Biodegradation of oil sands process affected water in sequencing batch reactors and microbial community analysis by high-throughput pyrosequencing

Choi Jeongdong; Liu Yang

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Biodegradation of oil sands process affected water in sequencing batch reactors and microbial community analysis by high-throughput pyrosequencing

机译：排序批处理反应器中油砂工艺的生物降解影响水和高通量焦磷酸测序技术对微生物群落的分析

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Two sequencing batch reactors (SBR) were constructed and filled with different inocula of activated sludge (AS) and mature fine tailings (MFT) to treat oil sands process-affected water (OSPW). The COD was reduced by 82% in the AS-SBR and 43% in the MFT-SBR during phase I using 10% OSPW and 90% synthetic wastewater as reactor feed. However, COD removal reached 12% and 20% in the AS-SBR and the MFT-SBR, respectively, when 100% raw OSPW was fed into the reactors. Maximum removal of acid-extractable organics (AEO) was 8.7% and 16.6% in the AS-SBR and the MFT-SBR, respectively with a hydraulic retention time of one day. Pyrosequencing analysis revealed that Proteobacteria was the dominant phylum and beta- and gamma-Proteobacteria were dominant classes in both reactors. Evidence of a microbial community change was observed when influent raw OSPW was switched from 50 to 100%. More significant changes in the AS-SBR community were detected

机译：建造了两个顺序分批反应器（SBR），并填充了不同接种物的活性污泥（AS）和成熟细尾矿（MFT），以处理受油砂工艺影响的水（OSPW）。在第一阶段，使用10％OSPW和90％合成废水作为反应器进料，AS-SBR中的COD降低了82％，MFT-SBR中的COD降低了43％。但是，当将100％的原始OSPW进料到反应器中时，AS-SBR和MFT-SBR中的COD去除率分别达到12％和20％。在水力停留时间为一天的情况下，AS-SBR和MFT-SBR中酸可萃取有机物（AEO）的最大去除率分别为8.7％和16.6％。焦磷酸测序分析表明，在这两个反应堆中，变形杆菌是显性门，β-和γ-变形杆菌是显性。当进水原始OSPW从50％更改为100％时，观察到微生物群落发生变化的证据。在AS-SBR社区中发现了更重大的变化

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《International Biodeterioration & Biodegradation》 |2014年第null期|共7页
作者
Choi Jeongdong; Liu Yang;
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正文语种 eng
中图分类微生物学;
关键词
Sequencing batch reactors; Activated sludge; Mature fine tailings; Oil sands process affected water; Pyrosequencing;

机译：顺序批处理反应器;活性污泥;成熟的细尾矿;油砂工艺影响水;焦磷酸测序;

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1. Biodegradation of oil sands process affected water in sequencing batch reactors and microbial community analysis by high-throughput pyrosequencing [J] . Choi Jeongdong, Liu Yang International Biodeterioration & Biodegradation . 2014,第Null期

机译：排序批处理反应器中油砂工艺的生物降解影响水和高通量焦磷酸测序技术对微生物群落的分析
2. The analysis of microbial community in the biodegradation, electron transfer based on sulfur metabolism integrated (BESI®) process for reverse osmosis concentrate (ROC) treatment by 454-pyrosequencing [J] . Wei Chao, He Wenjie, Wei Li, Desalination and water treatment . 2016,第60期

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3. Full-Scale Processing by Anaerobic Baffle Reactor, Sequencing Batch Reactor, and Sand Filter for Treating High-Salinity Wastewater from Offshore Oil Rigs [J] . Wenjie Zhang, Yuan Wei, Yue Jin Processes . 2018,第12期

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4. Deciphering the Biodegradation Mechanisms of Starch Wastewater and Microbial Community Evolution in an Upflow Anaerobic Sludge Blanket (UASB) Reactor in the Presence of Sulfidogenesis Process [C] . Xueqin LU, JiaLing NI, Kengo KUBOTA, Water and environment technology conference . 2018

机译：硫化过程中上流厌氧污泥毯子（UASB）反应器中淀粉废水生物降解机制和微生物群落进化的解释
5. Analysis of methanogenic microbial communities from oil sands processing tailings. [D] . Penner, Tara Jane. 2006

机译：分析油砂加工尾矿中产甲烷的微生物群落。
6. Next-Generation Pyrosequencing Analysis of Microbial Biofilm Communities on Granular Activated Carbon in Treatment of Oil Sands Process-Affected Water [O] . M. Shahinoor Islam, Yanyan Zhang, Kerry N. McPhedran, 2015

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7. Fast UniFrac: facilitating high-throughput phylogenetic analyses of microbial communities including analysis of pyrosequencing and PhyloChip data [O] . Micah Hamady, Catherine Lozupone, Rob Knight 2009

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Biodegradation of oil sands process affected water in sequencing batch reactors and microbial community analysis by high-throughput pyrosequencing

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