The Effects Of Human Activity In Yasuj Area On The Health Of Stream City

The Yasuj city stream named the Beshar supply water for different usages such as aquaculture farms , drinking, agricultural and industrial usages. Fish processing plants ,Agricultural farms, waste water of industrial zones and hospitals waste water which they are generate by human activity produce a...

Full description

Bibliographic Details
Main Authors: Jamalodin Alvani, Fardin Boustani, Tabiee, Omid, Hashemi, Masoud
Format: Text
Language:English
Published: Zenodo 2011
Subjects:
Health
Human activities
Water pollution
Yasuj
Iran
Antarctic
Briggs
Canada
Crawford
O'Connor
Antarc*
Online Access:https://dx.doi.org/10.5281/zenodo.1074801
https://zenodo.org/record/1074801
Description
Summary:The Yasuj city stream named the Beshar supply water for different usages such as aquaculture farms , drinking, agricultural and industrial usages. Fish processing plants ,Agricultural farms, waste water of industrial zones and hospitals waste water which they are generate by human activity produce a considerable volume of effluent and when they are released in to the stream they can effect on the water quality and down stream aquatic systems. This study was conducted to evaluate the effects of outflow effluent from different human activity and point and non point pollution sources on the water quality and health of the Beshar river next to Yasuj. Yasuj is the biggest and most important city in the Kohkiloye and Boyerahmad province . The Beshar River is one of the most important aquatic ecosystems in the upstream of the Karun watershed in south of Iran which is affected by point and non point pollutant sources . This study was done in order to evaluate the effects of human activities on the water quality and health of the Beshar river. This river is approximately 190 km in length and situated at the geographical positions of 51° 20' to 51° 48' E and 30° 18' to 30° 52' N it is one of the most important aquatic ecosystems of Kohkiloye and Boyerahmad province in south-west Iran. In this research project, five study stations were selected to examine water pollution in the Beshar River systems. Human activity is now one of the most important factors affecting on hydrology and water quality of the Beshar river. Humans use large amounts of resources to sustain various standards of living, although measures of sustainability are highly variable depending on how sustainability is defined. The Beshar river ecosystems are particularly sensitive and vulnerable to human activities. The water samples were analyzed, then some important water quality parameters such as pH, dissolve oxygen (DO), Biochemical Oxygen Demand (BOD5), Chemical Oxygen Demand (COD), Total Suspended Solids (TDS),Turbidity, Temperature, Nitrates (NO3) and Phosphates (PO4) were estimated at the two stations. The results show a downward trend in the water quality at the down stream of the city. The amounts of BOD5,COD,TSS,T,Turbidity, NO3 and PO4 in the down stream stations were considerably more than the station 1. By contrast the amounts of DO in the down stream stations were less than to the station 1. However when effluent discharge consequence of human activities are released into the Beshar river near the city, the quality of river are decreases and the environmental problems of the river during the next years are predicted to rise. : {"references": ["Norman E. Peters, and Michel Meybeck, Water Quality Degradation\nEffects on Freshwater Availability: Impacts of Human Activities\n,International Water Resources Association Water International,\nVolume 25, Number 2, Pages 185-193, 2000", "Falkenmark, M. L. Andersson, R. Castensson, and K. Sundblad, eds.\nWater, A Reflection of Land Use - Options for Counteracting Land and\nWater Mismanagement. NFR, Swedish Natural Science Research\nCouncil, Stockholm, Sweden: 128 pages .1999", "Food and Agriculture Organization of the United Nations (FAO).\nAquaculture -- new opportunities and a cause for hope.\nhttp://www.fao.org/focus/e/fisheries/aqua.htm viewed on November 10,\n1999.", "Grant, A., & A.D. Briggs. 1998. Use of Ivermectin in marine fish farms:\nSome concerns. Marine Pollution Bulletin. 36(8): 566-568.", "Costelloe, M., Costelloe, J., O'Connor, B. and P. Smith. 1998. Densities\nof polychaetes in sediments under a salmon farm using Ivermectin.\nBulletin of the European Association of Fish Pathology. 18(1): 22-25.", "Hem, J.D. 1985. \"Study and Interpretation of the Chemical\nCharacteristics of Natural Water.\" U.S. Geological Survey Water-Supply\nPaper 2254: 263 pages,1985.", "Meybeck, M. 1996. \"River Water Quality: Global Ranges, Time and\nSpace Variabilities, Proposal for Some edefinitions.\"Internationale\nVereinigung f\u251c\u255dr Theoretische und Angewandte Limnologie,\nVerhandlungen 26: 81-96.", "Lundqvist, J. 1998. \"Avert Looming Hydrocide.\" Ambio 27, No. 6: 428-\n433.", "Meybeck, M. and R. Helmer. 1989. \"The Quality of Rivers: from\nPristine Stage to Global Pollution.\" Palaeogeography,\nPalaeoclimatology, Palaeoecology 75: 283-309.\n[10] Arnold, C.L.J. and C.J. Gibbons. 1996. \"Impervious Surface Coverage -\nThe Emergence of a Key Environmental Indica\u252c\u00bctor.\" Journal American\nPlanning Association 62: 243-256.\n[11] Moldan, B., S. Billharz, and R. Matrazers, eds. 1997. Sustainabillity\nIndicators. SCOPE 58, Paris, France.\n[12] United Nations Commission for Sustainable Development. 1997.\nComprehensive Assessment of the Fresh Water Resources of the World.\nGeneva, Switzerland: World Meteorological Organization.\n[13] Majewski, M.S. and P.D. Capel. 1995. \"Pesticides in the Atmosphere:\nDistribution, Trends, and Governing Factors.\" In R.J. Gilliom, ed.\npesticides in the Hydrologic System. Chelsea, Michigan, USA: Ann\nArbor Press: 214 pages.\n[14] Buser, H-R. 1990. \"Atrazine and Other s-triazine Herbicides in Lakes\nand in Rain in Switzerland.\" Environmental Sci\u252c\u00bcence and Technology\n24: 1049-1058.\n[15] Lockerbie, D.M. and T.A. Clair. 1988. \"Organic Contaminants in\nIsolated Lakes of Southern Labrador, Canada.\" Bulletin of\nEnvironmental Contamination and Toxicology 41: 625- 632.\n[16] Tanabe, S., H. Hidaka, R. Tatsukawa. 1983. \"PCBs and Chlorinated\nHydrocarbon Pesticides in Antarctic Atmosphere and Hydrosphere.\"\nChemosphere 12: 277-288.\n[17] Ghassemi, F., A.J. Jakeman, and H.A. Nix. 1995. Salinisation of Land\nand Water Resources; Human Causes, Extent, Man\u252c\u00bcagement and Case\nStudies. Australian National University, Centre for Resource and\nEnvironmental Studies, Canberra, Australia: 526 pages.\n[18] Pielke, R.A. and R. Avissar. 1990. \"Influence of Landscape Structure on\nLocal and Regional Climate.\" Landscape Ecology 4, No. 2/3: 133-155.\n[19] Stohlgren, T.J., T.N. Chase, R.A. Pielke, Sr., T.G.F. Kittel, and J.S.\nBaron. 1998. \"Evidence That Local Land Use Practices Influence\nRegional Climate, Vegetation, and Stream Flow Patterns in Adjacent\nNatural Areas.\" Global Change Biology 4, No. 5: 495-504.\n[20] Marsalek, J., Q. Rochfort, B. Brownlee, T. Mayer, and M. Servos.1999.\n\"An Exploratory Study of Urban Runoff Toxicity.\"Water Science and\nTechnology 39, No. 12: 33-39.\n[21] Young, A.L. 1999. \"Burying Love Canal.\" Environmental Regulation\nand Permitting 8, No. 3: 5-14.\n[22] Howe, H.L. 1988. \"A Comparison of Actual and Perceived Residential\nProximity to Toxic Waste Sites.\" Archives of Environmental Health 43,\nNo. 6: 415-419.\n[23] Rinella, J.F., S.W. McKenzie, J.K. Crawford, W.T. Foreman, G.J.\nFuhrer, J.L. Morace, and G.R. Aiken. 1999. \"Surface Water Quality\nAssessment of the Yakima River Basin, Washington;Distribution of\nPesticides and Other Organic Compoundsin Water, Sediment, and\nAquatic Biota, 1987-91.\"\n[24] Rinella, J.F., P.A. Hamilton, and S.W. McKenzie. 1993. \"Persistenceof\nthe DDT Pesticide in the Yakima River Basin, Washington.\" U.S.\nGeological Survey Circular 1090: 24 pages."]}

Similar Items