Harlan W. Stech scite author profile

A cyclic, constant parameter epidemiological model is described for a closed population divided into susceptible, exposed and infectious classes. Distributed delays are introduced and the model is formulated as two coupled Volterra integral equations. The delays do not change the general nature of thresholds or asymptotic stability; in all cases considered the disease either dies out, or approaches an endemic steady state.

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Enrichment in a general class of stoichiometric producer–consumer population growth models

Stech

Peckham

Pastor

2012

Theoretical Population Biology

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Abstract. This paper presents the derivation and partial analysis of a general producer--consumer model. The model is stoichometric in that it includes the growth constraints imposed by species--specific biomass carbon to nutrient ratios. The model unifies the approaches of other studies in recent years, and is calibrated from an extensive review of the algae--Daphnia literature. Numerical simulations and bifurcation analysis are used to examine the impact of energy enrichment under nutrient and stoichiometric constraints. Our results suggest that the variety of system responses previously cited for related models can be attributed to the size of the total system nutrient pool, which is here assumed fixed. New, more complicated bifurcation sequences, such as multiple homoclinic bifurcations, are demonstrated as well. The mechanistic basis of the model permits us to show the robustness of the system's dynamics subject to alternate approaches to modeling producer and consumer biomass production.

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Harlan W. Stech

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Enrichment in a general class of stoichiometric producer–consumer population growth models

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