Assessment of Free and Total Cyanide Levels in the Water Environment of Shatt Al-Arab
Zuhair Ali Abdulnabi(1*)
(1) Department of Marine Chemistry, Marine Science Center, University of Basrah, Basra, Iraq
(*) Corresponding Author
Abstract
The concentration of free and total cyanide in waters was measured by using the colorimetric method through complex formation with pyridine-barbituric acid at the wavelength of 578 nm. Ten stations were selected from water surfaces in the south of Iraq. The samples were distributed among two stations, one was on Euphrates River and the other was on Tigris River (before their confluence and formatting of Shatt Al-Arab) and selected seven stations along Shatt Al-Arab River. All the samples were collected from surface water at depth of 10–15 cm and their pH was adjusted to 12 by using sodium hydroxide. The results showed the highest concentration of free cyanide (0.254 mg/L) in station W7 and the lowest concentration in stations W2, W9 and W10, while the highest and lowest concentration of total cyanide (9.962, 0.207 mg/L) were recorded in station W7 and W1 respectively. The standard deviation of all sites (n = 3) of free and total cyanide was calculated and showed 0.007–0.048 and 0.001–0.042 ranges respectively. Furthermore, some of the physico-chemical properties of water were recorded in these stations.
Keywords
Full Text:
Full Text PDFReferences
[1] Zheng, A., Dzombak, D.A., Luthy, R.G., Sawyer, B., Lazouskas, W., Tata, P., Delaney, M.F., Zilitinkevitch, L., Sebroski, J.R., Swartling, R.S., Drop, S.M., and Flaherty, J.M., 2003, Evaluation and testing of analytical methods for cyanide species in municipal and industrial contaminated waters, Environ. Sci. Technol., 37 (1), 107–115.
[2] American Public Health Association, American Water Works Association, Water Environment Federation, 1999, Standard Methods for the examination of water and wastewater, 20th Ed., APHA, AWWA, WEF, Washington DC.
[3] Owuamanam, C.I., Iwouno, J.O., Ihediohanma, N.C., and Barber, L.I., 2010, Cyanide reduction, functional and sensory quality of gari as affected by pH, temperature and fermentation time, Pak. J. Nutr., 9 (10), 980–986.
[4] Razanamahandry, L.C., Karoui, H., Andrianisa, H.A., and Yacouba, H., 2017, Bioremediation of soil and water polluted by cyanide: A review, Afr. J. Environ. Sci. Technol., 11 (6), 272–291.
[5] Chueachot, R., and Chanthai, S., 2014, Spectrophotometric determination of trace cyanide in fruit wines by the catalytic reaction of ninhydrin following micro-distillation, Orient. J. Chem., 30 (1), 119–131.
[6] Gijzen, H.J., Bernal, E., and Ferrer, H., 2000, Cyanide toxicity and cyanide degradation in anaerobic wastewater treatment, Water Res., 34 (9), 2447–2454.
[7] Mansfeldt, T., and Biernath, H., 2000, Determination of total cyanide in soils by micro-distillation, Anal. Chim. Acta, 406 (2), 283–288.
[8] Osobamiro, M.T., 2012, Determination of the concentration of total cyanide in waste water of a tobacco company in Southwestern Nigeria, J. Appl. Sci. Env. Manage., 16 (1), 61–63.
[9] Gensemer, R.W., Deforest, D.K. Cardwell, R.D., Dzombak, D., Santore, R., and Stewart, M., 2006, Reassessment of cyanide ambient water quality criteria: An integrated approach to the protection of the aquatic environment, Presentation at the SETAC North America 27th Annual Meeting, Montreal, Canada.
[10] Obiri, S., Dodoo, D.K., Okai-Sam, F., and Essumang, D.K., 2007, Determination of free cyanide and total cyanide concentrations in surface and underground waters in Bogoso and its surrounding areas in Ghana, Bull. Chem. Soc. Ethiop., 21 (2), 213–220.
[11] Delaney, M.F., and Blodget, C., 2015, Total cyanide field spikes for industrial wastewater samples verify successful sample integrity, preservation, pre-treatment and testing, Water Environ. Res., 87 (6), 559–566.
[12] Gautam, S.P., 2011, Guide manual: Water and wastewater analysis, Central Pollution Control Board, Ministry of Environment and forests, India.
[13] United States Environmental Protection Agency (EPA), 1996, Titrimetric and manual spectrophotometric determinative methods for cyanide, Method 9014.
[14] Raj, G., 2008, Advanced Practical Inorganic Chemistry, 20th Ed., Krishna Prakashan Media, India.
[15] Abdulnabi, Z.A., 2016, Assessment of some toxic elements levels in Iraqi marine water, Mesopot. J. Mar. Sci., 31 (1), 85–94.
[16] Abdulnabi, Z.A., Hassan, W.F., Al-Khuzaie, D.K.K., Saleh, S.M., and Hashim, M.G., 2015, Evaluation of selenium levels for the water surfaces in southern Iraq, J. Chem. Pharm. Res., 7 (10), 495–501.
[17] WHO, 2011, Guidelines for drinking water quality, 4th Ed., Switzerland.
[18] Directive 98/83/EC, 1998, Council Directive 98/83/EC of 3 November 1998 on the quality of water intended for human consumption, Official Journal of the European Communities, L330, 32–54.
[19] Health Canada, 2014, Guidelines for Canadian drinking water quality—Summary table, Water and Air Quality Bureau, Healthy Environments and Consumer Safety Branch, Health Canada, Ottawa, Ontario.
[20] IQS, 2001, Standard no. 417 on drinking water and analysis-Standard specification for drinking water, Central Organization for Quality Control and Standardization, Council of Ministers, Republic of Iraq.
[21] United States Environmental Protection Agency (EPA), 1980, Cyanide, total (titrimetric, spectrophotometric), Technical Revision, NERL Method 335.2.
[22] Hassan, D.M.A., and Farghali, M.R.F., 2018, Cyanide pollution in different water sources in Assiut, Egypt: Levels, distributions, and health risk assessment, Res. J. Environ. Sci., 12 (5), 213–219.
[23] Rasheed, B.A., and Al-Imarah, F.J.M., 2014, Temporal and spatial distribution of cyanide ion in Southern Iraqi waterways, Int. J. Environ. Water, 3 (5), 207–212.
[24] Environment and Climate Change Canada, Health Canada, 2018, Risk management scope for cyanides, Government of Canada.
DOI: https://doi.org/10.22146/ijc.47369
Article Metrics
Abstract views : 3079 | views : 2691Copyright (c) 2019 Indonesian Journal of Chemistry
This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Indonesian Journal of Chemistry (ISSN 1411-9420 /e-ISSN 2460-1578) - Chemistry Department, Universitas Gadjah Mada, Indonesia.
View The Statistics of Indones. J. Chem.