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Chapter 52 Population Ecology

This chapter explores the intricacies of population ecology, focusing on the characteristics that define populations, such as density and dispersion patterns. It details the methods used to study population dynamics, including life tables and survivorship curves, which illustrate mortality trends across different species. The chapter also examines reproductive strategies like semelparity and iteroparity, particularly the trade-offs between survival and reproduction in resource-limited environments. Models of population growth, including exponential and logistic models, are discussed alongside density-dependent and density-independent factors impacting population size.

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Chapter 52 Population Ecology

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  1. Chapter 52 Population Ecology Census Anyone?

  2. Characteristics of Populations • What is a population? • The characteristics of populations are shaped by the interactions between individuals and their environment.

  3. Two characteristics of any population are density and spacing • The density of a population is measured as the number of individuals per unit area. • Difficult to count numbers. • The dispersion of a population is the pattern of spacing among individuals within the geographic boundaries

  4. Patterns of Dispersion

  5. Demographystudies the vital statistics that affect population size. • A life table is an age-specific summary of the survival pattern of a population.

  6. A graphic way of representing the data is a survivorship curve. • A Type I curve shows a low death rate early in life (humans). • The Type II curve shows constant mortality (squirrels). • Type III curve shows a high death rate early in life (oysters).

  7. Big Bang Reproduction • This is also known as semelparity. • repeated reproduction • This is also known as iteroparity. • What factors contribute to the evolution of semelparity and iteroparity?

  8. The cost of reproduction

  9. Limited Resources • Sometimes we see trade-offs between survival and reproduction when resources are limited. • Ex. Red deer show a higher mortality rate in winters following reproductive episodes. • Ex. Variations also occur in seed crop size in plants.

  10. Exponential model describes an population in an unlimited environment • We define a change in population size based on the following verbal equation. Change in Populaion = Births – Deaths Size during time interval

  11. logistic model of population growth incorporates the concept of carrying capacity • Population growth is therefore regulated by carrying capacity, which is the maximum stable population size a particular environment can support.

  12. Why do all populations eventually stop growing? • Density-dependent factors increase their affect on a population as population density increases. • This is a type of negative feedback. • Density-independent factors are unrelated to population density, and there is no feedback to slow population growth.

  13. Density Dependent • Resource limitation • Intraspecific competition • Territory, Predation, and Waste Accumulation.

  14. Density Independent • Disease

  15. Study of moose pop. on Isle Royal

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