Influence of Temperature on Biofilm Formation Mechanisms Using a Gravity-Driven Membrane (GDM) System: Insights from Microbial Community Structures and Metabolomics

A biofilm has a significant effect on water treatment processes. Currently, there is a lack of knowledge about the effect of temperature on the biofilm structure in water treatment processes. In this study, a gravity-driven membrane ultrafiltration system was operated with river feedwater at two tem...

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Bibliographic Details
Main Authors: Li, Weihua, Siddique, Muhammad Saboor, Graham, Nigel, Yu, Wenzheng
Format: Report
Language:unknown
Published: 2022
Subjects:
EXTRACELLULAR POLYMERIC SUBSTANCES
EPOXYEICOSATRIENOIC ACIDS
OXYGEN CONCENTRATION
ESCHERICHIA-COLI
BACTERIA
PERFORMANCE
TECHNOLOGY
PERMAFROST
BIOREACTOR
METABOLISM
permafrost
Online Access:https://ir.rcees.ac.cn/handle/311016/47862
id ftchacadscircees:oai:/ir.rcees.ac.cn:311016/47862
record_format openpolar
spelling ftchacadscircees:oai:/ir.rcees.ac.cn:311016/47862 2023-06-11T04:15:57+02:00 Influence of Temperature on Biofilm Formation Mechanisms Using a Gravity-Driven Membrane (GDM) System: Insights from Microbial Community Structures and Metabolomics Li, Weihua Siddique, Muhammad Saboor Graham, Nigel Yu, Wenzheng 2022-05-27 https://ir.rcees.ac.cn/handle/311016/47862 unknown ENVIRONMENTAL SCIENCE & TECHNOLOGY https://ir.rcees.ac.cn/handle/311016/47862 cn.org.cspace.api.content.CopyrightPolicy@70ed2dac EXTRACELLULAR POLYMERIC SUBSTANCES EPOXYEICOSATRIENOIC ACIDS OXYGEN CONCENTRATION ESCHERICHIA-COLI BACTERIA PERFORMANCE TECHNOLOGY PERMAFROST BIOREACTOR METABOLISM 期刊论文 2022 ftchacadscircees 2023-05-28T12:17:34Z A biofilm has a significant effect on water treatment processes. Currently, there is a lack of knowledge about the effect of temperature on the biofilm structure in water treatment processes. In this study, a gravity-driven membrane ultrafiltration system was operated with river feedwater at two temperatures (low, 4 degrees C; high, 25 degrees C) to explore the biofilm structure and transformation mechanism. The results showed that the difference in dissolved oxygen concentration might be one of the main factors regulating the structural components of the biofilm. A denser biofilm formation and reduced flux were observed at the lower temperature. The linoleic acid metabolism was significantly inhibited at low temperature, resulting in enhanced pyrimidine metabolism by Na+ accumulation. In addition, the biofilm at low temperature had a higher proportion of the metabolites of lipids and lipid-like molecules (11.25%), organic acids and derivatives (10.83%), nucleosides, nucleotides, and analogues (7.083%), and organoheterocyclic compounds (6.66%). These small molecules secrete more polysaccharides having C=O and O=C=O functional groups, which intensified the resistance of the biofilm. Furthermore, the upregulation pathway of pyrimidine metabolism also increased the risk of urea accumulation at low temperature. Limnohabitans , Deinococcus , Diaphorobacter , Flavobacterium , and Pseudomonas were identified as the principal microorganisms involved in this metabolic transformation. Report permafrost Research Center for Eco-Environmental Sciences: RCEES OpenIR (Chinese Academy of Sciences)
institution Open Polar
collection Research Center for Eco-Environmental Sciences: RCEES OpenIR (Chinese Academy of Sciences)
op_collection_id ftchacadscircees
language unknown
topic EXTRACELLULAR POLYMERIC SUBSTANCES
EPOXYEICOSATRIENOIC ACIDS
OXYGEN CONCENTRATION
ESCHERICHIA-COLI
BACTERIA
PERFORMANCE
TECHNOLOGY
PERMAFROST
BIOREACTOR
METABOLISM
spellingShingle EXTRACELLULAR POLYMERIC SUBSTANCES
EPOXYEICOSATRIENOIC ACIDS
OXYGEN CONCENTRATION
ESCHERICHIA-COLI
BACTERIA
PERFORMANCE
TECHNOLOGY
PERMAFROST
BIOREACTOR
METABOLISM
Li, Weihua
Siddique, Muhammad Saboor
Graham, Nigel
Yu, Wenzheng
Influence of Temperature on Biofilm Formation Mechanisms Using a Gravity-Driven Membrane (GDM) System: Insights from Microbial Community Structures and Metabolomics
topic_facet EXTRACELLULAR POLYMERIC SUBSTANCES
EPOXYEICOSATRIENOIC ACIDS
OXYGEN CONCENTRATION
ESCHERICHIA-COLI
BACTERIA
PERFORMANCE
TECHNOLOGY
PERMAFROST
BIOREACTOR
METABOLISM
description A biofilm has a significant effect on water treatment processes. Currently, there is a lack of knowledge about the effect of temperature on the biofilm structure in water treatment processes. In this study, a gravity-driven membrane ultrafiltration system was operated with river feedwater at two temperatures (low, 4 degrees C; high, 25 degrees C) to explore the biofilm structure and transformation mechanism. The results showed that the difference in dissolved oxygen concentration might be one of the main factors regulating the structural components of the biofilm. A denser biofilm formation and reduced flux were observed at the lower temperature. The linoleic acid metabolism was significantly inhibited at low temperature, resulting in enhanced pyrimidine metabolism by Na+ accumulation. In addition, the biofilm at low temperature had a higher proportion of the metabolites of lipids and lipid-like molecules (11.25%), organic acids and derivatives (10.83%), nucleosides, nucleotides, and analogues (7.083%), and organoheterocyclic compounds (6.66%). These small molecules secrete more polysaccharides having C=O and O=C=O functional groups, which intensified the resistance of the biofilm. Furthermore, the upregulation pathway of pyrimidine metabolism also increased the risk of urea accumulation at low temperature. Limnohabitans , Deinococcus , Diaphorobacter , Flavobacterium , and Pseudomonas were identified as the principal microorganisms involved in this metabolic transformation.
format Report
author Li, Weihua
Siddique, Muhammad Saboor
Graham, Nigel
Yu, Wenzheng
author_facet Li, Weihua
Siddique, Muhammad Saboor
Graham, Nigel
Yu, Wenzheng
author_sort Li, Weihua
title Influence of Temperature on Biofilm Formation Mechanisms Using a Gravity-Driven Membrane (GDM) System: Insights from Microbial Community Structures and Metabolomics
title_short Influence of Temperature on Biofilm Formation Mechanisms Using a Gravity-Driven Membrane (GDM) System: Insights from Microbial Community Structures and Metabolomics
title_full Influence of Temperature on Biofilm Formation Mechanisms Using a Gravity-Driven Membrane (GDM) System: Insights from Microbial Community Structures and Metabolomics
title_fullStr Influence of Temperature on Biofilm Formation Mechanisms Using a Gravity-Driven Membrane (GDM) System: Insights from Microbial Community Structures and Metabolomics
title_full_unstemmed Influence of Temperature on Biofilm Formation Mechanisms Using a Gravity-Driven Membrane (GDM) System: Insights from Microbial Community Structures and Metabolomics
title_sort influence of temperature on biofilm formation mechanisms using a gravity-driven membrane (gdm) system: insights from microbial community structures and metabolomics
publishDate 2022
url https://ir.rcees.ac.cn/handle/311016/47862
genre permafrost
genre_facet permafrost
op_relation ENVIRONMENTAL SCIENCE & TECHNOLOGY
https://ir.rcees.ac.cn/handle/311016/47862
op_rights cn.org.cspace.api.content.CopyrightPolicy@70ed2dac
_version_ 1768373249019740160

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