2020
DOI: 10.1155/2020/7961327
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A General Model of Population Dynamics Accounting for Multiple Kinds of Interaction

Abstract: Population dynamics has been modelled using differential equations almost since Malthus times, more than two centuries ago. Basic ingredients of population dynamics models are typically a growth rate, a saturation term in the form of Verhulst’s logistic brake, and a functional response accounting for interspecific interactions. However, intraspecific interactions are not usually included in the equations. The simplest models use linear terms to represent a simple picture of the nature; meanwhile, to represent … Show more

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Cited by 6 publications
(15 citation statements)
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“…In this section we will introduce what might be the simplest possible model capable of exhibiting evolutionary transitions between different ecological regimes. We will consider two microbial species whose populations evolve in time according to the generalised logistic model ( Stucchi et al, 2020 ), briefly described in Box 1 . Specialising this model for just two species, and ignoring intraspecific cooperation or direct competition (i.e., b ii = 0), the two equations that describe this minimal ecological community are This system of differential equations is able to describe every kind of ecological interaction.…”
Section: Resultsmentioning
confidence: 99%
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“…In this section we will introduce what might be the simplest possible model capable of exhibiting evolutionary transitions between different ecological regimes. We will consider two microbial species whose populations evolve in time according to the generalised logistic model ( Stucchi et al, 2020 ), briefly described in Box 1 . Specialising this model for just two species, and ignoring intraspecific cooperation or direct competition (i.e., b ii = 0), the two equations that describe this minimal ecological community are This system of differential equations is able to describe every kind of ecological interaction.…”
Section: Resultsmentioning
confidence: 99%
“…The idea behind the population model of Stucchi et al (2020 ) is to extend Velhurst’s logistic equations of populations by making the parameters and ā i to depend on the interactions with the environment as well as the population sizes of all species in the community as Here r i is the vegetative growth rate of species i, b ik is the rate of benefit (if positive) or hindrance (if negative) on species i due to the interaction with species k , and p is the total number of species in the ecosystem. The coefficients a i measure intraspecific competitions (hence a i > 0) due to a limitation of the environmental resources.…”
Section: Resultsmentioning
confidence: 99%
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