تعداد نشریات | 161 |
تعداد شمارهها | 6,477 |
تعداد مقالات | 70,014 |
تعداد مشاهده مقاله | 122,920,537 |
تعداد دریافت فایل اصل مقاله | 96,133,315 |
Physico-chemical and bacteriological characterization of surface water in Djendjen River (North Eastern Algeria) | ||
Pollution | ||
مقاله 8، دوره 3، شماره 2، تیر 2017، صفحه 261-272 اصل مقاله (324.51 K) | ||
نوع مقاله: Original Research Paper | ||
شناسه دیجیتال (DOI): 10.7508/pj.2017.02. 008 | ||
نویسندگان | ||
Abderrezak Krika* 1؛ Fouad Krika2 | ||
1Department of Environmental Sciences and Agronomic Sciences, Faculty of Nature Life and Sciences, University of Jijel BP 98 Ouled Aissa, Jijel 18000, Algeria | ||
2Department of Process Engineering, Faculty of Technology, University of Laghouat, BP 37G, Laghouat 03000, Algeria | ||
چکیده | ||
Djendjen River is one of the largest rivers in the region of Jijel (Algeria). Human activities such as urban discharges, industrial, agricultural, and livestock have significant effects on the quality of water. The present study attempts to evaluate the quality of water along the banks of the Djendjen River at different sampling sites, using physico-chemical and bacteriological methods. The collected samples are analyzed per standard method parameters and measured in situ. The mean values of the physico-chemical parameters of the river water samples are consistently lower than the levels, certified by the Algerian standard (exept for pH and PO43-). The total and fecal coliform surpasses the Algerian standard limits (0 cfu/ 100 ml) at all sites, signifying that without treatment the water is unsuitable for human consumption. Results reveal that water quality of the Djendjen River is generally affected by the anthropogenic activities, taking place along its banks. The moderate organic pollution (OPI= 2-2.6) and high faecal contamination (MQI=3-3.25) of water in the study area has adverse impacts on the environment and public health, which requires a combined treatment (biological and physicochemical). | ||
کلیدواژهها | ||
Djendjen River؛ microbiological quality index؛ organic pollution index؛ Water | ||
مراجع | ||
Akkoyunlu, A. and Akiner, M.E. (2012). Pollution evaluation in streams using water quality indices: a case study from Turkey’s Sapanca Lake Basin. Ecol. Indic., 18, 501-511.
Arsovski, T., Arsovski, M., Cvetkovski, M., Arsov, L., Petrovski, A. and Vasilevska, L.J. (1991). Study for the Protection of the Water Resources from Pollution of the River Vardar and its Tributaries. Civil Engineer Institute Publications, Skopje.
APHA. (1998). Standard Methods for the Examination of water and wastewater, 20th Ed.
Bayram, A., Önsoy, H., Bulut, V.N. and Akinci, G. (2013). Influences of urban wastewaters on the stream water quality: a case study from Gumushane Province, Turkey. Environ Monit. Assess., 185, 1285-1303.
Bhumbla, D.K. (2011). Agriculture practices and nitrate pollution of water. Available from http://www.caf.wvu.edu/*forage/ nitratepollution/nitrate.htm. Accessed 15 Feb 2012.
Bovesse, M. and Depelchin, A. (1980). Cartographie de la pollution des cours d'eau de la province de Namur: analyses bactériologiques, Rapport final. pp. 1-25. [in French]
Chang, H. (2008). Spatial analysis of water quality trends in the Han River basin, South Korea. Water. Res., 42, 3285-3304.
Chapman, D. (1996). Water Quality Assessments - A Guide to Use of Biota, Sediments and Water in Environmental Monitoring, second ed. E&FN Spon, Cambridge, Great Britain, 19-39.
DFID. (1999). A simple Methodology for Water Quality Monitoring. In: Pearce, G.R., Chaundhry, Ghulum, S. (Eds.), Department for International Development, Wallingford.
Djidel, M., Bousnoubra-Kherici, H., Kherici, N. and Nezli, I.D. (2008). Alteration of the Aquifer Water in Hyperarid Climate, by Wastewater: Cases of Groundwater from Ouargla (Northern Sahara, Algeria). Am. Environ. Sci., 4, 569-575.
Ekholm, P. and Krogenus, K. (1998). Bioavailability of phosphorus in purified municipal wastewaters. Water. Res., 32, 343-351.
Ferreira, R.V., Cerqueira, M.A., Condesso de Melo, M.R., Figueiredo, D.R. and Keizer, J.J. (2010). Spatial patterns of surface water quality in the C_ertima River basin, central Portugal. J. Environ. Monit., 12, 189-199.
Frey, S.K., Topp, E., Edge, T., Fall, C., Gannon, V. and Jokinen, C. (2013). Using SWAT, Bacteroidales microbial source tracking markers, and fecal indicator bacteria to predict waterborne pathogen occurrence in an agricultural watershed. Water. Res., 47, 6326-6337.
Haldar, D., Halder, S., Das (Saha), P. and Halder, G. (2014). Assessment of water quality of Damodar River in South Bengal region of India by Canadian Council of Ministers of Environment (CCME) Water Quality Index: a case study. Desalin. Water. Treat. DOI: 10.1080/19443994.2014.987168.
Harnisz, M. (2013). Total resistance of native bacteria as an indicator of changes in the water environment. Environ. Pollut., 174, 85-92.
He, B., Kanae, S., Oki, T., Hirabayashi, Y., Yamashiki, Y. and Takara, K. (2011). Assessment of global nitrogen pollution in rivers using an integrated biogeochemicalmodeling framework. Water. Res., 45, 2573-2586.
Hurley, T., Sadiq, R. and Mazumder, A. (2012). Adaptation and evaluation of the Canadian Council of Ministers of the Environment water quality index (CCME WQI) for use as an effective tool to characterize drinking sourcewater quality.Water. Res., 46, 3544-3552.
Igbinosa, E.O. and Okoh, I.A. (2009). Impact of discharge wastewater effluents on the physico-chemical qualities of a receiving watershed in a typical rural community. Int. J Environ. Sci. Tech., 6, 175-182.
JOA. (2011). Journal Officiel de la République Algérienne, 34, 1-23.
Korzeniewska, E., Korzeniewska, A. and Harnisz, M. (2013). Antibiotic resistant Escherichia coli in hospital and municipal sewage and their emission to the environment. Ecotoxicol. Environ. Saf., 91, 96-102.
Leclercq, L. and Maquet, B. (1987). Deux nouveaux indices chimique et diatomique de qualité d'eau courante. Application au Samson et à ses affluents (Bassin de la Meuse belge). Comparaison avec d'autres indices chimiques, biocénotiques et diatomiques.Inst. Roy. Sc. Nat. Belg., 38, 113p. [in French]
Lucena, F., Bosch, A., Ripoll, J. and Jofre, J. (1988). Fecal pollution in LLlobregat river: interrelationships of viral, bacterial, and phisico-chemical parameters. Water. Air. Soil. Pollut., 39, 15-25.
Lumb, A., Sharma, T.C. and Bibeault, J.F. (2011). A review of genesis and evolution ofwater quality index (WQI) and some future directions. Water. Qual. Expo. Health., 3, 11- 24.
Magha, A., Awah, M.T., Kouankap, G.D., Wotchoko, P., Tabot, M.A. and Kabeyene, V.K. (2015). Physico-Chemical and Bacteriological Characterization of Spring and Well Water in Bamenda III (NW Region, Cameroon). Am. J. Environ. Protec., 4, 163-173.
Mukherjee, D., Chattopadhyay, M. and Lahiri, S.C. (1993). Water quality of river Ganga (The Ganges) and some of its physico-chemical properties, Environmentalist, 13, 199-210.
Perrin, J.L., Raïs, N., Chahinian, N., Moulin, P. and Ijjaali, M. (2014). Water quality assessment of highly polluted rivers in a semi-arid Mediterranean zone Oued Fez and Sebou River (Morocco). J. Hydrol., 510, 26-34.
Pradhan, U.K., Sirodkar, P.V. and Sahu, B.K. (2009). Physicochemical characteristics of the coastal water off Devi estuary, Orissa and evaluation of its seasonal changes using chemometric techniques. Curr. Sci., 96, 1203-1209.
Ranjbar Jafarabadi, A., Masoodi, M., Sharifiniya, M. and Riyahi Bakhtiyari, A. (2016). Integrated river quality management by CCME WQI as an effective tool to characterize surface water source pollution (Case study: Karun River, Iran). Pollution, 2(3): 313-330. Rouabhia, A., Baali, F. and Fehdi, C. (2010). Impact of agricultural activity and lithology on groundwater quality in the Merdja area, Tebessa, Algeria. Arab. J. Geosci., 3, 307-318.
Sibanda, T., Chigor, V.N., Koba, S., Obi, C.L. and Okoh, A.I. (2014). Characterisation of the physicochemical qualities of a typical rural-based river: ecological and public health implications. Int. J. Environ. Sci. Technol., 11, 1771-1780.
Sun, J., Chen, Y., Zhang, Z., Wang, P., Song, X., Wei, X. and Feng, B. (2015). The spatio-temporal variations of surface water quality in China during the Eleventh Five-Year Plan. Environ. Monit. Assess. DOI 10.1007/s10661-015-4278-z.
Suthar, S., Sharma, J., Chabukdhara, M. and Nema, A.K. (2010). Water quality assessment of riverHindon atGhaziabad, India: impact of industrial and urban wastewater. Environ. Monit. Assess., 165, 103-112.
TSE (1990). TS 7886: Water quality-determination of orthophosphate with stannous chloride method. Turkish Standard Institution, Ankara.
Tunc Dede, O., Ilker, T., Telci, I.T. and Aral, M.M. (2013). The Use ofWater Quality Index Models for the Evaluation of Surface Water Quality: A Case Study for Kirmir Basin, Ankara, Turkey. Water. Qual. Expo. Health., 5, 41-56.
Walters, E., Graml, M., Behle, C., Müller, E. and Horn, H. (2013). Influence of particle association and suspended solids on UV inactivation of fecal indicator bacteria in an urban river. Water. Air. Soil. Pollut. DOI 10.1007/s11270-013-1822-8.
WHO (2006). Guidelines for drinking-water quality (electronic resource). Incorporating first addendum, 3rd ed., Vol. 1. Recommendations. World Health Organization: Geneva.
Xian, G., Crane, M. and Junshan, S. (2007). An analysis of urban development and its environmental impact on the Tampa Bay watershed. J. Environ. Manage., 85, 965-976.
Zaharia, L. (1999). Water resources of the Putna River Basin. Publishing House of the University of Bucharest. pp.1-304. | ||
آمار تعداد مشاهده مقاله: 2,656 تعداد دریافت فایل اصل مقاله: 1,340 |