2018
DOI: 10.1101/282574
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Forfeiting the founder effect: turnover defines biofilm community succession

Abstract: Microbial community succession is a fundamental process that effects underlying functions of almost all ecosystems; yet the roles and fates of the most abundant colonizers are poorly understood. Does early abundance spur long term persistence? How do deterministic and stochastic processes influence the roles of founder species? We performed a succession experiment within a hypersaline microbial mat ecosystem to investigate how ecological processes contributed to the turnover of founder species. Bacterial and m… Show more

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Cited by 5 publications
(7 citation statements)
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“…This was further reflected by the large dominance of OTU turnover over nestedness between successional stages in the sediment‐attached communities inferred from beta diversity partitioning, showing that the majority of OTUs that had established at a given time point were in fact replaced by others over the course of the succession. Therefore, in agreement with the findings by Brislawn and colleagues (), the mere timing of OTU arrival did not seem to be a determining factor for the final community structure. Rather, the consistent dominance of specific taxa among these persistent OTUs (mainly genera belonging to the Oxalobacteraceae , Comamonadaceae , Caulobacteraceae , Sphingomonadaceae , in addition to Pseudomonas spp.)…”
Section: Discussionsupporting
confidence: 91%
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“…This was further reflected by the large dominance of OTU turnover over nestedness between successional stages in the sediment‐attached communities inferred from beta diversity partitioning, showing that the majority of OTUs that had established at a given time point were in fact replaced by others over the course of the succession. Therefore, in agreement with the findings by Brislawn and colleagues (), the mere timing of OTU arrival did not seem to be a determining factor for the final community structure. Rather, the consistent dominance of specific taxa among these persistent OTUs (mainly genera belonging to the Oxalobacteraceae , Comamonadaceae , Caulobacteraceae , Sphingomonadaceae , in addition to Pseudomonas spp.)…”
Section: Discussionsupporting
confidence: 91%
“…Hence, the total niche space in such microcolonies may be smaller compared with mature biofilms in other environments, similar to what Graham and colleagues () have proposed for sediments in the hyporheic zone. Moreover, although the general pattern of decreasing fractions of newly‐arriving OTUs was also apparent in our experiment, reflecting the saturation of niche space according to Jackson's biofilm model (Jackson, ), we noticed that the fraction of these OTUs at the end of the incubation was still 5–10 times higher compared with findings on biofilms in other environments [e.g., Brislawn and colleagues ()]. These deviations of our results from assembly patterns of biofilms, together with the findings made for hyporheic zone sediments (Graham et al ., ), might point towards important differences in ecological niche structures between biofilms in resource‐rich surface environments and sediment‐attached microbial communities in the typically more energy‐poor and less productive subsurface.…”
Section: Discussioncontrasting
confidence: 70%
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“…Successional dynamics of soil microbiomes are related to changes in substrate availability and are crucial to predicting ecosystem development (14 20). During primary succession, early-colonizing taxa shape available niche space by regulating pH and nutrient availability (16, 17, 21). However, the feedbacks and processes driving successional patterns constitute fundamental knowledge gaps in understanding trajectories of ecosystem development (16, 19).…”
Section: Introductionmentioning
confidence: 99%