Single cell carbon and nitrogen incorporation and remineralization profiles are uncoupled from phylogenetic groupings of diatom-associated bacteria
Bacterial remineralization of algal organic matter is thought to fuel algal growth, but this has
not been quantified. Consequently, we cannot currently predict whether some bacterial taxa …
not been quantified. Consequently, we cannot currently predict whether some bacterial taxa …
[PDF][PDF] Single cell carbon and nitrogen incorporation and remineralization profiles are uncoupled 1 from phylogenetic groupings of diatom-associated bacteria 2
X Mayali, T Samo, J Kimbrel, RK Stuart, M Morris… - scholar.archive.org
Single cell carbon and nitrogen incorporation and remineralization profiles are uncoupled
from phylogenetic groupings of diatom- Page 1 1 Single cell carbon and nitrogen …
from phylogenetic groupings of diatom- Page 1 1 Single cell carbon and nitrogen …
Single cell carbon and nitrogen incorporation and remineralization profiles are uncoupled from phylogenetic groupings of diatom-associated bacteria
X Mayali, T Samo, J Kimbrel, RK Stuart, M Morris… - 2022 - europepmc.org
Bacterial remineralization of algal organic matter is thought to fuel algal growth, but this has
not been quantified. Consequently, we cannot currently predict whether some bacterial taxa …
not been quantified. Consequently, we cannot currently predict whether some bacterial taxa …