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The Evolution of Populations

The Evolution of Populations. Populations. It is a common misconception that evolution happens to one organism over the course of their lifetime Remember adaptations have to be inherited Natural selection overall affects the populations of organisms that are in a particular habitat.

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The Evolution of Populations

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  1. The Evolution of Populations

  2. Populations • It is a common misconception that evolution happens to one organism over the course of their lifetime • Remember adaptations have to be inherited • Natural selection overall affects the populations of organisms that are in a particular habitat

  3. Populations • A population is a group of individuals of the same species that live in a similar area • A population might be the number of black bears in New Jersey • Or it might be the species of bacteria that live under your fingernails

  4. Populations • Some populations are isolated from other populations • Like a population trapped on an island • Some populations are very fluid and have members entering and exiting constantly • Insects in a forest

  5. Populations • When looking at a population it is important to look at the total gene pool • The gene pool is the total of the genes in a population at any given time

  6. Darwin Awards • The following stories are tragic because they involve a human removing themselves from our population’s gene pool. • Most times they are tragic losses of life. • However other times they are good lessons in how to think about problems before approaching them

  7. Darwin Awards • (1998, Buenos Aires) Did he win the argument? It happened in February 1998 in a working-class Boedo neighborhood. During a heated marital dispute, a 25-year-old man picked up his 20-year-old wife and threw her off their eighth-floor apartment balcony. To his dismay, she became tangled in the power lines below. He immediately leapt from the balcony and fell towards his wife. We can only speculate as to his reasons. Was he angrily trying to finish the job, or was he remorsefully hoping to rescue her? He did not accomplish either goal. He missed the power lines completely, and plunged to his death. • The woman managed to swing over to a nearby balcony and was saved.

  8. Darwin Awards

  9. Darwin Awards • Some men will got to extraordinary lengths to prove how macho they are. Polish farmer KrystofAzninski, who staked a strong claim to being Europe's most macho man. Azninski, 30, had been drinking with friends when it was suggested they play “macho men games". Initially they hit each other over the head with frozen turnips, but then one man upped the ante by seizing a chainsaw and cutting off the end of his foot. Not to be outdone, Azninski grabbed the saw and, shouting "Watch this then," he swung at his own head and chopped it off. • "It's funny," said one companion, "when he was young he would put on his sister's underwear. But he died like a man."

  10. Microevolution • When we focus our studies of evolution to a single population we are branching into microevolution • This is evolution on a small scale that studies the frequencies of alleles within a population

  11. Microevolution • The subtle differences in traits that lead to the variations in a population are all caused by different alleles • These alleles can be attributed to our genetics

  12. Microevolution • However a change in alleles can be attributed to two main factors… • 1) Mutation can change alleles by creating new alleles for the population • This is the ultimate source of new alleles for a population

  13. Microevolution • 2) Sexual reproduction causes an increase in the number of different traits in a population • The combination of different alleles will produce different traits

  14. Hardy-Weinberg • It is possible to show if a population is changing the alleles within that population • Lets take an example • To the right you see a Blue Footed Boobie

  15. Hardy-Weinberg • Notice their feet • The foot webbing seen on the BFB is controlled by a single gene • Non webbing (W) is dominant over webbing (w) • Now we can test the frequency of the alleles

  16. Hardy-Weinberg • The Hardy-Weinberg principle is the equation that allows us to test alleles in a population at equilibrium • The equation is shown to the right • p stands for the dominant allele • q stands for the recessive allele

  17. Hardy-Weinberg • The Hardy-Weinberg principle is only valid when… • No mutations must occur • No gene flow can occur (i.e. no migration of individuals into, or out of, the population). • Random mating must occur (i.e. individuals must pair by chance) • The population must be large so that no genetic drift (random chance) can cause the allele frequencies to change. • No selection can occur so that certain alleles are not selected for, or against.

  18. Hardy-Weinberg (Cheat Sheet) • These are helpful tips for Hardy-Weinberg • p2is equal to (WW)% • 2pq is equal to (Ww)% • q2 is equal to (ww)% • p + q = 1 • ALWAYS write down variables given to you • ALWAYS write down variables you are looking for

  19. Hardy-Weinberg • Lets go back to our BFB example • If we knew the number of BFBs with webbed feet we could figure out the allele frequency for both the dominant and the recessive alleles

  20. Hardy-Weinberg • Scientists have counted that there are 500 birds, however only 20 of them have webbed feet • Try to find the allele frequency for both p and q

  21. Hardy-Weinberg • Workspace…

  22. Practice Problems • There are 100 students in a class. Ninety-six did well in the course and four blew it totally and received a grade of F. In the highly unlikely event that these traits are genetic rather than environmental, if these traits involve dominant and recessive alleles, and if the four (4%) represent the frequency of the homozygous recessive condition, please calculate the following: • The frequency of the recessive allele. • The frequency of the dominant allele. • The frequency of heterozygous individuals.

  23. Hardy-Weinberg • Workspace…

  24. Practice Problems • Sickle-cell anemia is a genetic disease. Normal homozygous individuals (SS) have normal blood cells that are easily infected with the malarial parasite. Thus, many of these individuals become very ill from the parasite and many die. Individuals homozygous for the sickle-cell trait (ss) have red blood cells that readily collapse when deoxygenated. Although malaria cannot grow in these red blood cells, individuals often die because of the genetic defect. However, individuals with the heterozygous condition (Ss) have some sickling of red blood cells, but generally not enough to cause mortality. In addition, malaria cannot survive well within these "partially defective" red blood cells. Thus, heterozygotes tend to survive better than either of the homozygous conditions. If 9% of an African population is born with a severe form of sickle-cell anemia (ss), what percentage of the population will be more resistant to malaria because they are heterozygous (Ss) for the sickle-cell gene?

  25. Hardy-Weinberg • Workspace…

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