Population Ecology

1. Population Ecology Chapter 39

2. Ecology - Definition • The science of the relationships between organisms and their environments. or • The interactions that organisms have with other organisms and with their environment.

3. Population • A group of individuals of the same species occupying a given area • Can be described by demographics • Vital statistics such as size, density, distribution, and age structure

4. Population Age Structure • Divide population into age categories • Pre-reproductive • Reproductive • Post-reproductive • Population’s reproductive base includes members of the reproductive and pre-reproductive age categories

5. Density & Distribution clumped • Number of individuals in some specified area of habitat • Crude density information is more useful if combined with distribution data nearly uniform random

6. Determining Population Size • Direct counts are most accurate but seldom feasible • Can sample an area, then extrapolate • Capture-recapture method is used for mobile species

7. Capture-Recapture Method • Capture, mark, and release individuals • Return later and capture second sample • Count the number of marked individuals and use this to estimate total population

8. Assumptions in Capture-Recapture • Marking has no effect on mortality • Marking has no effect on likelihood to being captured • There is no immigration or emigration between sampling times

9. Changes in Population Size • Immigration adds individuals • Emigration subtracts individuals • Births add individuals • Deaths subtract individuals

10. Zero Population Growth • Interval in which number of births is balanced by number of deaths • Assume no change as a result of migration • Population size remains

11. Exponential Growth • Population size expands by ever increasing increments during successive intervals • The larger the population gets, the more individuals there are to reproduce

12. Biotic Potential • Maximum rate of increase per individual under ideal conditions • Varies between species • In nature, biotic potential is rarely reached

13. Biotic Potential • Which has greater biotic potential, • Elephants or frogs? • Elephants or rhinos? • Indian Elephant or African Elephant?

14. Limiting Factors • Any essential resource that is in short supply • All limiting factors acting on a population dictate sustainable population size

15. Carrying Capacity (K) • Maximum number of individuals that can be sustained in a particular habitat • Logistic growth occurs when population size is limited by carrying capacity

16. Logistic Growth • As size of the population increases, rate of reproduction decreases • When the population reaches carrying capacity, population growth ceases

17. Density-Dependent Controls • Logistic growth equation deals with density-dependent controls • Limiting factors become more intense as population size increases • Disease, competition, parasites, toxic effects of waste products

18. Density-Independent Controls • Factors unaffected by population density • Natural disasters or climate changes affect large and small populations alike

19. Human Population Growth • Population now exceeds 6 billion • Rates of increase vary among countries • Average annual increase is 1.26 percent • Population continues to increase exponentially

20. Side-Stepping Controls • Expanded into new habitats • Agriculture increased carrying capacity; use of fossil fuels aided increase • Hygiene and medicine lessened effects of density-dependent controls

21. Future Growth • Exponential growth cannot continue forever • Breakthroughs in technology may further increase carrying capacity • Eventually, density-dependent factors will slow growth

22. Population Growth Curve Estimated size by 10,000 years ago 5 million By 1804 1 billion By 1927 2 billion By 1960 3 billion By 1974 4 billion By 1987 5 billion By 1999 6 billion Projected for 2050 8.9 billion Human Population Growth

23. Fertility Rates • Total fertility rate (TFR) is average number of children born to a woman • Highest in developing countries, lowest in developed countries

24. Fertility Rates Compared U.S. – brown bar Brazil – red bar Nigeria – gold bar

25. Age Structure Diagrams • Show age distribution of a population

26. Age Structure Diagrams: 1997

27. Population Momentum • Lowering fertility rates cannot immediately slow population growth rate • Why? There are already many future parents alive • If every couple had just two children, population would still keep growing for another 60 years

28. Slowing Growth in China • World’s most extensive family planning program • Government rewards small family size, penalizes larger families, provides free birth control, abortion, sterilization • Since 1972, TFR down to 1.8 from 5.7

29. Effects of Economic Development • Total fertility rates (TFRs) are highest in developing countries, lowest in developed countries • When individuals are economically secure, they are under less pressure to have large families

30. Demographic Transition Model • Based on historical data from western Europe • Postulates that as countries become industrialized, first death rates drop, then birth rates drop

31. Demographic Transition Model Stage 1 Preindustrial Stage 2 Transitional Stage 3 Industrial Stage 4 Postindustrial relative population size births deaths low increasing very high decreasing low zero negative

32. Immigration

33. Resource Consumption • United States has 4.6 percent of the world’s population • Americans have a disproportionately large effect on the world’s resources • Per capita, Americans consume more resources and create more pollution than citizens of less developed nations, or any other country by far!

34. Projecting Human Population Size