پیوندهای مفید
اخبار و اعلانات
آمار
| تعداد نشریات | 161 |
| تعداد شمارهها | 6,466 |
| تعداد مقالات | 69,886 |
| تعداد مشاهده مقاله | 122,389,397 |
| تعداد دریافت فایل اصل مقاله | 95,639,027 |
Biological index and pollution assessment of Damghanroud river in the Semnan province | ||
| Desert | ||
| مقاله 7، دوره 22، شماره 1، خرداد 2017، صفحه 69-75 اصل مقاله (187.06 K) | ||
| نوع مقاله: Research Paper | ||
| شناسه دیجیتال (DOI): 10.22059/jdesert.2017.62172 | ||
| نویسندگان | ||
| K. Rezaei Tavabe* 1؛ A. Malekian2؛ A. Afzali3؛ A. Taya3 | ||
| 1Natural resources faculty of Tehran University. Daneshkedeh St. Karaj- Iran | ||
| 2superviore | ||
| 3International Desert Research Center | ||
| چکیده | ||
| Fresh Water Rivers are one of the most important aquatic ecosystems in arid and semi-arid regions of Iran in point of biodiversity and drinking water views. Damghanroud River is one of these rivers at Semnan province that during past years has been threatened by drought and anthropogenic pollutions. This river supplies some parts of drinking water of Damghan city and some vicinity villages. The aim of the present study is to consider Biological Index of the river; for this purpose, limnological and hydrobiological studies of the river were carried out. At this study, seven sampling stations were determined based on limnological standard method along the river; afterwards sampling of invertebrates (Biological Index) and water quality (BOD) were performed seasonally during study period. The results showed that the first station (Cheshmeh-Ali) is free of pollution while the fourth sampling station (Doab) is the most polluted region at the river because the first station has no pollutant resource but the fourth station directly receives wastewater of agricultural activities and rural wastewaters. According to biomonitoring and water BOD measurement findings, Damghanroud River has relatively polluted situation and is classified in β-mezosaprobe class and benthos biological index has been deteriorated at this river. | ||
| کلیدواژهها | ||
| Damghanroud river؛ Semnan Province؛ Biological index؛ Saproby؛ BOD | ||
| مراجع | ||
|
Afzali, A., H. Keshtkar, S. Pakzad, N. Moazami, E. Azizabadi Farahani, A. Golpaygani, E. Khosrojerdi, Z. Yousefi, M. TaghiNaghilou, 2016. Spatio-temporal analysis of drought severity using drought indices and deterministic and geostatistical methods (Case Study: Zayandehroud River Basin). Desert, 21; 165-172. Ahmadi, M., M. Nafisi, 2001. Identification of Running Water Indicator Invertebrate, Khabir publication, Tehran, Asefjah, B., F. Fanian, Z. Feizi, A. Abolhasani, H. Paktinat, M. Naghilou, A. Molaei Atani, M. Asadollahi, M. Babakhani, A. Kouroshnia, F. Salehi, 2014. Drought monitoring by using several meteorological drought indices (Case study: Salt Lake Basin of Iran). Desert, 19; 155-165. Baur, W., 1980. Gewasser guete bestimmen and beurtilen, Paul Parey Verlag, Stuttgart. Campolo, M., A. Soldati, P. Andreussi, 2001. Water quality control in the river Arno. Water Resour. Res., 35; 3547–3552. Chapman, D., 1992. Water Quality Assessment. In: Chapman D, London H, Chomczyńska M, Montusiewicz A, Malicki J, Lagód G, Editors. Application of Saprobes for Bioindication of Wastewater Quality. Environmental Engineering Science, 26; 289-296. Daniel, H., J. Haury, 1995. Effects of fish farm pollution on phytocenoses in an acidic river (the River Scorff, South Brittany, France). Acta Botanica Gallica, 142; 639-650. De los Rios Escalante, P., K. Górski, P. Acevedo, M. Castro, 2015. First observations of the aquatic invertebrate fauna in ephemeral Atacama River (22° S, Antofagasta Region, Chile). Desert, 20; 117-121. Grbovi, S., J. Walley, B. Kompare, 1997. Using machine learning techniques in the construction of models. Part II: Rule induction. Ecol. Modelling, 95; 95–111. Hur, J., J. Cho, 2012. Prediction of BOD, COD, and total nitrogen concentrations in a typical urban river using a fluorescence excitation-emission matrix with PARAFAC and UV absorption indices. Sensors, 12; 972-981. Kabir, H., M. Kibria, M. Jashimuddin, M.M. Hossain, 2015. Conservation of a river for biodiversity and ecosystem services: the case of the Halda – the unique river of Chittagong, Bangladesh. International Journal of River Basin Management, 13; 333-342. Kotti, M. E., A.G. Vlessidis, N.C. Thanasoulias, N.P. Evmiridis, 2005. Assessment of River Water Quality in Northwestern Greece. Water Resources Management, 19; 77-94. Laronne, J.B., L. Reid, 1993. Very high rates of bedload sediment transport by ephemeral desert rivers. Nature, 366; 148-150. Maidment, D.R., 2016. Open Water Data in Space and Time. Journal of the American Water Resources Association, 52; 816-824. Mehrdadi, N., M. Ghobadi, T. Nasrabadi, H. Hoveidi, 2006. Evaluation of the quality and selfpurification potential of Tajan river using QUAL2E Model. Iran. J. Environ. Health. Sci. Eng., 3; 199-204. Naserzadeh, M.H., E. Ahmadi, 2012. Study of meteorological drought index in drought monitoring and mapping in Qazvin province. Geo. Sc. Ap. Res. J., 27; 141-162. Ostroumov, S.A., 2005. On some issues of maintaining water quality and self-purification. Water Resource, 32; 337–346. Rezaei Tavabe, K., H. Azarnivand, 2013. Biodiversity in Qanats (The Case study of Kerman County, Iran). Desert, 18; 99-104. Rezaei Tavabe, K., M.A. Zare Chahouki, A. Yazdanpanah, A. Vazirzadeh, 2010. Limnological and pollution study of Shahdadroud River, Kerman province. Desert, 14; 21-26. Roldan, G., 2003. Bioindicacion de la calidad del agua en Colombia: Propuesta para el uso del método BMWP/Col, Colección Ciencia y Tecnología, Editorial Universidad de Antioquia, Colombia. Rosenberg, D.M., V.H. Resh, 1996. Use of aquatic insects in biomonitoring. In: Merritt RW, Cummins KW, Editors. An introduction to the Aquatic Insects of North America. Kendall/Hunt: Dubuque, USA; p. 87–96. Schwoerbel, J., 1999. Einführung in die Limnologie, Gustav Fischer Verlag, Stuttgart, Germany. Servais, P., A. Barillier, J. Garnier, 1995. Determination of the biodegradable fraction of dissolved and particulate organic carbon. Annales de Limnologie, 31; 75–80. Shahabfar, A.R., J. Eitzinger, 2013. Spatio-Temporal Analysis of Droughts in Semi-Arid Regions by Using Meteorological Drought Indices. Atm., 4; 94-112. Singh, K.P., A. Malik, D. Mohan, S. Sinha, 2004. Multivariate statistical techniques for the evaluation of spatial and temporal variations in water quality of Gomti River (India) a case study. Water Research, 38; 3980-3992. Swaroop, B.D., 1993. River BOD prediction under non- point discharge conditions. Indian Jornal of Engineering and Materials Sciences, 1; 35-40. Tian, S., Z. Wang, H. Shang, 2012. Study on the Self- purification of Juma River. Procedia Environmental Sciences, 11; 1328-1333. Vega, M., R. Pardo, E.L. Barrado, L. Deban, 1998. Assessment of seasonal and polluting effects on the quality of river water by exploratory data analysis, Water Research, 32; 3581–3592. Wegl, R., 1983. Wasser and abwasser, Index fure die limnosaprobitaet, Beitrege zur Gewasser Forschung, Wien. Wei, G., Z. Yang, B. Cui, B. Li, H. Chen, J. Bai, S. Dong, 2009. Impact of dam construction on water quality and water self-purification capacity of the Lancang River, China. Water Resources Management, 23; 1763-1780. Wilson, J.G., D.W. Jeffrey, 1994. Benthic biological pollution indices in estuaries. In: Kramer KJM, Editor. Biomonitoring of Coastal Water and Estuaries. CRC Press, Baton Rouge; USA; 276- 327. Zarei, R., M. Sarajian, S. Bazgeer, 2013. Monitoring meteorological drought in Iran using remote sensing and drought indices. Desert, 18; 89-97. | ||
|
آمار تعداد مشاهده مقاله: 905 تعداد دریافت فایل اصل مقاله: 954 |
||