斜生栅藻对废水中氨氮的去除潜力及其转化途径。

Ammonium removal potential and its conversion pathways by free and immobilized Scenedesmus obliquus from wastewater.

机构信息

State Key Joint Laboratory of Environment Simulation and Pollution Control, School of Environment, Tsinghua University, Beijing 10084, PR China.

出版信息

Bioresour Technol. 2019 Jul;283:184-190. doi: 10.1016/j.biortech.2019.03.038. Epub 2019 Mar 9.

DOI:10.1016/j.biortech.2019.03.038

PMID:30904698

Abstract

In this study, the immobilization with sodium alginate (SA) for cultivating microalgae in entrapped matrix gel beads was conducted for separating it from water. Batch experiments with a period of 5 days were carried out for free and immobilized Scenedesmus obliquus simultaneously under two trophic modes, to compare the removal performances of different initial ammonium (NH-N) concentrations. In both free and immobilized form, the positive C-dependent effect in mixotrophy and the negative N-dependent effect in heterotrophy were observed. And the performances of immobilized form were all superior to that of free form, which showed greater tolerance to high concentration, maximally representing 96.6 ± 0.1% removal in 50 mg/L of NH-N in mixotrophy. Assimilation of NH-N was the main removal pathway resulting the protein synthesis with the dominant component including glutamic acid (Glu), cystine (Cys), arginine (Arg) and proline (Pro). The results demonstrated a systematic understanding for NH-N removal in microalgae-based system.

摘要

在这项研究中，采用海藻酸钠（SA）固定化方法将微藻固定在包埋基质凝胶珠中，以便将其与水分离。在两种营养模式下，进行了为期 5 天的间歇实验，同时比较了不同初始氨氮（NH-N）浓度的去除效果。在自由态和固定态下，均观察到混养中 C 依赖性的正效应和异养中 N 依赖性的负效应。并且固定态的性能均优于自由态，在混养中对高浓度的耐受性更强，在 50mg/L 的 NH-N 中最大去除率可达 96.6±0.1%。NH-N 的同化是主要的去除途径，导致蛋白质合成，其中主要成分包括谷氨酸（Glu）、半胱氨酸（Cys）、精氨酸（Arg）和脯氨酸（Pro）。结果为基于微藻的系统中 NH-N 的去除提供了系统的理解。

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斜生栅藻对废水中氨氮的去除潜力及其转化途径。

Ammonium removal potential and its conversion pathways by free and immobilized Scenedesmus obliquus from wastewater.

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