Competition and predation as possible causes of bacterial rarity.

Viola Kurm,Tanja Bakx,Stefan Geisen,Wim H. van der Putten,Wilhelmina H. Gera Hol,Simone Weidner,Basten L. Snoek

doi:10.1111/1462-2920.14569

Viola Kurm, Tanja Bakx + Show 5 more

Open Access

https://doi.org/10.1111/1462-2920.14569

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Abstract

SummaryWe assembled communities of bacteria and exposed them to different nutrient concentrations with or without predation by protists. Taxa that were rare in the field were less abundant at low nutrient concentrations than common taxa, independent of predation. However, some taxa that were rare in the field became highly abundant in the assembled communities, especially under ample nutrient availability. This high abundance points at a possible competitive advantage of some rare bacterial taxa under nutrient‐rich conditions. In contrast, the abundance of most rare bacterial taxa decreased at low resource availability. Since low resource availability will be the prevailing situation in most soils, our data suggests that under those conditions poor competitiveness for limiting resources may contribute to bacterial rarity. Interestingly, taxa that were rare in the field and most successful under predator‐free conditions in the lab also tended to be more reduced by predation than common taxa. This suggests that predation contributes to rarity of bacterial taxa in the field. We further discuss whether there may be a trade‐off between competitiveness and predation resistance. The substantial variability among taxa in their responses to competition and predation suggests that other factors, for example abiotic conditions and dispersal ability, also influence the local abundance of soil bacteria.

Highlights

Most communities consist of only a few abundant species, whereas the majority of species are low in abundance, or rare (Magurran and Henderson, 2003)
There was a significant effect of taxon category (Rare/Slow, Common/Slow, Rare/Fast and Common/Fast) on the relative abundance of bacterial taxa in the constructed communities that interacted with nutrient and predator treatment (Table 2)
Individual taxa belonging to the Rare/Slow, Common/Slow and Common/Fast category had low relative abundances of 4% (SE = 0.2%), 2% (SE = 0.02%) and 3% (SE = 0.02%), respectively, whereas taxa in the category of Rare/Fast bacteria dominated the communities with a relative abundance of 10% (SE = 0.5%)

Summary

Introduction

Most communities consist of only a few abundant species, whereas the majority of species are low in abundance, or rare (Magurran and Henderson, 2003). This pattern, which applies to organisms of any size, from macroorganisms to microorganisms, has stimulated studies addressing the question why so many species are rare The consideration of single traits may not be sufficient to explain species abundance in the field. It is not well understood how species with different trait combinations may perform under competition with or without predators, when varying resource availabilities

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