Effect of resource subsidies on predator-prey population dynamics: a mathematical model

The influence of a resource subsidy on predator-prey interactions is examined using a mathematical model. The model arises from the study of a biological system involving arctic foxes (predator), lemmings (prey), and seal carcasses (subsidy). In one version of the model, the predator, prey and subsi...

Full description

Bibliographic Details
Format: Text
Language:English
Published: STARS 2012
Subjects:
predator-prey
resource subsidy
population dynamics
patch model
stable equilibrium
arctic fox
FOOD-WEB STABILITY
WESTERN HUDSON-BAY
APPARENT COMPETITION
TROPHIC
CASCADES
MEDIATED COEXISTENCE
2-PATCH ENVIRONMENTS
ECOLOGICAL TIME
SEA-ICE
COMMUNITIES
SYSTEMS
Ecology
Mathematical & Computational Biology
Arctic
Hudson
Hudson Bay
Arctic Fox
Sea ice
Online Access:https://stars.library.ucf.edu/facultybib2010/3079
Description
Summary:The influence of a resource subsidy on predator-prey interactions is examined using a mathematical model. The model arises from the study of a biological system involving arctic foxes (predator), lemmings (prey), and seal carcasses (subsidy). In one version of the model, the predator, prey and subsidy all occur in the same location; in a second version, the predator moves between two patches, one containing only the prey and the other containing only the subsidy. Criteria for feasibility and stability of the different equilibrium states are studied both analytically and numerically. At small subsidy input rates, there is a minimum prey carrying capacity needed to support both predator and prey. At intermediate subsidy input rates, the predator and prey can always coexist. At high subsidy input rates, the prey cannot persist even at high carrying capacities. As predator movement increases, the dynamic stability of the predator-prey-subsidy interactions also increases.

Similar Items