Add to ORKGRecent theory shows that: (i) competition between multiple species for multiple resources may generate oscillations and chaotic fluctuations in species abundances; and (ii) these non-equilibrium dynamics may favor a high biodiversity. These findings were based on Liebig's Law of the Minimum, which assumes that each species is limited by only one resource at a time. In reality, however, resources can have interactive effects on growth. Here, we investigate whether competition for interactively essential resources may generate oscillations and chaos as well. Our results show that competition for interactively essential resources may, indeed, exhibit dynamics of similar complexity. This illustrates the wide potential for non-equilibrium dynami...
We investigate the appearance of chaos in a microbial 3-species model motivated by a potentially cha...
Changes in species composition of communities seem to proceed gradually at first sight, but remarkab...
Discovering why natural population densities change over time and vary with location is a central go...
Recent theory shows that: (i) competition between multiple species for multiple resources may genera...
We investigate biological mechanisms that generate oscillations and chaos in multispecies competitio...
During the last two decades, the simple view of resource limitation by a single resource has been ch...
Resource competition theory predicts that, in equilibrium, the number of coexisting species cannot e...
Similarity of competitors has been proposed to facilitate coexistence of species because it slows do...
Biodiversity has both fascinated and puzzled biologists(1). In aquatic ecosystems, the biodiversity ...
<div><p>In many ecosystems, natural selection can occur quickly enough to influence the population d...
In the absence of other limiting factors, assemblages in which species share a common, effective nat...
If two species exhibit different nonlinear responses to a single shared resource, and if each specie...
If two species exhibit different nonlinear responses to a single shared resource, and if each specie...
Interference competition is ubiquitous in nature. Yet its effects on resource exploitation remain la...
One of the central goals of ecology is to predict the distribution and abundance of organisms. Here,...
We investigate the appearance of chaos in a microbial 3-species model motivated by a potentially cha...
Changes in species composition of communities seem to proceed gradually at first sight, but remarkab...
Discovering why natural population densities change over time and vary with location is a central go...
Recent theory shows that: (i) competition between multiple species for multiple resources may genera...
We investigate biological mechanisms that generate oscillations and chaos in multispecies competitio...
During the last two decades, the simple view of resource limitation by a single resource has been ch...
Resource competition theory predicts that, in equilibrium, the number of coexisting species cannot e...
Similarity of competitors has been proposed to facilitate coexistence of species because it slows do...
Biodiversity has both fascinated and puzzled biologists(1). In aquatic ecosystems, the biodiversity ...
<div><p>In many ecosystems, natural selection can occur quickly enough to influence the population d...
In the absence of other limiting factors, assemblages in which species share a common, effective nat...
If two species exhibit different nonlinear responses to a single shared resource, and if each specie...
If two species exhibit different nonlinear responses to a single shared resource, and if each specie...
Interference competition is ubiquitous in nature. Yet its effects on resource exploitation remain la...
One of the central goals of ecology is to predict the distribution and abundance of organisms. Here,...
We investigate the appearance of chaos in a microbial 3-species model motivated by a potentially cha...
Changes in species composition of communities seem to proceed gradually at first sight, but remarkab...
Discovering why natural population densities change over time and vary with location is a central go...