Add to ORKGThe models explore the effects of resource and temperature on competition between insect species. A system of differential equations is proposed and analysed qualitatively using stability theory. A local study of the models is performed around axial, planar, and interior equilibrium points to successively estimate the effect of (i) one species interacting with a resource, (ii) two competing species for a single resource, and (iii) three competing species for a single resource. The local stability analysis of the equilibrium is discussed using Routh-Hurwitz criteria. Numerical simulation of the models is performed to investigate the sensitivity of certain key parameters. The models are used to predict population dynamics in the selected case...
Multi-species population models with various types of interactions are important to understand the s...
Controlling pest insects is a challenge of main importance to preserve crop production. In the conte...
We study a model of the chemostat with several species in competition on a single resource. We take ...
This chapter focuses on an example of domestic Drosophila species living on a divided and ephemeral ...
AbstractWe consider a system of three autonomous ordinary differential equations modeling two compet...
Experimental determinations of Drosophila population dynamics cannot be explained by the Lotka-Volte...
Experimental determinations of Drosophila population dynamics cannot be explained by the Lotka-Volte...
For the control of pest-insect populations it is essential to develop environmentally respectful met...
Population interactions generally describe the interactions of populations that compete for availabl...
We study a model of the chemostat with several species in competition for a single resource. We take...
Population interactions generally describe the interactions of populations that compete for availabl...
Mathematical model has many benefits in life, especially the development of science and application ...
Two major objectives were accomplished.\ud 1. A summary of the work done during 1970-71 on a single ...
The model is based on Lotka-Volterra dynamics with two competing fish species which are affected not...
A mathematical model is constructed to study the effect of predation on two competing species in whi...
Multi-species population models with various types of interactions are important to understand the s...
Controlling pest insects is a challenge of main importance to preserve crop production. In the conte...
We study a model of the chemostat with several species in competition on a single resource. We take ...
This chapter focuses on an example of domestic Drosophila species living on a divided and ephemeral ...
AbstractWe consider a system of three autonomous ordinary differential equations modeling two compet...
Experimental determinations of Drosophila population dynamics cannot be explained by the Lotka-Volte...
Experimental determinations of Drosophila population dynamics cannot be explained by the Lotka-Volte...
For the control of pest-insect populations it is essential to develop environmentally respectful met...
Population interactions generally describe the interactions of populations that compete for availabl...
We study a model of the chemostat with several species in competition for a single resource. We take...
Population interactions generally describe the interactions of populations that compete for availabl...
Mathematical model has many benefits in life, especially the development of science and application ...
Two major objectives were accomplished.\ud 1. A summary of the work done during 1970-71 on a single ...
The model is based on Lotka-Volterra dynamics with two competing fish species which are affected not...
A mathematical model is constructed to study the effect of predation on two competing species in whi...
Multi-species population models with various types of interactions are important to understand the s...
Controlling pest insects is a challenge of main importance to preserve crop production. In the conte...
We study a model of the chemostat with several species in competition on a single resource. We take ...