Modeling Dynamic Biological Systems /
| Autores principales: | , |
|---|---|
| Autor Corporativo: | |
| Formato: | eBook |
| Lenguaje: | English |
| Publicado: |
Cham :
Springer International Publishing : Imprint: Springer,
2014.
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| Edición: | 2nd ed. 2014. |
| Colección: | Modeling Dynamic Systems,
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| Materias: |
Tabla de Contenidos:
- I. INTRODUCTION
- 1. Modeling Dynamic Biological Systems
- 2. Exploring Dynamic Biological Systems
- 3. Risky Population
- 4. Steady State, Oscillation and Chaos in Population Dynamics
- 5. Spatial Dynamics.- II. PHYSICAL AND BIOCHEMICAL MODELS.- 6. Law of Mass Action
- 7. Catalyzed Product
- 8. Two-Stage Nutrient Uptake
- 9. Iodine Compartment
- 10. The Brusselator
- 11. Signal Transmission
- III. Genetic Models
- 12. Mating and Mutation of Alleles
- 13. Artificial Worms
- 14. Langur Infanticide and Long-term Matriline Fitness
- IV. MODELS OF ORGANISM
- 15. Odor Sensing
- 16. Stochastic Resonance
- 17. Heart Beat
- 18. Bat Thermo-Regulation
- 19. The Optimum Plant
- 20. Soybean Plant Growth
- 21. Infectious Diseases
- VI. SINGLE POPULATION MODELS
- 22. Adaptive Population Control
- 23. Roan Herds
- 24. Population Dynamics of Voles
- 25. Lemming Population Dynamics
- 26. Multi-Stage Insect Models
- 27. Two Age-Class Parasites
- 28. Monkey Travels
- 29. Biosynchronicity
- VII. MULTIPLE POPULATION MODELS
- 30. Plant Microbe Interaction
- 31. Wildebeest
- 32. Nicholson-Bailey Host-Parasite Interaction
- 33. Diseased and Healthy Immigrating Insects
- 34. Two-Species Colonization Model
- 35. Herbivore-Algae Predator-Prey Dynamics
- 36. The Grass Carp
- 37. Recruitment and Trophic Dynamics of Gizzard Shad
- 38. Salamander Dispersal. 39. Quail Movement
- 40. Modeling Spatial Dynamics of Spatial Predator-Prey Interactions in a Changing
- VII. CATASTROPHE AND SELF-ORGANIZATION
- 41. Catastrophe
- 42. Spruce Budworm Dynamics
- 43. Game of Life
- 44. Daisyworld
- VIII. CONCLUSION
- 45. Building a Modeling Community. .