约氏不动杆菌120及其他活性污泥中聚磷酸盐和聚β-羟基烷酸盐积累的间歇式和连续培养研究

D. Weltin, D. Hoffmeister, W. Dott, P. Kämpfer
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引用次数: 11

摘要

从某生物除磷装置(EBPR)污水中分离出12株细菌(其中4株为不动杆菌属),对其在有限碳氮条件下的磷吸收、聚磷(polyP)积累和吸附进行了筛选。此外,还研究了碳、氮、磷和氧限制下聚β-羟基烷酸酯(PHA)的生产。在C限制条件下,不动杆菌分离株的磷吸收量最高,可达66 mg P / g干重(dw),而在有限N条件下,息肉P的吸收量最高(可达25 mg polyP / g dw)。胞外息肉也检出,但检出程度较低,最多只占一株不动杆菌总息肉的10%。在氮限制条件下,约翰氏单胞杆菌120产生的PHA浓度最高,为211 mg 3 HB / g干重(占干细胞质量的21%),但在P和O2限制条件下,产生的PHA主要为聚β-羟丁酸酯和聚β-羟戊酸酯。在氮限制下,假单胞菌属的三个分离株显示出更高的值(345-427 mg 3 HB / g dw)。在模拟污水处理厂好氧/厌氧时期的连续培养中,对约氏不动杆菌120进行了研究,结果表明,在厌氧接触时间为0.6 h时,P的去除率为36%,在厌氧接触时间为3.1 h时,P的去除率增加到51%。在厌氧期间,没有检测到磷酸盐的释放和乙酸的吸收。此外,约氏不动杆菌120在厌氧条件下不能合成PHA。通过将厌氧条件改为好氧条件,观察到polyP含量相对于总p含量从45%(好氧过程第1天)持续下降到19%(好氧过程第17天)。在好氧条件下,PHA的数量增加到50.4 mg 3 HB/g dw。结果再次表明,EPBR过程不能通过简单地将代谢过程的知识(在不动杆菌纯培养物中观察到或假设)应用于污水处理厂过程的复杂性来定义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Studies on polyphosphate and poly-β-hydroxyalkanoate accumulation in Acinetobacter johnsonii 120 and some other bacteria from activated sludge in batch and continuous culture
Twelve bacterial isolates, four of them assigned to the genus Acinetobacter, were taken from sewage of a treatment plant with Enhanced Biological Phosphorus Removal (EBPR) and screened for phosphorus uptake, polyphosphate (polyP) accumulation and adsorption under limited carbon and nitrogen conditions. In addition, poly-β-hydroxyalkanoate (PHA) production was studied under carbon, nitrogen, phosphorus, and oxygen limitation. Under C limitation, the uptake of phosphorus was highest, ranging up to 66 mg P per g dry weight (dw) for the Acinetobacter isolates, whereas the highest amount of polyP was detected under limited N conditions (up to 25 mg PolyP / g dw). Extra-cellular polyP was detected, however to a minor extent, accounting for a maximum of 10% of the total polyP in one Acinetobacter isolate. The highest PHA concentration (given as 3-hydroxybutyrate, 3 HB) with 211 mg 3 HB / g dry weight (21% of the dried cell mass) was found for A. johnsonii 120 under nitrogen limitation, but also under P and O2 limitation, PHA, mainly poly-β-hydroxybutyrate and poly-β-hydroxyvalerate, were produced. Three isolates, assigned to the genus Pseudomonas, showed even higher values (345–427 mg 3 HB / g dw) under N limitation. Studies with Acinetobacter johnsonii 120 in continuous culture, simulating the aerobic/anaerobic periods of a waste-water treatment plant, resulted in a P elimination of 36% at an anaerobic contact time of 0.6 h. This value increased to 51% at an anaerobic contact time of 3.1 h. No release of phosphate and no uptake of acetate could be detected during the anaerobic period. In addition, Acinetobacter johnsonii 120 was not able to synthesize PHA under anaerobic conditions. By changing the anaerobic conditions to aerobic, a continuous decrease of the polyP content relative to the totalP content from 45% (day 1 of the aerobic process) to 19% (day 17 of the aerobic process) was observed. The amount of PHA increased to 50.4 mg 3 HB/g dw under aerobic conditions. The results indicate again that the EPBR process cannot be defined by simply applying the knowledge of the metabolic processes, observed or assumed in Acinetobacter pure cultures, to the complexity of the process in sewage treatment plants.
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