dx.doi.org/10.2166/wh.2006.048... ).

Pakistan is considered among those countries that have low sanitary conditions and lack of knowledge (Anwar et al., 2010ANWAR, M.S., LATEEF, S. and SIDDIQI, G.M., 2010. Bacteriological quality of drinking water in Lahore. Biomedica, vol. 26, pp. 66-69.). Among all the provinces, Khyber Pakhtunkhwa is considered as one of the most war stricken, flood affected, distant and highly impoverished area. It is reported that water-borne diseases are a huge menace for the population comprising only 47% of households with tap water and 61% with safe sanitations in Pakistan, several studies to monitor the drinking water quality have been carried out, but the remote, rugged and poverty stricken mountainous areas remained least monitored or almost neglected. After observing this situation, the present study has been conducted to investigate the bacteriological and chemical analysis of drinking water in most important districts i.e., Peshawar, Mardan, Kohat and Swat districts of Khyber Pakhtunkhwa (KP) Pakistan.

2. Materials and Methods

As mentioned earlier, Khyber Pakhtunkhwa is considered as one of the most war stricken area. Additionally, districts included in this study, such as Peshawar, Kohat, Swat and Mardan, were selected on the basis of high population, comparable less security risks, and considerable place for migrating war stricken populations.

2.1. Sampling

For both bacteriological and chemical analysis, water samples (n=200) were collected in 50 mL sterile polyethylene bottles from 5 different sources i.e. bottles, wells, bore (115-380 feet), taps, and hand-pumps in a sterile manner (Ahmad et al., 2012bAHMAD, S.R., KHAN, M.S., KHAN, A.Q., GHAZI, S. and ALI, S., 2012b. Sewage water intrusion in the groundwater of Lahore, its causes and protections. Pakistan Journal of Nutrition, vol. 11, no. 5, pp. 484-488. http://dx.doi.org/10.3923/pjn.2012.484.488.
http://dx.doi.org/10.3923/pjn.2012.484.4... ; Gwimbi, 2011GWIMBI, P., 2011. The microbial quality of drinking water in Manonyane community: maseru District (Lesotho). African Health Sciences, vol. 11, no. 3, pp. 474-480. PMid:22275942.). 50 samples were collected from each district. The purposive sampling was done to collect all the samples from each district. These samples were immediately stored at a temperature between 0 to 4 °C before processing (Anwar et al., 2010ANWAR, M.S., LATEEF, S. and SIDDIQI, G.M., 2010. Bacteriological quality of drinking water in Lahore. Biomedica, vol. 26, pp. 66-69.).

2.2. Microbiological analysis

For microbiological analyses, previously mentioned methods were followed after little modification (Akeju and Awojobi, 2015AKEJU, T. and AWOJOBI, K.O., 2015. Enumeration of coliform bacteria and characterization of Escherichia coli isolated from Staff Club swimming pool in Ile-Ife, Nigeria. Microbiological Research, vol. 6, pp. 5972.). Lauryl Triptose broth was used as a medium in presumptive coliform test (Ali et al., 2011ALI, J., HUSSAIN, A. and ABID, H., 2011. The occurrence of coliforms bacteria in water reservoir at different schools of district Peshawar. Pakistan Journal of Biochemistry and Molecular Biology, vol. 44, pp. 64-67.; Anwar et al., 2010ANWAR, M.S., LATEEF, S. and SIDDIQI, G.M., 2010. Bacteriological quality of drinking water in Lahore. Biomedica, vol. 26, pp. 66-69.). Three sets of tubes were inoculated with 10 mL, 1 mL and 0.1 mL of each water sample. The tubes were incubated at 37 °C to 44 °C for 24-48 hours and examined for acid and gas production. Following this presumptive coliform test, total coliform confirmatory test was performed using Brilliant Green Lactose Bile broth. For total coliform, these inoculated tubes were incubated at 37 °C for 24-48 hours. For faecal coliform, these tubes were incubated at 44 °C and kept under observation for gas production. After faecal coliform confirmation, Eosin Methylene Blue (EMB) agar plates were used for detection of E. coli. These EMB plates were streaked by a loop dipped in the broth from each positive tube and checked for bacterial presence (Ali et al., 2011ALI, J., HUSSAIN, A. and ABID, H., 2011. The occurrence of coliforms bacteria in water reservoir at different schools of district Peshawar. Pakistan Journal of Biochemistry and Molecular Biology, vol. 44, pp. 64-67.; Anwar et al., 2010ANWAR, M.S., LATEEF, S. and SIDDIQI, G.M., 2010. Bacteriological quality of drinking water in Lahore. Biomedica, vol. 26, pp. 66-69.).

2.3. Chemical analysis

Different chemical tests were performed to check the status of chemical ions i.e. Chlorides (Cl), Nitrates (NO₂), Nitrates (NO₃), Sulphates (SO₄) and Total Soluble Solids (TSS) present in sampled water. These ions were analysed according to standard procedures (Feldman et al., 2007FELDMAN, P.R., ROSENBOOM, J.-W., SARAY, M., SAMNANG, C., NAVUTH, P. and IDDINGS, S., 2007. Assessment of the chemical quality of drinking water in Cambodia. Journal of Water and Health, vol. 5, no. 1, pp. 101-116. http://dx.doi.org/10.2166/wh.2006.048. PMid:17402283.
http://dx.doi.org/10.2166/wh.2006.048... ; Khan et al., 2012bKHAN, N., HUSSAIN, S.T., SABOOR, A., JAMILA, N., AHMED, S., ULLAH, R., ULLAH, Z., ALI, S., LEE, S.-I. and KIM, K.S., 2012b. Bacteriological investigation of ground water sources in selected urban areas of district Mardan, Khyber Pakhtunkhwa, Pakistan. African Journal of Biotechnology, vol. 11, pp. 11236-11241.; Soylak et al., 2002SOYLAK, M., AYDIN, F., SARACOGLU, S., ELCI, L. and DOGAN, M., 2002. Chemical analysis of drinking water samples from Yozgat, Turkey. Polish Journal of Environmental Studies, vol. 11, pp. 151-156.). For Nitrates (NO₂), Nitrates (NO₃), and Sulphates (SO₄) ions,Cadmium Reduction Method (Hach-8192) and SulfaVer4 (Hach-8051) by Spectrophotometer were utilized, respectively. For Chlorides (Cl) determination, argentometric method using potassium chromate indicator and standard AgNO₃solution was utilized. For TSS determination, all the water samples were filtered through Beckman filter paper and dried in oven at 103-105 °C.

2.4. Statistical analysis

Basic descriptive statistical analysis was performed to interpret the maximum and minimum values in categories of ions and bacteria found in different districts and different sources by utilizing GraphPad Prism v6.0 for windows (GraphPad Software, Inc., San Diego, CA). AICcmodavg package of R- language was utilized in order to compare different groups using two way ANOVA test and Tukey HSD post –hoc test (p-value <0.05).

3. Results and Discussion

3.1. Microbiological analysis

The results of bacteriological analysis for all districts are shown in Figure 1. This study analysed water from different sources present in each district and were found contaminated with bacteria, both total coliforms and E. coli (Table 1). The water samples from all the districts resulted in the varying trends of bacterial contamination. In Peshawar district, of 50 samples, 22 (44%) samples were positive for total coliform and 14were positive for E. coli. The highest value of bacterial contamination was recorded in bore water/hand-pumps water 6 (60%), tap water and hotel water followed by well water 4 (40%) and bottle water 0%. In Mardan district, among total 50 samples, 24 (48%) and 22 (44%) samples were positive for faecal coliform and E. coli respectively. The bacterial contamination was recorded as highest 8 (80%) in well water and hotel water. In Kohat district, 34 (68%) positive samples for faecal coliform and 22 (44%) positive samples for E. coli were identified in 50 samples. The highest bacterial contamination was observed in tap water 8 (80%) followed by hotel water 6 (60%), bore water 6 (60%), well water 4 (40%) and bottle water 2 (20%). In Swat district, 18 (36%) faecal coliform positive samples and 14 (28%) E. coli positive samples were identified. The bore water was revealed to be highly contaminated with 6 (60%) contaminated samples whereas well water, tap water and hotel water were comparatively less contaminated i.e. 4 (40%).

In present study, faecal coliform count (> 34 cfu/100mL) was far above the accepted WHO standard i.e., 0 cfu/100 mL in drinking water(WHO, 2004WORLD HEALTH ORGANIZATION – WHO, 2004. Guidelines for drinking water quality. Geneva: WHO, vol. 2, 231 p.). These results indicate the presence of contact between human and animal wastes or possible mixing of drinking water with sewerage water. From bottle water, in all the districts, least bacterial counts were observed. These results were in fully agreement with the reports of Pakistan Research Council in Water Resources (PCRWR) (PCRWR, 2012PAKISTAN RESEARCH COUNCIL IN WATER RESOURCES – PCRWR, 2012. National Research Agenda on Water 2016-25. Islamabad: PCRWR.). On the other hand, samples from hotels, taps and bore water were observed as highly contaminated that is similar to the previous studies (Ahad et al., 2000AHAD, K., ANWAR, T., AHMAD, I., MOHAMMAD, A., TAHIR, S. and AZIZ, S., 2000. Determination of insecticide residues in groundwater of Mardan Division, NWFP, Pakistan: a case study. Water S.A., vol. 26, pp. 409-412.; Ali et al., 2011ALI, J., HUSSAIN, A. and ABID, H., 2011. The occurrence of coliforms bacteria in water reservoir at different schools of district Peshawar. Pakistan Journal of Biochemistry and Molecular Biology, vol. 44, pp. 64-67.; Anwar et al., 2010ANWAR, M.S., LATEEF, S. and SIDDIQI, G.M., 2010. Bacteriological quality of drinking water in Lahore. Biomedica, vol. 26, pp. 66-69.). Pipelines are potential source of bacterial contamination as the distribution network of water supply comes in contact with waste-water and faeces (Moe and Rheingans, 2006MOE, C. and RHEINGANS, R., 2006. Global challenges in water, sanitation and health. Journal of Water and Health, vol. 4, suppl. 1, pp. 41-57. http://dx.doi.org/10.2166/wh.2006.0043. PMid:16493899.
http://dx.doi.org/10.2166/wh.2006.0043... ; Younas et al., 2016YOUNAS, M., SIDDIQUI, F., NOREEN, Z., BOKHARI, S.S., GOMEZ-DUARTE, O.G., WREN, B.W. and BOKHARI, H., 2016. Characterization of enteropathogenic Escherichia coli of clinical origin from the pediatric population in Pakistan. Transactions of the Royal Society of Tropical Medicine and Hygiene, vol. 110, no. 7, pp. 414-420. http://dx.doi.org/10.1093/trstmh/trw047. PMid:27496516.
http://dx.doi.org/10.1093/trstmh/trw047... ; Rashid et al., 2021RASHID, M., KHAN, M.N. and JALBANI, N., 2021. Detection of human adenovirus, Rotavirus, and Enterovirus in tap water and their association with the overall quality of water in Karachi, Pakistan. Food and Environmental Virology, vol. 13, no. 1, pp. 44-52. http://dx.doi.org/10.1007/s12560-020-09448-8. PMid:33180282.
http://dx.doi.org/10.1007/s12560-020-094... ).

3.2. Chemical analysis

The highest concentration of sulphate was recorded in well water from district Peshawar with 233.2 ± 62.88 mg/L (150-305 mg/L) ions whereas least concentration of 36.2 ± 22.01 mg/L (8-65 mg/L) ions was recorded in Bore water of district Mardan (Figure 2). The sulphate content of all water samples from these districts was permissible to drink according to PSQCA and WHO standards i.e., 250 mg/L (Figure 2a). When comparing with other water sources across the districts, higher concentrations were observed in well water and hotel water whereas bore water had least sulphate contents. For water of the Khyber Pakhtunkhwa, the high values of sulphates were reported from hotel water and well water sources(Hussain et al., 2012HUSSAIN, J., SHAH, J., HUSSAIN, W., ALI, R., SOUSA, L.J., LOPES, W.A., KHAN, I. and NASCIMENTO, I.A., 2012. Evaluation of the Quality of Drinking Water of Mardan District, KPK, Pakistan. American-Eurasian J. Agric. & Environ. Sci, vol. 12, pp. 1047-1051.; Khan et al., 2005KHAN, A., MUMTAZ, MIN, K.-S., MARWAT, G. and RIAZ, M., 2005. Potable water quality characteristics of the urban areas of Peshawar (Pakistan) part 2: well water. Journal of the Chemical Society of Pakistan, vol. 27, pp. 239-245.). In all the cases, water of Khyber Pakhtunkhwa is not polluted according to their Sulphates content i.e. 250 mg/L is permitted (Alam et al., 2008ALAM, S., AHMAD, S. and BANGASH, F.K., 2008. Drinking water quality of Swat district. Journal of the Chemical Society of Pakistan, vol. 30, pp. 2008.). The source of sulphates in water can be from both natural and human sources. It can also contaminate the water when high rainfall or industrial waste water comes in contact (Azizullah et al., 2011AZIZULLAH, A., KHATTAK, M.N.K., RICHTER, P. and HÄDER, D.-P., 2011. Water pollution in Pakistan and its impact on public health: a review. Environment International, vol. 37, no. 2, pp. 479-497. http://dx.doi.org/10.1016/j.envint.2010.10.007. PMid:21087795.
http://dx.doi.org/10.1016/j.envint.2010.... ). Water containing magnesium sulphate at levels above 600 mg/L acts as a purgative in humans. The presence of sulphate in drinking water can also result in a noticeable taste and hardness (Azizullah et al., 2011AZIZULLAH, A., KHATTAK, M.N.K., RICHTER, P. and HÄDER, D.-P., 2011. Water pollution in Pakistan and its impact on public health: a review. Environment International, vol. 37, no. 2, pp. 479-497. http://dx.doi.org/10.1016/j.envint.2010.10.007. PMid:21087795.
http://dx.doi.org/10.1016/j.envint.2010.... ; Heydari and Bidgoli, 2012HEYDARI, M. and BIDGOLI, H., 2012. Chemical analysis of drinking water of Kashan District, Central Iran. World Applied Sciences Journal, vol. 16, pp. 799-805.).

The highest value of nitrate i.e., 4.22 ± 4.41 mg/L (0.336-11.65 mg/L) was observed in well water of Mardan District whereas lowest observed value 0.024 ± 0.002 mg/L (0-0.12 mg/L) belonged to hotel water from Peshawar district (Figure 2b). All the values of nitrate ion in sampled sources were present in permissible ranges of PSQCA and WHO standards i.e. ≤20mg/L or below excessive limit of 50 mg/L (Alam et al., 2008ALAM, S., AHMAD, S. and BANGASH, F.K., 2008. Drinking water quality of Swat district. Journal of the Chemical Society of Pakistan, vol. 30, pp. 2008.; WHO, 2004WORLD HEALTH ORGANIZATION – WHO, 2004. Guidelines for drinking water quality. Geneva: WHO, vol. 2, 231 p.). The trend of nitrate ions was consistently low in bottle water, hotel water and tap water in all the districts. These results are in accordance with the previous reported studies in all the districts (Alam et al., 2008ALAM, S., AHMAD, S. and BANGASH, F.K., 2008. Drinking water quality of Swat district. Journal of the Chemical Society of Pakistan, vol. 30, pp. 2008.; Azizullah et al., 2011AZIZULLAH, A., KHATTAK, M.N.K., RICHTER, P. and HÄDER, D.-P., 2011. Water pollution in Pakistan and its impact on public health: a review. Environment International, vol. 37, no. 2, pp. 479-497. http://dx.doi.org/10.1016/j.envint.2010.10.007. PMid:21087795.
http://dx.doi.org/10.1016/j.envint.2010.... ; Hussain et al., 2012HUSSAIN, J., SHAH, J., HUSSAIN, W., ALI, R., SOUSA, L.J., LOPES, W.A., KHAN, I. and NASCIMENTO, I.A., 2012. Evaluation of the Quality of Drinking Water of Mardan District, KPK, Pakistan. American-Eurasian J. Agric. & Environ. Sci, vol. 12, pp. 1047-1051.). The potential source must be the un-treated water wastes from factories.

Nitrite ions were recorded as higher concentration in hotel water in Kohat i.e. 0.416 ± 0.26 mg/L (0.07-0.67 mg/L). On the other hand, bottle water from Peshawar district with value of 0.0044 ± 0.0093 mg/L (0-0.21 mg/L) was considered as lowest nitrite concentration among all the sources (Figure 2c). For nitrite ions, all these sources were revealed to be perfectly fit for human consumption according to defined PSQCA (1 mg/L) and WHO standards (3 mg/L).Hotel water and tap water were found with higher nitrite-nitrogen levels but within the permissible limits of 1 mg/L (WHO, 2004WORLD HEALTH ORGANIZATION – WHO, 2004. Guidelines for drinking water quality. Geneva: WHO, vol. 2, 231 p.). These results are in accordance with the previous studies (Azizullah et al., 2011AZIZULLAH, A., KHATTAK, M.N.K., RICHTER, P. and HÄDER, D.-P., 2011. Water pollution in Pakistan and its impact on public health: a review. Environment International, vol. 37, no. 2, pp. 479-497. http://dx.doi.org/10.1016/j.envint.2010.10.007. PMid:21087795.
http://dx.doi.org/10.1016/j.envint.2010.... ; Khan et al., 2000KHAN, A.R., HAQ, I.U., KHAN, W.A., AKIF, M., KHAN, M. and RIAZ, M., 2000. Quality characteristics of potable water of Mardan City (Pakistan) and surrounding areas. Journal of the Chemical Society of Pakistan, vol. 22, pp. 87-93., 2013KHAN, N., HUSSAIN, S.T., KHAN, A. and KIM, K.S., 2013. Physiochemical investigation of drinking water sources from Tehsil Lachi, Kohat. American Journal of Research Communication, vol. 1, pp. 170-190.). This higher level infers that these water sources may be used for bathing, hand washing, and dishwashing. Elevated nitrite levels in well water may indicate different problems related to water quality that can cause several health issues i.e., blue babies syndrome.

Chloride ions with value of 231.8 ± 156.7 mg/L (59-450 mg/L) was ranked as highest in the tap water of Kohat district. The lowest value of 26.6 ± 20.25 mg/L (8-59 mg/L) was present in bottle water of Peshawar district (Figure 2d). The chloride ion content, in all the districts and sources, was in acceptable range i.e. 250 mg/L except Tap water from Kohat district.

According to WHO and Pakistan Standards and Quality Control Authority, the permissible limit for chlorides is 250 mg/L(Moe and Rheingans, 2006MOE, C. and RHEINGANS, R., 2006. Global challenges in water, sanitation and health. Journal of Water and Health, vol. 4, suppl. 1, pp. 41-57. http://dx.doi.org/10.2166/wh.2006.0043. PMid:16493899.
http://dx.doi.org/10.2166/wh.2006.0043... ; Soylak et al., 2002SOYLAK, M., AYDIN, F., SARACOGLU, S., ELCI, L. and DOGAN, M., 2002. Chemical analysis of drinking water samples from Yozgat, Turkey. Polish Journal of Environmental Studies, vol. 11, pp. 151-156.). This water is thus acceptable for chlorides and of good quality with respect to chlorides. These results are in accordance with all the previous conducted studies in all these districts except Kohat (Ahmad et al., 2012aAHMAD, I., BAHADAR, K., ULLAH, H., REHMAN, A., IQBAL, H., WAHAB, A., HAQ, A.U., KHAN, M.A. and IJAZ, F., 2012a. Physico-chemical analysis of drinking water sources at sampling point of Billitang, KDA, Nasrat Khel and Chongee of District Kohat, K.P.K., Pakistan. International Journal of Science Innovations and Discoveries, vol. 2, pp. 598-609.; Alam et al., 2008ALAM, S., AHMAD, S. and BANGASH, F.K., 2008. Drinking water quality of Swat district. Journal of the Chemical Society of Pakistan, vol. 30, pp. 2008.; Ali et al., 2011ALI, J., HUSSAIN, A. and ABID, H., 2011. The occurrence of coliforms bacteria in water reservoir at different schools of district Peshawar. Pakistan Journal of Biochemistry and Molecular Biology, vol. 44, pp. 64-67.; Azizullah et al., 2011AZIZULLAH, A., KHATTAK, M.N.K., RICHTER, P. and HÄDER, D.-P., 2011. Water pollution in Pakistan and its impact on public health: a review. Environment International, vol. 37, no. 2, pp. 479-497. http://dx.doi.org/10.1016/j.envint.2010.10.007. PMid:21087795.
http://dx.doi.org/10.1016/j.envint.2010.... ; Khan et al., 2013KHAN, N., HUSSAIN, S.T., KHAN, A. and KIM, K.S., 2013. Physiochemical investigation of drinking water sources from Tehsil Lachi, Kohat. American Journal of Research Communication, vol. 1, pp. 170-190.). In Kohat district, samples from well water and tap water had unacceptable chloride levels that have been also reported in earlier studies (Khan et al., 2012bKHAN, N., HUSSAIN, S.T., SABOOR, A., JAMILA, N., AHMED, S., ULLAH, R., ULLAH, Z., ALI, S., LEE, S.-I. and KIM, K.S., 2012b. Bacteriological investigation of ground water sources in selected urban areas of district Mardan, Khyber Pakhtunkhwa, Pakistan. African Journal of Biotechnology, vol. 11, pp. 11236-11241., 2013KHAN, N., HUSSAIN, S.T., KHAN, A. and KIM, K.S., 2013. Physiochemical investigation of drinking water sources from Tehsil Lachi, Kohat. American Journal of Research Communication, vol. 1, pp. 170-190.). The excessive intake of drinking-water containing sodium chloride at concentrations above 250 mg/litre has been reported to produce hypertension(WHO, 2004WORLD HEALTH ORGANIZATION – WHO, 2004. Guidelines for drinking water quality. Geneva: WHO, vol. 2, 231 p.). Possible source may be due to leaching of soil minerals, increasing salinity, washing of utensils containing pesticides and nearby restaurants (Rashid et al., 2018RASHID, H., MANZOOR, M.M. and MUKHTAR, S., 2018. Urbanization and its effects on water resources: an exploratory analysis. Asian Journal of Water, Environment and Pollution, vol. 15, no. 1, pp. 67-74. http://dx.doi.org/10.3233/AJW-180007.
http://dx.doi.org/10.3233/AJW-180007... ).

TSS level was significantly high i.e. 9 ± 2.70 mg/L in well water of Kohat district and the least value i.e. 2.2 ± 0.58 mg/L was recorded in bottled water of Peshawar district. The trend of TSS level was higher (> 7 mg/L) in well water of all districts followed by hotel water (5-7 mg/L). Bore water, bottle water and tap water were present in acceptable TSS level limits (< 5mg/L) (Figure 2e). On the other hand, allowable standard values of Total Soluble Solid (TSS) range below 5 mg/L (WHO, 2004WORLD HEALTH ORGANIZATION – WHO, 2004. Guidelines for drinking water quality. Geneva: WHO, vol. 2, 231 p.). Well water sources across the districts were found with high TSS level (5.75-9 mg/L) indicating that well water is being exposed to certain contaminated sources. These results are in accordance with Khan et al. (2012a)KHAN, N., HUSSAIN, S.T., HUSSAIN, J., JAMILA, N., AHMED, S., ULLAH, R., ULLAH, Z., ALI, S. and SABOOR, A., 2012a. Chemical and microbial investigation of drinking water sources from Kohat, Pakistan. International Journal of Physical Sciences, vol. 7, pp. 4093-5002..

Among the districts, Well water from Kohat had the highest value which is completely in agreement with previous study (Azizullah et al., 2011AZIZULLAH, A., KHATTAK, M.N.K., RICHTER, P. and HÄDER, D.-P., 2011. Water pollution in Pakistan and its impact on public health: a review. Environment International, vol. 37, no. 2, pp. 479-497. http://dx.doi.org/10.1016/j.envint.2010.10.007. PMid:21087795.
http://dx.doi.org/10.1016/j.envint.2010.... ; Khan et al., 2013KHAN, N., HUSSAIN, S.T., KHAN, A. and KIM, K.S., 2013. Physiochemical investigation of drinking water sources from Tehsil Lachi, Kohat. American Journal of Research Communication, vol. 1, pp. 170-190.). TSS content of water causes salinity or cloudy appearance and mainly occurs due to carbonates and bi-carbonates. These suspended soluble compounds are possibly released from the sedimentary rocks, industrial wastes and sewerage pipelines (Azizullah et al., 2011AZIZULLAH, A., KHATTAK, M.N.K., RICHTER, P. and HÄDER, D.-P., 2011. Water pollution in Pakistan and its impact on public health: a review. Environment International, vol. 37, no. 2, pp. 479-497. http://dx.doi.org/10.1016/j.envint.2010.10.007. PMid:21087795.
http://dx.doi.org/10.1016/j.envint.2010.... ).Among the sources, hotel and wells near to sewage areas, canals, common drinking places of animals, and factory areaswere found more contaminated as compare to others.

4. Conclusion

This study concludes that water of KPK province is not chemically and microbiologically fit for drinking especially from unprotected sources that possess microbial contamination i.e., wells and hotels. When drinking water, people must ensure the purity of water otherwise results could be drastic. The microbial contamination can be prevented by taking certain precautionary measures. For family and children in home, Filtered and Boiled water should be used as there is risk of contamination of tap water. When in journey, bottle water is a good option. We recommend that water surveys must be continued to detect baseline data and different levels of other ions and heavy metals. This will be helpful in determining the future needs and tailoring of future policies.

References

Publication Dates

History