Biosorption of Zn by dried biomass of Euglena gracilis from aqueous solutions

Q4 Agricultural and Biological Sciences

Nova Biotechnologica et Chimica Pub Date : 2024-03-18 DOI:10.34135/nbc.1568

Linda Machalová, Tomáš Lempochner, Patrícia Marková, M. Valica, Vanda Adamcová, Lenka Hutárová, Juraj Krajčovič, M. Horník

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引用次数: 0

Abstract

The aim of this work was to evaluate the possibility to utilize the dried biomass of Euglena gracilis var. bacillaris as a biosorbent applied for the removal of Zn from aqueous solutions. For these purposes, experiments involving solutions spiked by 65ZnCl2 were carried out under the conditions of batch systems. The prepared biosorbent in the form of dried biomass of E. gracilis (< 300 μm) was characterized in terms of the presence of functional groups (COOH, PO3H2, OH, and NH2), the concentration of binding sites cAn and the value of pHzpc = 6.6 using the modelling program ProtoFit. From the kinetics of Zn biosorption, it can be assumed that the Zn removal was a rapid process, in which the concentration equilibrium [Zn]solution : [Zn]biosorbent was stabilized in the first 5 min of interaction. In individual experiments, the effect of solution pH, initial biosorbent or Zn concentration were evaluated. Based on the MINEQL+ speciation modelling program, we predicted the decrease in the abundance of free Zn2+ cations in the presence of different concentrations of EDTA as a complexing agent in the solution. It was found that the Zn biosorption decreased linearly with the decreasing the proportion of Zn2+ in solution. The biosorption data expressed as equilibrium values of the remaining Zn concentration in solution Ceq (µmol.dm-3) and equilibrium values of specific adsorption Qeq (µmol.g-1; d.w.) were well fitted to the Langmuir model of adsorption isotherm in comparison with the Freundlich model. The maximum adsorption capacity of the dried biomass of E. gracilis for the biosorption of Zn reached the value Qmax = 0.53 ± 0.05 mmol.g-1or 34.7 ± 3.4 mg.g-1 (d.w.), respectively.

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干燥的鳗鲡生物质对水溶液中锌的生物吸附作用

这项工作的目的是评估是否有可能利用褐飞虱变种（Euglena gracilis var. bacillaris）的干燥生物质作为生物吸附剂，用于去除水溶液中的锌。为此，在批处理系统条件下，对添加了 65ZnCl2 的溶液进行了实验。使用 ProtoFit 建模程序，对以 E. gracilis（小于 300 μm）干燥生物质形式制备的生物吸附剂进行了表征，包括官能团（COOH、PO3H2、OH 和 NH2）的存在、结合位点 cAn 的浓度以及 pHzpc = 6.6 的值。从锌的生物吸附动力学可以推测，锌的去除是一个快速的过程，[Zn]溶液：[Zn]生物吸附剂的浓度平衡在相互作用的最初 5 分钟内趋于稳定。在个别实验中，评估了溶液 pH 值、初始生物吸附剂或锌浓度的影响。根据 MINEQL+ 标示建模程序，我们预测了溶液中不同浓度的 EDTA 作为络合剂存在时，游离 Zn2+ 阳离子丰度的下降情况。结果发现，随着溶液中 Zn2+ 比例的降低，Zn 的生物吸附量呈线性下降。以溶液中剩余锌浓度的平衡值 Ceq（µmol.dm-3）和特定吸附量的平衡值 Qeq（µmol.g-1；d.w.）表示的生物吸附数据与吸附等温线的 Langmuir 模型和 Freundlich 模型相比拟合得很好。干燥的 E. gracilis 生物质对锌的最大生物吸附容量分别达到 Qmax = 0.53 ± 0.05 mmol.g-1 或 34.7 ± 3.4 mg.g-1 (d.w.)。

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来源期刊

Nova Biotechnologica et Chimica Agricultural and Biological Sciences-Food Science

CiteScore

0.60

自引率

0.00%

发文量

审稿时长

24 weeks