Responses of mesophilic anaerobic sludge microbiota to thermophilic conditions: implications for start-up and operation of thermophilic THP-AD systems
Anaerobic digestion (AD) has been widely employed for wastewater and organic waste treatment, in which methanogenesis is highly driven by close microbial interactions among intricate microbial communities. However, the ecological processes underpinning the community assembly that support methanogene...
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sg-ntu-dr.10356-1618122022-09-20T08:09:20Z Responses of mesophilic anaerobic sludge microbiota to thermophilic conditions: implications for start-up and operation of thermophilic THP-AD systems Zhang, Liang Gong, Xianzhe Xu, Ronghua Guo, Kun Wang, Li Zhou, Yan School of Civil and Environmental Engineering Nanyang Environment and Water Research Institute Advanced Environmental Biotechnology Centre (AEBC) Engineering::Environmental engineering Thermophilic Anaerobic Digestion Thermal Hydrolysis Process Anaerobic digestion (AD) has been widely employed for wastewater and organic waste treatment, in which methanogenesis is highly driven by close microbial interactions among intricate microbial communities. However, the ecological processes underpinning the community assembly that support methanogenesis in such engineered ecosystems remain largely unknown, especially when exposed to challenging circumstances (e.g., high temperature, ammonium content). Here, eight AD bioreactors were seeded with four different inocula (two from full-scale mesophilic AD systems and the other two from lab-scale mesophilic AD systems), and were operated under thermophilic conditions (55 °C) for treating thermal hydrolysis process (THP) pre-treated waste activated sludge to investigate how mesophilic community responds to thermophilic conditions during the long-term cultivation. Results showed that the inocula collected from the full-scale systems were more resilient than that from the lab-scale systems, which may be primarily attributed to indigenous robust methanogens. As a result, the former efficiently generated methane which was predominantly contributed by Methanothermobacter and Methanosarcina (healthy AD ecosystem), while methanogenic activity was remarkably prohibited in the latter (dysfunctional AD ecosystem). Thermophilic environment was a strong selection force, resulting in the convergence of microbial communities in both the healthy and dysfunctional AD ecosystems. Deterministic processes predominated the community assembly regardless of AD ecosystem function, but stronger influences of stochastic processes were observed in dysfunctional AD ecosystems, which was likely attributable from the stronger effect of immigrants from the feedstock. As indicated by molecular ecological network analysis, the microbial network structures in the healthy AD ecosystems were more stable than those in the dysfunctional AD ecosystems. Although keystone taxa were different among the bioreactors, most of which played vital roles in organic hydrolysis/fermentation. To sum up, this study greatly improved our understanding of the relationships between microbiological traits and AD ecosystem function under thermophilic conditions, which could provide useful information to guide thermophilic AD (e.g., THP-AD) start-up and health diagnosis during operation. Nanyang Technological University The authors acknowledge the financial support of Advanced Environmental Biotechnology centre, Nanyang Environment and Water Research Institute (NEWRI), Nanyang Technological University, the National Natural Science Foundation of China (42006134), and Shandong University Foundation for Future Scholar Plan. 2022-09-20T08:09:19Z 2022-09-20T08:09:19Z 2022 Journal Article Zhang, L., Gong, X., Xu, R., Guo, K., Wang, L. & Zhou, Y. (2022). Responses of mesophilic anaerobic sludge microbiota to thermophilic conditions: implications for start-up and operation of thermophilic THP-AD systems. Water Research, 216, 118332-. https://dx.doi.org/10.1016/j.watres.2022.118332 0043-1354 https://hdl.handle.net/10356/161812 10.1016/j.watres.2022.118332 35364350 2-s2.0-85127099521 216 118332 en Water Research © 2022 Elsevier Ltd. All rights reserved. |
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Engineering::Environmental engineering Thermophilic Anaerobic Digestion Thermal Hydrolysis Process Zhang, Liang Gong, Xianzhe Xu, Ronghua Guo, Kun Wang, Li Zhou, Yan Responses of mesophilic anaerobic sludge microbiota to thermophilic conditions: implications for start-up and operation of thermophilic THP-AD systems |
| description |
Anaerobic digestion (AD) has been widely employed for wastewater and organic waste treatment, in which methanogenesis is highly driven by close microbial interactions among intricate microbial communities. However, the ecological processes underpinning the community assembly that support methanogenesis in such engineered ecosystems remain largely unknown, especially when exposed to challenging circumstances (e.g., high temperature, ammonium content). Here, eight AD bioreactors were seeded with four different inocula (two from full-scale mesophilic AD systems and the other two from lab-scale mesophilic AD systems), and were operated under thermophilic conditions (55 °C) for treating thermal hydrolysis process (THP) pre-treated waste activated sludge to investigate how mesophilic community responds to thermophilic conditions during the long-term cultivation. Results showed that the inocula collected from the full-scale systems were more resilient than that from the lab-scale systems, which may be primarily attributed to indigenous robust methanogens. As a result, the former efficiently generated methane which was predominantly contributed by Methanothermobacter and Methanosarcina (healthy AD ecosystem), while methanogenic activity was remarkably prohibited in the latter (dysfunctional AD ecosystem). Thermophilic environment was a strong selection force, resulting in the convergence of microbial communities in both the healthy and dysfunctional AD ecosystems. Deterministic processes predominated the community assembly regardless of AD ecosystem function, but stronger influences of stochastic processes were observed in dysfunctional AD ecosystems, which was likely attributable from the stronger effect of immigrants from the feedstock. As indicated by molecular ecological network analysis, the microbial network structures in the healthy AD ecosystems were more stable than those in the dysfunctional AD ecosystems. Although keystone taxa were different among the bioreactors, most of which played vital roles in organic hydrolysis/fermentation. To sum up, this study greatly improved our understanding of the relationships between microbiological traits and AD ecosystem function under thermophilic conditions, which could provide useful information to guide thermophilic AD (e.g., THP-AD) start-up and health diagnosis during operation. |
| author2 |
School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering Zhang, Liang Gong, Xianzhe Xu, Ronghua Guo, Kun Wang, Li Zhou, Yan |
| format |
Article |
| author |
Zhang, Liang Gong, Xianzhe Xu, Ronghua Guo, Kun Wang, Li Zhou, Yan |
| author_sort |
Zhang, Liang |
| title |
Responses of mesophilic anaerobic sludge microbiota to thermophilic conditions: implications for start-up and operation of thermophilic THP-AD systems |
| title_short |
Responses of mesophilic anaerobic sludge microbiota to thermophilic conditions: implications for start-up and operation of thermophilic THP-AD systems |
| title_full |
Responses of mesophilic anaerobic sludge microbiota to thermophilic conditions: implications for start-up and operation of thermophilic THP-AD systems |
| title_fullStr |
Responses of mesophilic anaerobic sludge microbiota to thermophilic conditions: implications for start-up and operation of thermophilic THP-AD systems |
| title_full_unstemmed |
Responses of mesophilic anaerobic sludge microbiota to thermophilic conditions: implications for start-up and operation of thermophilic THP-AD systems |
| title_sort |
responses of mesophilic anaerobic sludge microbiota to thermophilic conditions: implications for start-up and operation of thermophilic thp-ad systems |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/161812 |
| _version_ |
1745574615300702208 |