机构地区:[1]Departamento de Quimica,Universidad de Guadalajara-Centro Universitario de Ciencias Exactas e Ingenierias,Guadalajara,Mexico [2]Departamento de Farmacobiologia,Universidad de Guadalajara-Centro Universitario de Ciencias Exactas e Ingenierias,Guadalajara,Mexico [3]Departamento de Ciencias Basicas,Universidad Autonoma Metropolitana,Unidad Azcapotzalco,Mexico D.F.,Mexico [4]Facultad de Ciencias Quimicas,Universidad Autonoma de Nuevo Leon,San Nicolas de los Garza,Mexico [5]Departamento de Ingenieria Quimica,Universidad de Guadalajara-Centro Universitario de Ciencias Exactas e Ingenierias,Guadalajara,Mexico
出 处:《Journal of Environmental Protection》2015年第3期215-224,共10页环境保护(英文)
基 金:the National Council of Science and Technoloy(CONACyT)and the Ministry of Public Education-PROMEP for their support through grants No.84252 and 103.5/13/9346,respectively,and for the scholarship of Jessica Badillo-Camacho from CONACyT.
摘 要:Water quality of Mexican tropical lake Chapala was assessed through multivariate statistical techniques, cluster analysis (CA) and principal component analysis (PCA) at ten different monitoring sites for ten physicochemical variables and six metals. This study evaluated and interpreted complex water quality data sets and apportioned of pollution sources to get better information about water quality. From descriptive statistics results, the highest concentrations of metals occurred during the dry season, and this trend was explained by the fact that an unusual rainy event occurred during the month of February 2009 and brought metals into the lake by runoffs from nearby mountains. According to international criteria for water consumption by aquatic organisms [USEPA], only Zn concentration values were below these criteria whereas the values of Ni, Pb, Cd and Fe were above the corresponding values set in these criteria (Ni: 52 μg·L-1, Pb: 2.5 μg·L-1, Cd: 0.25 μg·L-1, and Fe: 1000 μg·L-1). The correlations were observed by PCA, which were used to classify the samples by CA, based on the PCA scores. Seven significant cluster groups of sampling locations—(sites 4 and 5), (sites 3 and 9), (site 7), (site 10), (sites 2 and 6), (site 8) and (site 1)— were detected on the basis of similarity of their water quality. The results revealed that the stress exerted on the lake caused by waste sources follows the order: domestic > agricultural > industrial.Water quality of Mexican tropical lake Chapala was assessed through multivariate statistical techniques, cluster analysis (CA) and principal component analysis (PCA) at ten different monitoring sites for ten physicochemical variables and six metals. This study evaluated and interpreted complex water quality data sets and apportioned of pollution sources to get better information about water quality. From descriptive statistics results, the highest concentrations of metals occurred during the dry season, and this trend was explained by the fact that an unusual rainy event occurred during the month of February 2009 and brought metals into the lake by runoffs from nearby mountains. According to international criteria for water consumption by aquatic organisms [USEPA], only Zn concentration values were below these criteria whereas the values of Ni, Pb, Cd and Fe were above the corresponding values set in these criteria (Ni: 52 μg·L-1, Pb: 2.5 μg·L-1, Cd: 0.25 μg·L-1, and Fe: 1000 μg·L-1). The correlations were observed by PCA, which were used to classify the samples by CA, based on the PCA scores. Seven significant cluster groups of sampling locations—(sites 4 and 5), (sites 3 and 9), (site 7), (site 10), (sites 2 and 6), (site 8) and (site 1)— were detected on the basis of similarity of their water quality. The results revealed that the stress exerted on the lake caused by waste sources follows the order: domestic > agricultural > industrial.
关 键 词:Multivariate Statistical Analysis toxic Metals Water Quality Lake Pollution
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