[HTML][HTML] Anaerobic degradation of organic carbon supports uncultured microbial populations in estuarine sediments
Background A large proportion of prokaryotic microbes in marine sediments remains
uncultured, hindering our understanding of their ecological functions and metabolic features …
uncultured, hindering our understanding of their ecological functions and metabolic features …
[HTML][HTML] Anaerobic degradation of organic carbon supports uncultured microbial populations in estuarine sediments
T Yu, W Wu, W Liang, Y Wang, J Hou… - …, 2023 - microbiomejournal.biomedcentral …
A large proportion of prokaryotic microbes in marine sediments remains uncultured,
hindering our understanding of their ecological functions and metabolic features. Recent …
hindering our understanding of their ecological functions and metabolic features. Recent …
Anaerobic degradation of organic carbon supports uncultured microbial populations in estuarine sediments
T Yu, W Wu, W Liang, Y Wang, J Hou, Y Chen… - …, 2023 - pubmed.ncbi.nlm.nih.gov
Background A large proportion of prokaryotic microbes in marine sediments remains
uncultured, hindering our understanding of their ecological functions and metabolic features …
uncultured, hindering our understanding of their ecological functions and metabolic features …
Anaerobic degradation of organic carbon supports uncultured microbial populations in estuarine sediments
T Yu, W Wu, W Liang, Y Wang, J Hou, Y Chen… - …, 2023 - search.proquest.com
Background A large proportion of prokaryotic microbes in marine sediments remains
uncultured, hindering our understanding of their ecological functions and metabolic features …
uncultured, hindering our understanding of their ecological functions and metabolic features …
[PDF][PDF] Anaerobic degradation of organic carbon supports uncultured microbial populations in estuarine sediments
T Yu, W Wu, W Liang, Y Wang, J Hou, Y Chen, M Elvert… - 2023 - researchgate.net
Background A large proportion of prokaryotic microbes in marine sediments remains
uncultured, hindering our understanding of their ecological functions and metabolic features …
uncultured, hindering our understanding of their ecological functions and metabolic features …
Anaerobic degradation of organic carbon supports uncultured microbial populations in estuarine sediments.
T Yu, W Wu, W Liang, Y Wang, J Hou, Y Chen… - Microbiome, 2023 - europepmc.org
Background A large proportion of prokaryotic microbes in marine sediments remains
uncultured, hindering our understanding of their ecological functions and metabolic features …
uncultured, hindering our understanding of their ecological functions and metabolic features …
[HTML][HTML] Anaerobic degradation of organic carbon supports uncultured microbial populations in estuarine sediments
T Yu, W Wu, W Liang, Y Wang, J Hou, Y Chen… - Microbiome, 2023 - ncbi.nlm.nih.gov
Background A large proportion of prokaryotic microbes in marine sediments remains
uncultured, hindering our understanding of their ecological functions and metabolic features …
uncultured, hindering our understanding of their ecological functions and metabolic features …
Anaerobic degradation of organic carbon supports uncultured microbial populations in estuarine sediments.
T Yu, W Wu, W Liang, Y Wang, J Hou, Y Chen… - Microbiome, 2023 - europepmc.org
Background A large proportion of prokaryotic microbes in marine sediments remains
uncultured, hindering our understanding of their ecological functions and metabolic features …
uncultured, hindering our understanding of their ecological functions and metabolic features …
[PDF][PDF] Anaerobic degradation of organic carbon supports uncultured microbial populations in estuarine sediments
T Yu, W Wu, W Liang, Y Wang, J Hou, Y Chen… - 2023 - microbiomejournal.biomedcentral …
Background A large proportion of prokaryotic microbes in marine sediments remains
uncultured, hindering our understanding of their ecological functions and metabolic features …
uncultured, hindering our understanding of their ecological functions and metabolic features …