Chapter 53 POPULATION ECOLOGY

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Ch. 53 Warm-Up 1. Sketch an exponential population growth curve and a logistic population growth curve. 2. What is an ecological footprint? 3. What are ways that you can reduce your ecological footprint? Define: Demography Semelparity Iteroparity Carrying capacity Exponential growth curve Logistic growth curve K-selection r-selection Ecological footprint

Chapter 53 POPULATION ECOLOGY

Introduction Population = group of individuals of a single species living in same general area Density: # individuals / area Dispersion: pattern of spacing between individuals

Determining population size and density: Count every individual Random sampling Mark-recapture method

Patterns of Dispersal: 1. Clumped most common; near required resource 2. Uniform usually antagonistic interactions 3. Random unpredictable spacing, not common in nature

Demography: the study of vital statistics that affect population size Additions occur through birth, and subtractions occur through death. Life table : age-specific summary of the survival pattern of a population

Survivorship Curve: represent # individuals alive at each age Type I: low death rate early in life (humans) Type II: constant death rate over lifespan (squirrels) Type III: high death rate early in life (oysters)

Change in Population Size Change in population size during time interval Births during time interval = - dn/dt = B-D Deaths during time interval N = population size t = time

Zero Population Growth

Population Growth Models

Exponential population growth: ideal conditions, population grows rapidly

Exponential Growth Equation dn/dt = change in population r = growth rate of pop. N = population size

Exponential Growth Problem Sample Problem: A certain population of mice is growing exponentially. The growth rate of the population (r) is 1.3 and the current population size (N) is 2,500 individuals. How many mice are added to the population each year?

Unlimited resources are rare Logistic model: incorporates carrying capacity (K) K = maximum stable population which can be sustained by environment

Logistic Growth Equation dn/dt = change in population r = growth rate of pop. N = population size K = carrying capacity

Logistic Growth Problem Sample Problem: If a population has a carrying capacity (K) of 900, and the growth rate (r) is 1.1, what is the population growth when the population (N) is 425?

Life History: traits that affect an organism s schedule of reproduction and survival 3 Variables: 1. Age of sexual maturation 2. How often organism reproduces 3. # offspring during each event Note: These traits are evolutionary outcomes, not conscious decisions by organisms

Semelparity Big-bang reproduction Many offspring produced at once Individual often dies afterwards Less stable environments Agave Plant

Iteroparity Repeated reproduction Few, but large offspring More stable environments Lizard Critical factors: survival rate of offspring and repeated reproduction when resources are limited

K-selection: pop. close to carrying capacity r-selection: maximize reproductive success K-selection Live around K High prenatal care Low birth numbers Good survival of young Density-dependent ie. Humans r-selection Exponential growth Little or no care High birth numbers Poor survival of young Density independent ie. cockroaches

Factors that limit population growth: Density-Dependent factors: population matters i.e. Predation, disease, competition, territoriality, waste accumulation, physiological factors Density-Independent factors: population not a factor i.e. Natural disasters: fire, flood, weather

Biotic & abiotic factors Population fluctuations 1975-1980: peak in wolf numbers 1995: harsh winter weather (deep snow)

What do you notice about the population cycles of the showshoe hare and lynx?

Boom-and-bust cycles Predator-prey interactions Eg. lynx and snowshoe hare on 10-year cycle

Human Population Growth 2 configurations for a stable human population (zero population growth): A. High birth / high death B. Low birth / low death Demographic transition: occurs when population goes from A B

Age-Structure Diagrams

Global Carrying Capacity Current world population (2015) = 7.3 billion Estimated carrying capacity = 10-15 billion? Ecological footprint: total land + water area needed for all the resources a person consumes in a pop. 1.7 hectares (ha)/person is sustainable Typical person in U.S. = 10 ha footprint Limitations? Consequences? Solutions?

Map of ecological footprint of countries in the world (proportional sizes shown)

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