Volume 7, Issue 6, December 2018, Page: 70-78
Study of Pollution by Anionic Surfactants and Orthophosphates in M’koa Lake (Jacqueville, Côte d’Ivoire)
Ballet Tiama Guy Nicaise, Laboratory of Environmental Sciences, Faculty of Science and Environmental Management, University Nangui Abrogoua, Abidjan, Côte d’Ivoire
Effebi Kôkôh Rose, Laboratory of Geosciences and Environment, Faculty of Science and Environmental Management, University Nangui Abrogoua, Abidjan, Côte d’Ivoire
Ako Olga Yolande Aké, Laboratory of Environmental Sciences, Faculty of Science and Environmental Management, University Nangui Abrogoua, Abidjan, Côte d’Ivoire
Kpidi Yapo Habib, Laboratory of Environmental Sciences, Faculty of Science and Environmental Management, University Nangui Abrogoua, Abidjan, Côte d’Ivoire
Yapo Ossey Bernard, Laboratory of Environmental Sciences, Faculty of Science and Environmental Management, University Nangui Abrogoua, Abidjan, Côte d’Ivoire; Central Environmental Laboratory of the Ivorian Anti-Pollution Center (LCE-CIAPOL), Abidjan, Côte d'Ivoire
Received: Nov. 14, 2018;       Accepted: Dec. 11, 2018;       Published: Jan. 2, 2019
DOI: 10.11648/j.ajep.20180706.11      View  14      Downloads  5
This study aims to assess the pollution of the surface water from M’koa Lake by both anionic surfactants and orthophosphates, and to identify the sources of pollution by these compounds. Three sampling campaigns were conducted at different seasons at six (6) sampling stations, identified in M'koa Lake by taking into account potential sources of pollution. The measurement of anionic surfactant concentrations was performed by the methylene blue colorimetric method, and the determination of orthophosphates was performed by the vanadomolybdophosphoric acid colorimetric method. In addition, the samples were analyzed in order to find six physico-chemical parameters of surface water quality which are temperature, pH, electrical conductivity, turbidity, oxygen saturation, transparency. The determination of these parameters were made according to both the French AFNOR standard and the methods described by Rodier. The obtained average concentrations of anionic surfactants in the water of M’koa Lake range from 0.23 ± 0.04 mg.L-1 to 1.43 ± 0.68 mg.L-1. Concerning orthophosphates’ content they range from 0.12 ± 0.05 mg.L-1 to 0.17 ± 0.04 mg.L-1. These results indicate that M’koa Lake is subjected to pollution both by anionic surfactants and pollutant enriched by orthophosphate. And, the presence of orthophosphates in lake waters was not due solely to detergents. Washing stations, Berge 1 and 2, and M’koa hotel have the highest levels of anionic surfactants. Also, turbidity and transparency values indicate water quality deterioration of M’koa Lake favoured by the presence of phytoplankton corresponding to the eutrophication of the water of the studied Lake.
Detergent, Organic Pollution, Physico-chemical Parameters, Eutrophication Surface Water, Fresh Water
To cite this article
Ballet Tiama Guy Nicaise, Effebi Kôkôh Rose, Ako Olga Yolande Aké, Kpidi Yapo Habib, Yapo Ossey Bernard, Study of Pollution by Anionic Surfactants and Orthophosphates in M’koa Lake (Jacqueville, Côte d’Ivoire), American Journal of Environmental Protection. Vol. 7, No. 6, 2018, pp. 70-78. doi: 10.11648/j.ajep.20180706.11
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This article is an open access article distributed under the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
Minareci, O., Öztürk, M, Egemen, O. & Minareci, E. Detergent and phosphate pollution in Gediz River, Turkey. African Journal of Biotechnology, (2009), 8 (15), 3568-3575.
Vilchez J. L., Verge C., Reis M. S &. Paraiva P. M. Evaluation of the Presence of Major Anionic Surfactants in Marine Sediments. Mar. Poll. Bull. (2012), 64 (3), 587-94.
HERA (Health and Environmental Risk Assessment on ingredients of household cleaning products). LAS, Linear alkylbenzene sulfonate. Revised HERA Report, (2013), 101pp.
Robert-Peillard F., Coulomb A. D. S. B., Doumenq P., Malleret L., Asia L. & Boudenne J. L. Occurrence and fate of selected surfactants in seawater at the outfall of the Marseille urban sewerage system. Int. J. Environ. Sci. Technol., (2015), 12, 1527–1538.
Zhou J., Xu Z. P., Qiao S., Liu Q., Xu Y., & Qian G. Enhanced removal of triphosphate by MgCaFe-Cl-LDH: Synergism of precipitation with intercalation and surface uptake. J. Hazard. Mater., (2011), 189, 586-594.
Peleka, E. N., & Deliyanni, E. A. Adsorptive removal of phosphates from aqueous solutions. Desalination, (2009), 245, 357-371.
Xu Y., Dai Y., Zhou, J., Xu Z. P., Qian G., & Lu G. Q. M. Removal efficiency of arsenate and phosphate aqueous solution using layered double hydroxide materials: intercalation vs. precipitation. J. Mater. Chem., (2010) 20, 4684-4691.
Hussain S., Aziz H. A., Isa M. H., Ahmad A., Leeuwen J. V., Zou L., Beecham S., & Umar M. Orthophosphate removal from domestic wastewater using limestone and granular activated carbon. Desalination, (2011), 271, 265-272.
Dupas R., Delmas M., Dorioz J. M., Garnier J., Moatar F., Gascuel-Odoux C. Assessing the impact of agricultural pressures on N and P loads and eutrophication risk. Ecological Indicators, (2015), 48, 396-407.
Mungray A. K. & Kumar P. Fate of linear alkylbenzene sulfonates in the environment: a review. Int Biodeter Biodegrad, (2009), 63, 981–987.
Vinod D., Neha S., Shalini S., Archna S., & Aparna P. Effect of detergent use on water quality in Rewa city of India. J. Appl. Chem. (IOSRJAC), (2012), 1 (4), 28–30.
Norfazrin M. H., Siti N. N. A., Mohd T. L., Zuriati Z. & Pauzi A. M. R. O. The composition of surfactants in river water and its influence to the Amount of surfactants in drinking. World Appl. Sci. J., (2012), 17 (8), 970–975.
N’Guessan K. A, Konan K. F, Kotchi Y. B, Edia O. E, Gnagne T., Traore K. S & Houenou V. P. Prospects for rehabilitation of manmade Lake system Of Yamoussoukro (Ivory Coast). Procedia Environmental Sciences, (2011), 9, 140-147.
Inza B. & Yao K. M. Paramètres physiques et chimiques et métaux lourds des eaux de la Lagune Ebrié (Côte d’Ivoire): influence de la marée et des effluents liquides urbaines. J. Mater. Environ. Sci., (2015), 6 (5), 1321-1329.
Akpo S. K., Ouattara P. J. M., Eba M. G., Ouffouet S. & Coulibaly L., Etat de la pollution fécale dans les baies de la lagune Ebrié (Banco, Cocody et M’Badon) à Abidjan, Côted’Ivoire. J. Mater. Environ. Sci., (2016), 7 (2), 621-630.
Effebi K. R., Adou K. E., Koffi T., Ehouman K. S., Goné L. D., Perrin J. L., Kamagaté B., Dabissi N. D. & Séguis L. Assessment of the pollution in Aghien lagoon and its tributaries (Côte d’Ivoire, West Africa). Int. J. Biol. Chem. Sci. (2017), 11 (1), 515-529.
RGPH (Recensement Général de la Population et de l’Habitat) Résultats globaux, (2014), 22p.
Inza B., Soro M. B., Trokourey A., Etchian A. O. & Bokra Y. Caractérisation physico-chimique des eaux et des sédiments de surface de la baie des milliardaires, lagune Ebrié, Côte d’Ivoire. Rev. Ivoir. Sci. Technol. (2009), 13, 139-154.
Kpidi Y. H., Yapo O. B., Ballet T. G. & Ohou-Yao M. J. Variabilité journalière de la qualité physico-chimique du lac M’koa de Jacqueville (Côte d’Ivoire). Int. J. Biol. Chem. Sci., (2017), 11 (2), 901-910.
ISO 7875-1. Water Quality—Determination of Surfactants: Part 1, Determination of Anionic Surfactants by Measurement of the Methylene Blue Index (MBAS). (1996).
APHA, Standard Methods for the Examination of Water and Wastewater, 15th ed., American Public Health Association, Washington, DC, (1980), 368–369.
Hach. Analyse des eaux de consummation, eaux de rejet, eaux de mer. HACH Company, Edition 1, USA, (2007) 398p.
AFNOR (Association Française de Normalisation), Qualité de l’eau, Eléments majeurs–autres éléments et composés minéraux, Aubenas, Ardèche, (2001), 635p.
Rodier J., B. Legube & N. Merlet, L’Analyse de l’Eau. 9è Eds, Dunod, Paris, (2009), 1579 p.
Gallina N., Anneville O. & Beniston M., Impacts of extreme air temperatures on cyanobacteria in five deep peri-Alpine lakes. J. Limnol., (2010), 70, 186-196.
Institut Bruxellois pour la Gestion de l'Environnement / Observatoire des Données de l'Environnement Les données de l'IBGE: "L'eau à Bruxelles" Qualité physico-chimique et chimique des eaux de surface: cadre général, (2005) 16p.
Hebert S. & Légre S., Direction du suivi de l’état de l’environnement, Ministère de l’Environnement, Gouvernement du Québec, 2000.
Raihan A., Mehebub S., & Haroon S. Preparing turbidity and aquatic vegetation inventory for waterlogged wetlands in Lower Barpani sub-watersheds (Assam), India using geospatial technology. The Egyptian Journal of Remote Sensing and Space Sciences, (2017), 20 (2) 243-249.
Thoumelin G. Les tensio-actifs (LAS, APE) dans les eaux douces et marines: analyse, comportement, écotoxicologie. Repères Océan, n°9. IFREMER, (1995), 112p.
León V. M., Sáez M., González-Mazo E. & Gómez-Parra A. Occurrence and distribution of linear alkylbenzene sulfonates and sulfophenylcarboxylic acids in several Iberian littoral ecosystems. Science of The Total Environment, (2002), 288 (3), 215-226.
Gordon A. K., Muller W. J., Gysman N., Marshall S. J., Sparham C. J., O’Connor S. M. & Whelan M. J. Effect of laundry activities on in-stream concentrations of linear alkylbenzene sulfonate in a small rural South African river. Sci. Total Environ., (2009), 407, 4465–4471.
lnaba K. & Amano K. HPLC determination of linear alkylbenzenesulfonate (LAS) in aquatic environment. Seasonal changes in LAS concentration in polluted lake water and sediment. Lnt. J. Environ. Anal. Chem., (1988), 34, 203-214.
Souza N. M. & Wassennan J. C. Diurnal variation of anionic surfactants and Forms of phosphorus in a polluted stream. Toxicol. Environ. Chem., (1996), 55, 173-182.
Kaboré I. Evaluation de la toxicité des détergents et savons utilisés pour la production des eaux grises dans les ménages en milieu rural et périurbain. Mémoire Master, Institut International d'Ingénierie de l'Eau et de l'Environnement, Ouagadougou, Burkina Faso. (2013), 47 p.
Kpidi Y. H., Yapo O. B., Koné M. G. R., Gadji G. A., Gnagne A. E. J. E Y., N’dri J. S. & Ziao N.. Monitoring and Modeling of Chlorophyll-a Dynamics in a Eutrophic Lake: M’koa Lake (Jacqueville, Ivory Coast). American Journal of Environmental Protection, (2018), 6 (1), 1-9.
Weiner, E. R. Applications of Environmental Aquatic Chemistry. CRC Press, Taylor and Francis Group, Florida, (2008), 442p.
Atanle K., Bawa M. L., Kokou K., Djaneye-Boundjou G. La caractérisation physicochimique et diversité phytoplanctoniquedes eaux du lac de Zowla (Lac Boko), au Togo. J. Appl. BioSci., (2012), 64, 4847-4857.
Adou Y. E., Blahoua K. G., Gogbé Z. M., N’Douba V. Characterization of Physicochemical Parameters of the Waters of a Lake Situated between Two Hydroelectric Dams: Lake of Ayame 2 (Côte d’Ivoire). European Journal of Scientific Research, (2018), 149 (4), 451-461.
Kpidi Y. H., Koné M. G. R., Ballet T. G. N., Ouattara L., Yapo O. B. & Ziao N. Modeling of the Dynamics and Prediction of Transparency of a Meotropic Tropical Lake: Bakré Lake (Abidjan, Côte d'Ivoire). Resources and Environment, (2018), 8 (3), 174-183.
Yapo O. B., Mambo V., S. A. Tidou & Houenou P. V. Etude Analytique des Caractéristiques Chimiques d’un Lac Eutrophe en Milieu Tropical: La Conductivité comme Indicateur de Trophie du Lac de Buyo (Côte d’Ivoire). J. Soc. Ouest-Afr. Chim., (2008), 25, 87–108.
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