利用水蚤和褐藻修复农药污染河流。

J. Williams, V. Amaechi
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引用次数: 2

摘要

蓝藻是在各种环境中发现的光养水生微生物,可以快速繁殖,无论是异养还是化学异养。作为一种处理方法,农药污染物被释放到水体中。生物修复被认为是对这种环境进行廉价净化的一种有效和环境安全的技术。本研究调查的蓝藻种类对农药污染河流的修复非常有益。利用Ogoniland屠宰场废水和水产养殖水分离得到的蓝藻分别为Anabaena和Nostoc两种。温度、pH、磷酸盐和硝酸盐在不同浓度农药{Nostoc(N14%、N240%、N380%)、水藻(A14%、A240%、A380%)、水藻和Nostoc(AN14%、AN240%、AN380%)的污染环境中促进了这些生物的生长。微生物学分析表明,80%混合培养(AN3)的微生物数量较高,特别是在第7天,这可能是由于微生物和营养物质(氮和磷)的混合联合体的存在。分析中使用的蓝藻菌的有效性依次为:80%AN3> 40%AN2> 4%AN1> 80%N3> 80%A3> 40%N2> 40%A2> 4%N1> 4%A1。从学生T检验表来看,AN3(80%混合培养)对农药污染环境的修复效果更好,修复能力更强。方差分析(ANOVA)显示,在95%的置信水平下,样本之间的显著差异在其修复环境的能力方面有所不同。污染物被所有物种去除,无论是作为个体还是在所有浓度的混合财团中。结果表明,所研究的菌种对目标污染物的去除率较高,且具有菌种和污染物依赖性。当农药浓度为4%时,蓝藻对污染物的去除率为76.3 ~ 100%,当农药浓度为40%时,蓝藻对污染物的去除率为83.9% ~ 99.9%。混合培养(Anabaena and Nostoc (AN))在4%和40%浓度下的回收率为99.5 ~ 100%,在95.9 ~ 99.9%之间,在80%浓度下的回收率为91.7 ~ 100%。所得结果表明,自然资源作为污染控制的熟练媒介的潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Remediaton of pesticide-polluted River using Anabaena and Nostoc spp.
Cyanobacteria are phototrophic aquatic microbes that are found in various environments and can reproduce rapidly either heterotrophically or chemoheterotrophically. Pesticide-pollutants are released into water bodies as a method of disposal. Bioremediation is considered an efficient and environmentally safe technology for inexpensive decontamination of such environments. Cyanobacteria species investigated in this study were highly beneficial in the remediation of the pesticide-polluted River. The Cyanobacteria isolated were identified as Anabaena and Nostoc species using Abattoir effluent and Aquaculture water from Ogoniland. Temperature, pH, phosphate and nitrate enhanced the growth of these organisms in the polluted environments with varying concentrations of pesticide {Nostoc(N14%, N240%, N380%), Anabaena (A14%, A240%, A380%), Anabaena and Nostoc (AN14%, AN240%, AN380%). The microbiological analysis showed that 80% mixed culture (AN3) had higher microbial counts especially on day 7, which could be due to the presence of a mixed consortium of organisms and nutrients (Nitrogen and Phosphorus). The effectiveness of the Cyanobacteria used in the analysis was in the following descending order: 80%AN3> 40%AN2> 4%AN1> 80%N3> 80%A3> 40%N2> 40%A2> 4%N1> 4%A1. From the student T test table, AN3 (80% mixed culture) was more effective and capable of remediating the pesticide-polluted environment. The analysis of variance (ANOVA) showed that at 95% confident level the significant differences among the samples varied in their ability to remediate the environment. Pollutant was removed by all the species, either as individuals or in a mixed consortium at all concentrations. Results established high removal efficiencies of the investigated species for the removal of the target contaminant which were species and contaminant-dependent. The contaminants removal efficiency (RE) percentage of cyanobacterial species ranged between 76.3 and 100% for 4% pesticide concentration, 83.9% and 99.9% for 40% concentration. Mixed culture ( Anabaena and Nostoc (AN)) RE percentages ranged between 99.5 and 100% at 4% while at 40%, the RE percentage ranged between 95.9 and 99.9% and at 80% pesticide concentration, it ranged between 91.7 and 100%. Results obtained stipulate the potential of natural resources as proficient mediators for pollution control.
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