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An introduction to prey-predator Models

An introduction to prey-predator Models. Lotka-Volterra model Lotka-Volterra model with prey logistic growth Holling type II model. Generic Model. f(x) prey growth term g(y) predator mortality term h(x,y) predation term e prey into predator biomass conversion coefficient.

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An introduction to prey-predator Models

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  1. An introduction to prey-predator Models • Lotka-Volterra model • Lotka-Volterra model with prey logistic growth • Holling type II model

  2. Generic Model • f(x) prey growth term • g(y) predator mortality term • h(x,y) predation term • e prey into predator biomass conversion coefficient

  3. Lotka-Volterra Model • r prey growth rate : Malthus law • m predator mortality rate : natural mortality • Mass action law • a and b predation coefficients : b=ea • e prey into predator biomass conversion coefficient

  4. Lotka-Volterra nullclines

  5. Direction field for Lotka-Volterra model

  6. Local stability analysis • Jacobian at positive equilibrium • detJ*>0 and trJ*=0 (center)

  7. Linear 2D systems (hyperbolic)

  8. Local stability analysis • Proof of existence of center trajectories (linearization theorem) • Existence of a first integral H(x,y) :

  9. Lotka-Volterra model

  10. Lotka-Volterra model

  11. Hare-Lynx data (Canada)

  12. Logistic growth (sheep in Australia)

  13. Lotka-Volterra Model with prey logistic growth

  14. Nullclines for the Lotka-Volterra model with prey logistic growth

  15. Lotka-Volterra Model with prey logistic growth • Equilibrium points : (0,0) (K,0) (x*,y*)

  16. Local stability analysis • Jacobian at positive equilibrium • detJ*>0 and trJ*<0 (stable)

  17. Condition for local asymptotic stability

  18. Lotka-Volterra model with prey logistic growth : coexistence

  19. Lotka-Volterra with prey logistic growth : predator extinction

  20. Transcritical bifurcation (K,0) stable and (x*,y*) unstable and negative (K,0) and (x*,y*) same (K,0) unstable and (x*,y*) stable and positive

  21. Loss of periodic solutions coexistence Predator extinction

  22. Functional response I and II

  23. Holling Model

  24. Existence of limit cycle (Supercritical Hopf bifurcation) • Polar coordinates

  25. Stable equilibrium

  26. At bifurcation

  27. Existence of a limit cycle

  28. Supercritical Hopf bifurcation

  29. Poincaré-Bendixson Theorem • A bounded semi-orbit in the plane tends to : • a stable equilibrium • a limit cycle • a cycle graph

  30. Trapping region

  31. Trapping region : Annulus

  32. Example of a trapping region • Van der Pol model (l>0)

  33. Holling Model

  34. Nullclines for Holling model

  35. Poincaré box for Holling model

  36. Holling model with limit cycle

  37. Paradox of enrichment • When K increases : • Predator extinction • Prey-predator coexistence (TC) • Prey-predator equilibrium becomes unstable (Hopf) • Occurrence of a stable limit cycle (large variations)

  38. Other prey-predator models • Functional responses (Type III, ratio-dependent …) • Prey-predator-super-predator… • Trophic levels

  39. Routh-Hurwitz stability conditions • Characteristic equations • Stability conditions : M* l.a.s.

  40. Routh-Hurwitz stability conditions • Dimension 2 • Dimension 3

  41. 3-trophic example

  42. Interspecific competition Model • Transformed system

  43. Competition model

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