Emergent niche structuring leads to increased differences from neutrality in species abundance distributions

Rael, Rosalyn; D’Andrea, Rafael; Barabás, György; Ostling, Annette

doi:10.1002/ecy.2238

Cited by 19 publications

(20 citation statements)

References 65 publications

(165 reference statements)

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“…Indeed, the definitions of niche overlap r and the fitness ratio k 1 =k 2 in the two-species framework (Chesson 1990(Chesson , 2000(Chesson , 2012 are motivated by MacArthur's (1970) influential consumer-resource model. This model serves as the prototype for a large class of consumer-resource models (May and MacArthur 1972;Tilman 1982;Chase and Leibold 2003;Koffel et al 2016;Rohr et al 2016;Rael et al 2018). Here, for this reason, we translate the stabilizing and equalizing mech-anisms into their mechanistic meanings using MacArthur's model.…”

Section: Macarthur's Consumer-resource Modelmentioning

confidence: 99%

“…This idea takes various forms in the literature. One body of thought considers the relative importance of deterministic versus stochastic processes in generating largerscale community patterns (Gravel et al 2006;Haegeman and Loreau 2011;Rael et al 2018). Another (which will be our focus here) argues that coexistence is best viewed from the angle of where communities lie in figure 1 (Adler et al 2007;Mayfield and Levine 2010): communities with a fitness ratio close to 1 and small niche overlap are highly stable and driven by niche differentiation, communities with large fitness differences and large niche overlap are unstable and preclude coexistence, a fitness ratio of 1 and maximal niche overlap lead to neutral coexistence, and so on.…”

Section: Breakdown Of the Niche-neutrality Continuummentioning

confidence: 99%

See 1 more Smart Citation

On the Consequences of the Interdependence of Stabilizing and Equalizing Mechanisms

Song

Barabás

Saavedra

2019

The American Naturalist

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101

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We present an overlooked but important property of modern coexistence theory (MCT), along with two key new results and their consequences. The overlooked property is that stabilizing mechanisms (increasing species' niche differences) and equalizing mechanisms (reducing species' fitness differences) have two distinct sets of meanings within MCT: one in a two-species context and another in a general multispecies context. We demonstrate that the two-species framework is not a special case of the multispecies one, and therefore these two parallel frameworks must be studied independently. Our first result is that, using the two-species framework and mechanistic consumer-resource models, stabilizing and equalizing mechanisms exhibit complex interdependence, such that changing one will simultaneously change the other. Furthermore, the nature and direction of this simultaneous change sensitively depend on model parameters. The second result states that while MCT is often seen as bridging niche and neutral modes of coexistence by building a niche-neutrality continuum, the interdependence between stabilizing and equalizing mechanisms acts to break this continuum under almost any biologically relevant circumstance. We conclude that the complex entanglement of stabilizing and equalizing terms makes their impact on coexistence difficult to understand, but by seeing them as aggregated effects (rather than underlying causes) of coexistence, we may increase our understanding of ecological dynamics.

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Section: Macarthur's Consumer-resource Modelmentioning

confidence: 99%

Section: Breakdown Of the Niche-neutrality Continuummentioning

confidence: 99%

On the Consequences of the Interdependence of Stabilizing and Equalizing Mechanisms

Song

Barabás

Saavedra

2019

The American Naturalist

Self Cite

101

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show abstract

“…On the other hand, the theory has been criticized on two fronts: first, it is unclear whether neutral theory could successfully predict a broader range of community properties, particularly regarding community dynamics from generational to geological timescales [19][20][21][22][23][24][25][26][27]. Second, it has been argued that the patterns that neutral theory successfully fits do not uniquely reflect the underlying ecological properties of the species involved; in particular, it is possible that summarized indices of community structure and dynamics may look neutral even when species are not ecologically equivalent [2,[27][28][29][30][31].…”

Section: Introductionmentioning

confidence: 99%

Emergent neutrality in consumer-resource dynamics

2020

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Neutral theory assumes all species and individuals in a community are ecologically equivalent. This controversial hypothesis has been tested across many taxonomic groups and environmental contexts, and successfully predicts species abundance distributions across multiple high-diversity communities. However, it has been critiqued for its failure to predict a broader range of community properties, particularly regarding community dynamics from generational to geological timescales. Moreover, it is unclear whether neutrality can ever be a true description of a community given the ubiquity of interspecific differences, which presumably lead to ecological inequivalences. Here we derive analytical predictions for when and why non-neutral communities of consumers and resources may present neutral-like outcomes, which we verify using numerical simulations. Our results, which span both static and dynamical community properties, demonstrate the limitations of summarizing distributions to detect non-neutrality, and provide a potential explanation for the successes of neutral theory as a description of macroecological pattern.

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“…On the other hand, the theory has been criticized on two fronts: first, it is unclear whether neutral theory could successfully predict a broader range of community properties, particularly regarding community dynamics from generational to geological timescales (Clark and McLachlan, 2003;Volkov et al, 2004;Pigolotti et al, 2005;Ostling, 2012;Wang et al, 2013;Kalyuzhny et al, 2014;O'Dwyer et al, 2015;Fung et al, 2016;D'Andrea and Ostling, 2017). Second, it has been argued that the patterns that neutral theory successfully fits do not uniquely reflect the underlying ecological properties of the species involved; in particular, it is possible that summarized indices of community structure and dynamics may look neutral even when species are not ecologically equivalent (Chave et al, 2002;McGill et al, 2007;Chisholm and Pacala, 2010;Al Hammal et al, 2015;D'Andrea and Ostling, 2017;Rael et al, 2018).…”

Section: Introductionmentioning

confidence: 99%