Functional tradeoffs determine species coexistence via the storage effect

Angert, Amy L.; Huxman, Travis E.; Chesson, Peter; Venable, D. Lawrence

doi:10.1073/pnas.0904512106

Cited by 418 publications

(553 citation statements)

References 31 publications

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“…through a storage effect [41]). Empirical demonstrations of these mechanisms are less well established than niche partitioning or competition-colonization trade-offs; nevertheless, they suggest that variation in how species experience competition is an important mechanism of coexistence [42,43]…”

Section: Effects Of Competition On Parasite Diversitymentioning

confidence: 99%

Within-host competitive interactions as a mechanism for the maintenance of parasite diversity

Bashey

2015

Phil. Trans. R. Soc. B

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Variation among parasite strains can affect the progression of disease or the effectiveness of treatment. What maintains parasite diversity? Here I argue that competition among parasites within the host is a major cause of variation among parasites. The competitive environment within the host can vary depending on the parasite genotypes present. For example, parasite strategies that target specific competitors, such as bacteriocins, are dependent on the presence and susceptibility of those competitors for success. Accordingly, which parasite traits are favoured by within-host selection can vary from host to host. Given the fluctuating fitness landscape across hosts, genotype by genotype (G×G) interactions among parasites should be prevalent. Moreover, selection should vary in a frequency-dependent manner, as attacking genotypes select for resistance and genotypes producing public goods select for cheaters. I review competitive coexistence theory with regard to parasites and highlight a few key examples where within-host competition promotes diversity. Finally, I discuss how within-host competition affects host health and our ability to successfully treat infectious diseases.

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Section: Effects Of Competition On Parasite Diversitymentioning

confidence: 99%

Within-host competitive interactions as a mechanism for the maintenance of parasite diversity

Bashey

2015

Phil. Trans. R. Soc. B

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“…This gives species a demographic advantage when at low relative abundance (2), which stabilizes coexistence. The expected relationship between trait differences and stabilizing niche differences is the basis for a large body of observational studies that use traits to predict patterns of species co-occurrence and compositional change (3,(7)(8)(9)(10)(11)(12)(13). Rigorously testing this relationship is critical because it forms the key pathway by which phenotypic traits influence community assembly, the outcome of biological invasions, species diversity effects on ecosystem function, and the impacts of climate change on community dynamics (5,8,12,13).…”

mentioning

confidence: 99%

Plant functional traits and the multidimensional nature of species coexistence

Kraft

Godoy

Levine

2015

Proc. Natl. Acad. Sci. U.S.A.

765

926

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Understanding the processes maintaining species diversity is a central problem in ecology, with implications for the conservation and management of ecosystems. Although biologists often assume that trait differences between competitors promote diversity, empirical evidence connecting functional traits to the niche differences that stabilize species coexistence is rare. Obtaining such evidence is critical because traits also underlie the average fitness differences driving competitive exclusion, and this complicates efforts to infer community dynamics from phenotypic patterns. We coupled fieldparameterized mathematical models of competition between 102 pairs of annual plants with detailed sampling of leaf, seed, root, and whole-plant functional traits to relate phenotypic differences to stabilizing niche and average fitness differences. Single functional traits were often well correlated with average fitness differences between species, indicating that competitive dominance was associated with late phenology, deep rooting, and several other traits. In contrast, single functional traits were poorly correlated with the stabilizing niche differences that promote coexistence. Niche differences could only be described by combinations of traits, corresponding to differentiation between species in multiple ecological dimensions. In addition, several traits were associated with both fitness differences and stabilizing niche differences. These complex relationships between phenotypic differences and the dynamics of competing species argue against the simple use of single functional traits to infer community assembly processes but lay the groundwork for a theoretically justified trait-based community ecology.coexistence | functional traits | community assembly | competition

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“…The theory of temporal niche dynamics (TND) suggests that temporal variation in niche availability allows the storage effect to operate, buffering species against extinction 4,5 . Increased species coexistence in fluctuating environments has been documented for both natural [6][7][8] and experimental 9,10 communities, and has, in a few cases, been explicitly linked to TND 6,11 . In parallel, diversification under fluctuating selection has been of much interest for evolutionary biologists [12][13][14] .…”

mentioning

confidence: 99%

Temporal niche promotes biodiversity during adaptive radiation

2013

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Understanding mechanisms underlying the origin and maintenance of biodiversity is a central goal of modern ecological and evolutionary research. Ecologists have recognized the potentially important role of temporal niche in promoting species coexistence and diversity, yet little is known about how temporal niche affects the evolution of biodiversity. Here we show that temporal niche strongly influences biodiversity dynamics in rapidly evolving bacteria. An ancestral bacterium quickly diversifies when provided with constant spatial niche opportunities or when experiencing temporal niche dynamics. However, only in communities with temporal niches, which promote frequency-dependent selection and the positive growth of new mutants, is the accumulated phenotypic diversity able to persist. Overall, the presence of temporal niche opportunities eliminates the overshooting dynamics of adaptive radiation typically seen in this and other systems. These results suggest that temporal niche may have an essential role in the maintenance of biodiversity over evolutionary time.

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Functional tradeoffs determine species coexistence via the storage effect

Cited by 418 publications

References 31 publications

Within-host competitive interactions as a mechanism for the maintenance of parasite diversity

Within-host competitive interactions as a mechanism for the maintenance of parasite diversity

Plant functional traits and the multidimensional nature of species coexistence

Temporal niche promotes biodiversity during adaptive radiation

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