Add to ORKGJournal ArticleA single trade-off between competitive ability and mortality has been shown to support an arbitrarily large number of species in models of interference competition in spatially structured populations. We show that this results not from spatial structure, but instead from the assumption that a small difference in mortality translates into a large difference in competitive ability. We present graphical criteria for recognizing functions that support one, two, or more species. High levels of coexistence in models of this form depend on a steep slope or a discontinuous second derivative of the function relating mortality to competitiveness. These criteria are identical to those in models of interference competition that lack ex...
The competitive exclusion principle postulates that two trophically identical but fitness different ...
Abstract This is the first of two papers where we discuss the limits imposed by competition to the b...
If two species live on a single resource, the one with a slight advantage will out-compete the other...
Competitive intransitivity is mostly considered outside the main body of coexistence theories that r...
The absence of 'super competitors' in nature is usually attributed to organisms facing trade-offs in...
There is substantial controversy on whether species interactions (particularly competition) shape sp...
In models of competition in which space is treated as a continuum, and population size as continuous...
© 2014 Velázquez et al. Coexistence of apparently similar species remains an enduring paradox in eco...
When applied at the individual patch level, the classic competition-colonization models of species c...
Competitive exclusion – n species cannot coexist on fewer than n limiting resources in a constant an...
The inclusion of spatial structure in biological models has revealed important phenomenon not observ...
One of the key problems in ecology is our need to anticipate the set of locations in which a species...
Interference competition is ubiquitous in nature. Yet its effects on resource exploitation remain la...
Many ecosystems, from vegetation to biofilms, are composed of territorial populations that compete f...
According to the competitive exclusion principle, in a finite ecosystem, extinction occurs naturally...
The competitive exclusion principle postulates that two trophically identical but fitness different ...
Abstract This is the first of two papers where we discuss the limits imposed by competition to the b...
If two species live on a single resource, the one with a slight advantage will out-compete the other...
Competitive intransitivity is mostly considered outside the main body of coexistence theories that r...
The absence of 'super competitors' in nature is usually attributed to organisms facing trade-offs in...
There is substantial controversy on whether species interactions (particularly competition) shape sp...
In models of competition in which space is treated as a continuum, and population size as continuous...
© 2014 Velázquez et al. Coexistence of apparently similar species remains an enduring paradox in eco...
When applied at the individual patch level, the classic competition-colonization models of species c...
Competitive exclusion – n species cannot coexist on fewer than n limiting resources in a constant an...
The inclusion of spatial structure in biological models has revealed important phenomenon not observ...
One of the key problems in ecology is our need to anticipate the set of locations in which a species...
Interference competition is ubiquitous in nature. Yet its effects on resource exploitation remain la...
Many ecosystems, from vegetation to biofilms, are composed of territorial populations that compete f...
According to the competitive exclusion principle, in a finite ecosystem, extinction occurs naturally...
The competitive exclusion principle postulates that two trophically identical but fitness different ...
Abstract This is the first of two papers where we discuss the limits imposed by competition to the b...
If two species live on a single resource, the one with a slight advantage will out-compete the other...