dN
N= Nr
dt
Stano Pekár“Populační ekologie živočichů“
• Population ecology (Resources, Conditions, Models)
• Population growth (Population censuses)
• Population structure (Stage/Age life-tables, k-factor analysis)p ( g g y )
• Temperature models (Degree-days)
• Intraspecific competition (Harvesting Allee effect)• Intraspecific competition (Harvesting, Allee effect)
• Spatial ecology (Distribution, Dispersal, Metapopulations)
• Interspecific competition (Mutualism)
• Predation (Functional and numerical responses)( p )
• Predation models (Host-pathogen/parasite, Prey-predator, Hostparasitoid
Plant herbivore)parasitoid, Plant-herbivore)
Tkadlec E 2009 Populační ekologie Struktura růst aTkadlec E. 2009. Populační ekologie. Struktura, růst a
dynamika populací. Univerzita Palackého.
Townsend R.T., Begon M., Harper
J.L. 2010. Základy ekologie.
U i i P l kéh
Jarošík V. 2005. Růst a regulace
populací. Academia.
Univerzita Palackého.
Akcakaya H.R., Burgman M.A. & Ginzburg L.R. 1999. Applied Population
Ecology. Principles and Computer Exercises using RAMAS
EcoLab. Sinauer.EcoLab. Sinauer.
Alstad D. 2001. Basic POPULUS Models of Ecology. Prentice Hall.
Begon M., Mortimer M. & Thompson D.J. 1996. Population Ecology: A
unified study of animals and plants Blackwellunified study of animals and plants. Blackwell.
Bernstein R. 2003. Population Ecology. An Introduction o Computer
Simulations. Wiley.
G t lli N J 2001 A P i f E l SiGotelli N.J. 2001. A Primer of Ecology. Sinauer.
Hastings A. 1997. Population Biology. Concepts and models. Springer.
Neal D. 2006. Introduction to Population Biology. Cambridge University
Press.
Ranta E., Lundberg P. & Kaitala V. 2006. Ecology of Populations.
Cambridge.
Shultz S.M., Dunham A.E., Root K.V., Soucy S.L., Carroll S.D. & Ginzburg
L.R. 1999. Conservation Biology with RAMAS EcoLab. Sinauer.
Stevens M.H.H. 2009. A Primer of Ecology with R. Springer.gy p g
Vandermeer J.H. & Goldberg D.E. 2003. Population Ecology: First
principles. Princeton.
No. Topics Date
1. Adaptation, fitness and phenotypic plasticity 26.9.
2. Abundance and cycles 3.10.
3. Evolution of sex, sex determination 3.10.
4. Sex ratio
5. r- and K- selection 10.10.5. r and K selection 10.10.
6. Geographic variability (temperature, physiological time) 10.10.
7. Intraspecific competition 17.10.
8 Management of endangered species 17 108. Management of endangered species 17.10.
9. Regulation of pests, Sustainable harvesting 31.10.
10. Cooperation, Allee effect 31.10.
i l d11. Dispersal and movement 7.11.
12. Dormancy, navigation, and migration 7.11.
13. Interspecific competition, competitive exclusion principle, apparent competition 14.11.
14. Niche and coexistence (storage effect, heteromyopy, resource partitioning) 14.11.
15. Amensalism, comensalism, mutualism 28.11.
16. Defence against predators (crypsis, mimicry) 28.11.
17. True predators, parasitoids, and host manipulation
18. Herbivores, Parasites and pathogens
1. Temperature dependent model – laboratory, Drosophila
2 N i l l b t k h2. Numerical response – laboratory, cockroaches
3. Population dynamic – laboratory, Sinella springtails
4. Interspecific competition – laboratory, Tribolium &
Oryzaephilus beetles
5. Functional response – laboratory and field, Pardosa spiders
Study chapters 1-2 and
description of a selected projectdescription of a selected project
Pekár S. & Kintrová K. 2013. Populační
ekologie živočichů v příkladech. MU Brno.