deletions | additions       diff --git a/Results_and_Discussion.tex b/Results_and_Discussion.tex  index ec6b08e..0308d4f 100644  --- a/Results_and_Discussion.tex  +++ b/Results_and_Discussion.tex 
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18\% of the total soil C. Microcosms were harvested at several time points  during the incubation period and $^{13}$C assimilation was observed by  sequencing 16S rRNA gene amplicons from bulk soil DNA and CsCl gradient  fractions. Xylose degradation was observed immediately, while cellulose degradation was observed after two weeks. \subsection{$^{13}$C from cellulose assimilated by canonical  cellulose-degrading and uncharacterized microbial lineages in many phyla 
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(20\%), \textit{Verrucomicrobia} (20\%), \textit{Chloroflexi} (13\%) and  \textit{Cyanobacteria} (3\%). \textit{Proteobacteria},  \textit{Verrucomicrobia}, and \textit{Chloroflexi} had relatively high numbers  of responders with heavy response across multiple time points (ref l2fc  figure). (Figure~\ref{fig:l2fc}).  \textit{Proteobacteria} represent 46\% of all cellulose responding OTUs  identified. \textit{Cellvibrio} accounted for 3\% of all Proteobacterial