Effective biofilm control in a membrane biofilm reactor using a quenching bacterium (<i>Rhodococcus</i> sp. BH4)

Taşkan, Banu; Hasar, Halil; Lee, Chung‐Hak

doi:10.1002/bit.27259

Cited by 19 publications

(4 citation statements)

References 49 publications

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“…As a specific form of biofilm in wastewater treatment, a threshold concentration of AHLs was likely to be a prerequisite for aerobic granules (Wang et al, 2021). If the floccules overgrew in an aerobic granules SBR, it would induce an inevitable AHL‐quenching that further destroys the microbial aggregates (Taşkan et al, 2020; Yu et al, 2016). On the other hand, a relatively high AHL concentration was also found to cause a less significant bacterial adhesion (Wang et al, 2021), which would undermine the stability of granules.…”

Section: Discussionmentioning

confidence: 99%

Quorum sensing unveils the sludge floccule‐assisted stabilization of aerobic granules in granule‐dominated sequencing batch reactors

Tian

et al. 2022

Biotech & Bioengineering

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Floccules are another major form of microbial aggregates in aerobic granular sludge systems. Previous studies mainly attributed the persistence of floccules to their relatively faster nutrient uptake and higher growth rate over aerobic granules; however, they failed to unravel the underlying mechanism of the long-term coexistence of these two aggregates. In this work, the existence and function of the floccules in an aerobic granule-dominated sequencing batch reactor were investigated from the view of quorum sensing (QS) and quorum quenching (QQ).The results showed that though the floccules were closely associated with the granules in terms of similar community structures (including the QS-and QQ-related ones), they exhibited a relatively higher QQ-related activity but a lower QS-related activity. A compatible proportion of floccules might be helpful to maintain the QS-related activity and keep the granules stable. In addition, the structure difference was demonstrated to diversify the QS-and QQ-related activities of the floccules and the aerobic granules. These findings could broaden our understanding of the interactions between the coexistent floccules and granules in aerobic granuledominated systems and would be instructive for the development of the aerobic granular sludge process.

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Section: Discussionmentioning

confidence: 99%

Quorum sensing unveils the sludge floccule‐assisted stabilization of aerobic granules in granule‐dominated sequencing batch reactors

Tian

et al. 2022

Biotech & Bioengineering

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“…Moreover, maintaining a highly active biofilm in MABR could still be a challenge, as proper strategies to couple flow velocity or turbulence with moderate aeration rate should be implemented to keep the biofilm with optimum thicknesses (Martin & Nerenberg, 2012). Noticeably, quorum quenching was employed in an MABR, and it was demonstrated to control the EPS content as well as the thickness of biofilm via the degradation of acyl homoserine lactone (AHL) signal molecules (Taşkan et al, 2020). To make MABR a cost-effective decarbonized technology for advanced wastewater treatment, proper biofilm management as well as cost-effective membranes should be developed in the future.…”

Section: Membrane Biofilm Reactors (Mbfrs)mentioning

confidence: 99%

Pathways to Water Sector Decarbonization, Carbon Capture and Utilization

2022

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The water sector is in the middle of a paradigm shift from focusing on treatment and meeting discharge permit limits to integrated operation that also enables a circular water economy via water reuse, resource recovery, and system level planning and operation. While the sector has gone through different stages of such revolution, from improving energy efficiency to recovering renewable energy and resources, when it comes to the next step of achieving carbon neutrality or negative emission, it falls behind other infrastructure sectors such as energy and transportation. The water sector carries tremendous potential to decarbonize, from technological advancements, to operational optimization, to policy and behavioural changes. This book aims to fill an important gap for different stakeholders to gain knowledge and skills in this area and equip the water community to further decarbonize the industry and build a carbon-free society and economy. The book goes beyond technology overviews, rather it aims to provide a system level blueprint for decarbonization. It can be a reference book and textbook for graduate students, researchers, practitioners, consultants and policy makers, and it will provide practical guidance for stakeholders to analyse and implement decarbonization measures in their professions. ISBN: 9781789061789 (Paperback) ISBN: 9781789061796 (eBook) ISBN: 9781789061802 (ePUB)

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“…Examples of biofilm bioreactors using support materials include sequencing batch reactors (Arrojo et al, 2004; Irvine & Ketchum, 1989; Münch et al, 1996), continuous stirred tank reactors (Kunduru & Pometto, 1996; Ramasamy & Abbasi, 2000; Tyagi & Ghose, 1982; Xu, 2019), packed‐ or fluidized‐bed reactors (Mallikarjuna & Dash, 2020; Özkaya et al, 2019; Sahu et al, 2009; Shen et al, 2017; Shieh & Keenan, 1986), and trickling bed reactors (Devarapalli et al, 2016; Jensen et al, 2021; Tsapekos et al, 2021). Rotating disc contractors or membrane bioreactors are common examples where biofilm production occurs on the bioreactor surface, and those are typically used in wastewater treatment plants (Costa et al, 2017; Melo, 2003; Renaudie et al, 2021; Taşkan et al, 2019). The latter bioreactor variant also comes with the advantage of easily separating the biofilm after usage and enhancing biofilm attachment and growth by chemically modifying the reactor surface (Lackner et al, 2009; Terada et al, 2004; Yamamoto et al, 1989).…”

Section: Introductionmentioning

confidence: 99%

“…Rotating disc contractors or membrane bioreactors are common examples where biofilm production occurs on the bioreactor surface, and those are typically used in wastewater treatment plants (Costa et al, 2017;Melo, 2003;Renaudie et al, 2021;Taşkan et al, 2019). The latter bioreactor variant also comes with the advantage of easily separating the biofilm after usage and enhancing biofilm attachment and growth by chemically modifying the reactor surface (Lackner et al, 2009;Terada et al, 2004;Yamamoto et al, 1989).…”

mentioning

confidence: 99%

A rotating bioreactor for the production of biofilms at the solid–air interface

Kretschmer

Hayta

Ertelt

et al. 2022

Biotech & Bioengineering

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Conventional bioreactors are typically developed for the production of planktonic bacteria or submerged biofilms. In contrast, reactors for the continuous production of biofilms at the solid-air interface are scarce, and they require specific conditions since the bacteria need to attach firmly to the surface and require a permanent supply of moisture and nutrients from below. Recently, research from the field of civil engineering has pinpointed an increased need for the production of terrestrial biofilms: several variants of Bacillus subtilis biofilms have been shown to be useful additives to mortar that increase the water repellency, and, thus, the lifetime of the cementitious material. The bioreactor introduced here allows for the continuous production of such bacterial biofilms at the solid-air interface, and they have virtually identical properties as biofilms cultivated via classical microbiological techniques. This is made possible by equipping a rotating cylinder with a porous membrane that acts as a solid growth substrate the bacterial biomass can form on. In this configuration, nutrient supply is enabled via diffusive transport of a suitable growth medium from the core volume of the cylindrical reactor to the membrane surface. In addition to cultivating bacterial biofilms, the versatile and adaptable set up introduced here also enables the growth of other microbial organisms including the yeast Saccharomyces cerevisiae and the fungus Penicillium chrysogenum.

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Effective biofilm control in a membrane biofilm reactor using a quenching bacterium (Rhodococcus sp. BH4)

Cited by 19 publications

References 49 publications

Quorum sensing unveils the sludge floccule‐assisted stabilization of aerobic granules in granule‐dominated sequencing batch reactors

Quorum sensing unveils the sludge floccule‐assisted stabilization of aerobic granules in granule‐dominated sequencing batch reactors

Pathways to Water Sector Decarbonization, Carbon Capture and Utilization

A rotating bioreactor for the production of biofilms at the solid–air interface

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