RT Journal Article
SR Electronic
T1 The dimensionality of plant–plant competition
JF bioRxiv
FD Cold Spring Harbor Laboratory
SP 2021.11.10.467010
DO 10.1101/2021.11.10.467010
A1 Daniel B. Stouffer
A1 Oscar Godoy
A1 Giulio V. Dalla Riva
A1 Margaret M. Mayfield
YR 2021
UL http://biorxiv.org/content/early/2021/11/12/2021.11.10.467010.abstract
AB To avoid extinction, every species must be able to exploit available resources at least as well as the other species in its community. All else being equal, theory predicts that the more distinct the niches of such co-occurring and competing species, the more species that can persist in the long run. However, both theoretical and experimental studies define a priori the nature and number of resources over which species compete. It therefore remains unclear whether or not species in empirically realistic contexts are actually exploiting all or some of the niches available to them. Here we provide a mathematical solution to this long-standing problem. Specifically, we show how to use the interactions between sets of co-occurring plant species to quantify their implied “niche dimensionality”: the effective number of resources over which those species appear to be competing. We then apply this approach to quantify the niche dimensionality of 12 plant assemblages distributed across the globe. Contrary to conventional wisdom, we found that the niche dimensionality in these systems was much lower than the number of competing species. However, two high-resolution experiments also show that changes in the local environment induce a reshuffling of plant’s competitive roles and hence act to increase the assemblages’ effective niche dimensionality. Our results therefore indicate that homogeneous environments are unlikely to be able to maintain high diversity and also shows how environmental variation impacts species’ niches and hence their opportunities for long-term survival.Competing Interest StatementThe authors have declared no competing interest.