Abstract

How the diversity of organisms competing for or sharing resources influences community function is an important question in ecology but has rarely been explored in natural microbial communities. These generally contain large numbers of species making it difficult to disentangle how the effects of different interactions scale with diversity. Here, we show that changing diversity affects measures of community function in relatively simple communities but that increasing richness beyond a threshold has little detectable effect. We generated self-assembled communities with a wide range of diversity by growth of cells from serially diluted seawater on brown algal leachate. We subsequently isolated the most abundant taxa from these communities via dilution-to-extinction in order to compare productivity functions of the entire community to those of individual taxa. To parse the effect of different types of organismal interactions, we defined relative total function (RTF) as an index for positive or negative effects of diversity on community function. Our analysis identified three overall regimes with increasing diversity. At low richness (<12 taxa), positive and negative effects of interactions were both weak, while at moderate richness (12–26 taxa), community resource uptake increased but the carbon use efficiency decreased. Finally, beyond 26 taxa, the effect of interactions on community function saturated and further diversity increases did not affect community function. Although more diverse communities had overall greater access to resources, on average individual taxa within these communities had lower resource availability and reduced carbon use efficiency. Our results thus suggest competition and complementation simultaneously increase with diversity but both saturate at a threshold.

Highlights

  • Supplementary information The online version of this article contains supplementary material, which is available to authorized users.Organismal diversity is recognized as a driver of ecological functions such as biomass production, resource turnover, and community stability

  • Our approach consisted of two stages where the first generated communities of similar overall biomass but different richness for which community production and respiration were measured, and the second consisted of dilution-to-extinction of communities from the previous stage to generate monocultures for which the same community functions were measured as input to the relative total function (RTF) model (Fig. 1, Methods)

  • We found that when compared to species richness, neither of the two most common measurements for phylogenetic distance, the abundance weighted mean pairwise distance (MPD) or the abundance weighted mean nearest taxon distance (MNTD), was better in explaining the variance of community functions

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Summary

Introduction

Most models determine the net effect of interactions on communities by comparing the observed community function to that predicted from monoculture functions of community members. In many ecosystems, these models agree on a general increase of all types of interactions with diversity, as well as diverse communities being more productive due to the strong effect of niche complementation. These models agree on a general increase of all types of interactions with diversity, as well as diverse communities being more productive due to the strong effect of niche complementation It is, possible for this relationship to be reversed [6]. Recent work further shows that even when both conditions are satisfied, a negative relationship between diversity and biomass production can occur if interspecific competition is strong and hierarchical, such as in a highly antagonistic system of wood degrading fungi [4]

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