1. Population Dynamics, Carrying Capacity, and Conservation Biology G. Tyler Miller’s Living in the Environment 12 th Edition Chapter 9 G. Tyler Miller’s Living in the Environment 12 th Edition Chapter 9 Dr. Richard Clements Chattanooga State Technical Community College Dr. Richard Clements Chattanooga State Technical Community College

2. Key Concepts  Factors affecting population size  Species reproductive patterns  Species survivorship patterns  Conservation biology and human impacts on ecosystems

3. Population Dynamics and Carrying Capacity  Population dynamics  Zero population growth (ZPG)  Biotic potential (intrinsic rat of increase [r])  Environmental resistance  Carrying capacity  Minimum viable population (MVP)

4. Population Dispersion Clumped(elephants)Uniform (creosote bush) Random(dandelions) Fig. 9.2, p. 199

5. Factors Affecting Population Size POPULATION SIZE Growth factors (biotic potential) Favorable light Favorable temperature Favorable chemical environment (optimal level of critical nutrients) Abiotic Biotic High reproductive rate Generalized niche Adequate food supply Suitable habitat Ability to compete for resources Ability to hide from or defend against predators Ability to resist diseases and parasites Ability to migrate and live in other habitats Ability to adapt to environmental change Decrease factors (environmental resistance) Too much or too little light Temperature too high or too low Unfavorable chemical environment (too much or too little of critical nutrients) Abiotic Biotic Low reproductive rate Specialized niche Inadequate food supply Unsuitable or destroyed habitat Too many competitors Insufficient ability to hide from or defend against predators Inability to resist diseases and parasites Inability to migrate and live in other habitats Inability to adapt to environmental change Fig. 9.3, p. 200

6. Exponential and Logistic Growth Year Time (t) Population size (N) Exponential Growth Time (t)Population size (N) K Logistic Growth Year Number of reindeer 2.01.5 1.0.5 Number of sheep (millions) 180018251850187519001925 2,000 1,500 19101920193019401950 1,000 500 Fig. 9.4, p. 201 Fig. 9.5, p. 201Fig. 9.6, p. 201

7. Population Density Effects  Density-independent controls  Density-dependent controls

8. Natural Population Curves Number of individuals Time Irruptive Stable Cyclic Irregular Fig. 9.7, p. 202

9. The Role of Predation in Controlling Population Size  Predator-prey cycles  Top-down control  Bottom-up control Population size (thousands) 160 140 120 100 80 60 40 20 0 1845185518651875188518951905191519251935 Year Hare Lynx Fig. 9.8, p. 203

10. Reproductive Patterns and Survival  Asexual reproduction  Sexual reproduction  r-selected species  K-selected species r-Selected Species cockroachdandelion Many small offspring Little or no parental care and protection of offspring Early reproductive age Most offspring die before reaching reproductive age Small adults Adapted to unstable climate and environmental conditions High population growth rate (r) Population size fluctuates wildly above and below carrying capacity (K) Generalist niche Low ability to compete Early successional species Fewer, larger offspring High parental care and protection of offspring Later reproductive age Most offspring survive to reproductive age Larger adults Adapted to stable climate and environmental conditions Lower population growth rate (r) Population size fairly stable and usually close to carrying capacity (K) Specialist niche High ability to compete Late successional species elephantsaguaro K-Selected Species Fig. 9.10b, p. 205

11. Survivorship Curves Percentage surviving (log scale) 100 10 1 0 Age Fig. 9.11, p. 206

12. Conservation Biology: Sustaining Wildlife Populations  Investigate human impacts on biodiversity  Ideas for maintaining biodiversity  Endangered species management  Wildlife reserves and ecological restoration  Ecological economics  Environmental ethics  Wildlife management

13. Human Impacts on Ecosystems  Habitat degradation and fragmentation  Ecosystem simplification  Genetic resistance  Predator elimination  Introduction of non-native species  Overharvesting renewable resources  Interference with ecological systems

14. Learning from Nature  Interdependence  Diversity  Resilience  Adaptability  Unpredictability  Limits See Connections p. 208