废水中假单胞菌的分离及其与微藻的相互作用

Jessica Pérez-Nava, F. Hernández-Aldana, C. Martínez-Valenzuela, A. Rivera
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引用次数: 2

摘要

在污水处理厂(WWTP)的生物降解过程中,细菌发挥着重要作用,细菌与微藻的结合具有通过减少污染物来修复废水的潜力。本工作旨在鉴定废水中存在的细菌,并分析它们与C. vulgaris的相互作用,以支持它们的植物修复。对Alseseca-Sur污水处理厂废水进行了理化和微生物学表征,鉴定了分离的细菌,并以C. vulgaris和废水为培养基进行了植物修复处理,量化了C. vulgaris在补充培养基和废水中的增殖情况。植物修复后水体理化参数降低,藻-菌系统因其在共生中的应用导致COD降低;假单胞菌占75%;以废水为培养基时,C. vulgaris的生长效果最佳,在100%的废水中接种C. vulgaris,定量174个细胞/mL,而粗培养基加饮用水的C. vulgaris为24个细胞/mL。植物修复过程与Alseseca-Sur污水处理厂的细菌负荷出水相结合,显示出理化参数值的降低;此外,利用Alseseca-Sur污水处理厂的废水作为培养基,增加了C. vulgaris的细胞数/mL。
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Pseudomonas sp Isolated from Wastewater and their Interaction with Microalgae
During biodegradation processes in Wastewater Treatment Plants (WWTP), bacteria play an important role, and associations of bacteria with microalgae have the potential to remediate wastewater by reducing pollutants. This work aimed to identify bacteria present in wastewater and to analyze their interaction with C. vulgaris to favor their phytoremediation. The physicochemical and microbiological characterization of the wastewater from the Alseseca-Sur WWTP was carried out, identifying the bacterial isolates, a phytoremediation treatment was performed with C. vulgaris and wastewater as a culture medium, quantifying the proliferation of C. vulgaris in the supplemented culture medium and the wastewater. The physicochemical parameters decreased after phytoremediation, the algae-bacteria system caused a decrease in COD due to its application in symbiosis; Pseudomonas sp. prevailed with 75%; C. vulgaris showed optimal growth when wastewater was used as culture medium, inoculating C. vulgaris in wastewater at 100%, 174 cells/mL were quantified compared to 24 cells/mL of C. vulgaris with bold medium plus drinking water. The phytoremediation process in conjunction with the bacterial load effluent from the Alseseca-Sur WWTP showed a decrease in the values of physicochemical parameters; in addition to increasing the number of cells/mL of C. vulgaris using water from the effluent of the Alseseca-Sur WWTP as a culture medium.
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来源期刊
Journal of Biochemical Technology
Journal of Biochemical Technology BIOCHEMISTRY & MOLECULAR BIOLOGY-
自引率
40.00%
发文量
18
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