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Population Biology Concepts

Population Biology Concepts. Population ecology Carrying capacity Reproductive strategies Survivorship. Objective 1. Outline the characteristics of populations that help predict population growth.

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Population Biology Concepts

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  1. Population Biology Concepts • Population ecology • Carrying capacity • Reproductive strategies • Survivorship

  2. Objective 1 • Outline the characteristics of populations that help predict population growth. • Populations are characterized by population size, population density, population distribution, sex ratio, and age structure. • Birth and death rates, as well as immigration and emigration, determine how a population will grow or decline.

  3. Objective 2 • Assess logistic growth, carrying capacity, limiting factors, and other fundamental concepts in population ecology. • Populations unrestrained by limiting factors will undergo exponential growth until they meet environmental resistance. • Logistic growth describes the effects of density dependence; growth slows as population size increases, and population size levels off at a carrying capacity. • Carrying capacity is the maximum size a population can attain in a given environment • K-selection and r-selection describe theoretical extremes in how organisms can allocate growth and reproduction.

  4. Population

  5. Population characteristics • Population size: the number of individual organisms present at a given time • Numbers can increase, decrease, cycle, or remain the same In 100 years, passenger pigeons — billions of birds — were driven to extinction.

  6. Population characteristics • Population density: the number of individuals within a population per unit area • Generally, larger organisms have lower population densities because they need more resources. • High densities make it easier to find mates, but increase competition and vulnerability to predation. • Low densities make it harder to find mates, but individuals enjoy plentiful resources and space. • Reduced resources can lead to overcrowding, disease, predators, parasites, and extinction.

  7. Population characteristics • Population distribution (dispersion): spatial arrangement of organisms within an area • Random— haphazardly located individuals, with no pattern • Uniform— individuals are evenly spaced due to territoriality or competition • Clumped— arranged according to availability of resources • Most common in nature

  8. Sex ratio: proportion of males to females In monogamous species, a 50/50 sex ratio maximizes population growth. Age structure (age distribution): the relative numbers of organisms of each age within a population Age structure diagrams (pyramids): show the age structure of populations Population characteristics

  9. Survivorship CurvesIndividuals of different ages

  10. Four factors that determine population growth Population growth or decline is due to: Natality: births within the population Mortality: deaths within the population Immigration: arrival of individuals from outside the population Emigration: departure of individuals from the population

  11. Calculating Population Growth • Natural rate of population growth= (crude birth rate) – (crude death rate) • number of births and deaths per 1000 individuals/year • Population Growth rate = (crude birth rate + immigration rate) - (crude death rate + emigration rate) takes into account effects of migration

  12. Exponential population growth Exponentialgrowth:a population increases by a fixed percent A fixed percent of a large number produces a large increase. Graphed as a J-shaped curve Exponential growth cannot be sustained indefinitely. It occurs in nature with a small population and ideal conditions.

  13. Limiting factors restrain growth Exponential growth rarely lasts for long. Limiting factors: physical, chemical, and biological characteristics that restrain population growth Water, space, food, predators, and disease Environmental resistance: all limiting factors taken together that stop exponential growth Stabilizes the population size

  14. Carrying capacity Carrying capacity: the maximum population size of a species that its environment can sustain An S-shaped logistic growth curve Initial exponential increase is slowed and stopped due to limiting factors.. Carrying capacities change Humans have raised their carrying capacity by decreasing the carrying capacities for other .

  15. Perfect logistic curves aren’t often found (a) Ideal (b) and (c) Fluctuate around carrying capacity (d) Grow rapidly, use resources too quickly, crash suddenly

  16. Population density affects limiting factors A population’s density can increase or decrease the impact of certain factors. Density-dependent factors: limiting factors whose influence is affected by population density Increased risk of predation and competition for mates occurs with increased density. The logistic growth curve represents the effects of density dependence. Density-independent factors: limiting factors whose influence is not affected by population density Events such as floods, fires, and landslides

  17. Biotic potential and reproductive strategies vary Population regulation is not only due to environmental limiting factors, but to attributes of the organism itself. Biotic potential: an organism’s ability to produce offspring

  18. Example of high biotic potential Mature at 3-5 years Release 50,000-100,000 eggs/year Fertilized eggs hatch in 12-16 days Cabezon “Scorpion Fish

  19. Example of low biotic potential Mature at 10 years Give birth to a single baby every 8 years

  20. K-selected species: animals with long gestation periods and few offspring (“quality, not quantity”) • Have a low biotic potential • Stabilize at or near carrying capacity • Must compete for resources…so offspring must be of high quality and be good competitors Natural selection favors individuals that invest in offspring

  21. r-selected species: animals which reproduce quickly (“quantity, not quality”) • Have a high biotic potential Devote their energy and resources to producing as many offspring as possible in a relatively short time. Their offspring do not require parental care after birth- survival left to chance. Many fish, plants, frogs, and insects.

  22. K-selected vs. r-selected species

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