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I. Regulation of population size of the prey A. Reduction of population size B. Predator-prey cycles C. Maintaining predators and prey II. Responses of.

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Presentation on theme: "I. Regulation of population size of the prey A. Reduction of population size B. Predator-prey cycles C. Maintaining predators and prey II. Responses of."— Presentation transcript:

1 I. Regulation of population size of the prey A. Reduction of population size B. Predator-prey cycles C. Maintaining predators and prey II. Responses of predators A. Numerical B. Functional (I, II, and III) C. Predator satiation III. Predation as an evolutionary force Community Ecology 2 Exploitation: Predation, parasitism, pathogens and herbivory Ch. 14, plus pp. 156-163, 164-166

2 Predation BHT CD

3 14.2 – Acanthocephalan (thorny-headed worm) life cycle

4 Parasitoids Ricklefs 2001

5 Parasitoids

6 Herbivory

7 I.Regulation of population sizes A. Reduce population size of prey 1. Cyclamen and Typhlodromus mites - biocontrol Ricklefs 2001 Fig. 18.3

8 14.12 2. Mange, foxes and hares

9 14.13

10 Predator effects with invasive species (2 examples) 1.Enemy-release hypothesis 2.Mesopredator release

11 1. Enemy-release Opuntia and Cactoblastis cactorum Ehrlich & Roughgarden (1987) Fig. 13-1 Molles 14.11 Moths introduced: 1925 Cacti mostly gone: 1935

12 2. Mesopredator release Rayner et al. 2007 PNAS Cats Rats Cook’s petrels

13 B. Predator-prey cycles 1. Examples 14.14

14 B. Predator-prey cycles 2. Lotka-Volterra models 14.15

15 14.16

16 Predator-prey cycles Ecobeaker demo: zooplankton and phytoplankton Assumptions: 1.The environment does not change and genetic adaptation is slow. 2.No migration 3.The prey population finds ample food at all times. 4.The food supply of the predator population depends entirely on the prey populations. 5.Instantaneous feedback to birth and death rates. 6.The rate of change of population is proportional to its size. Is this reality?

17 I.Regulation of population sizes B. Predator-prey cycles 3. Experiments: Paramecium caudatum and Didinium cultures 14.18

18 C. Maintaining predators and prey 1. Environmental complexity: refuges 14.19

19 C. Maintaining predators and prey 2. Immigration 14.18

20 C. Maintaining predators and prey 3. Switching: Alternative food sources for predators

21 II. Responses of predators 5 th : 164-166 A. Numerical responses

22 II. Responses of predators B. Functional responses 6.21

23 6.22

24 Wolf functional response 6.23

25 Type III functional response Ricklefs 18.13

26 14.20 C. Predator satiation

27 14.21 Predator satiation – reproductive success of prey

28 14.23 Predator satiation – reproductive success of prey

29 Look back at the lynx-hare cycles: which of the mechanisms we’ve discussed are involved in these cycles? 14.14

30 III. Predation and adaptations Reading, 5 th : pp. 156-163 What roles do plant nutrient content and plant defenses play in herbivory dynamics? What is the difference between cryptic vs. aposematic (warning) coloration What are the two main types of mimicry? What is co-evolution and how does it differ from convergent evolution?

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