7.3

Question 1

5 Factors responsible for evolutionary change

Answer 1

1) nonrandom mating
2) mutations
3) genetic drift
4) genetic flow
5) natural selection

Question 2

sexual dimorphism

Answer 2

individuals of most sexually reproducing species have a distinctively male of female phenotype (males are flashier and more aggressive)
-has to do with nonrandom mating

Question 3

Natural Selection: Stabilizing Selection

Answer 3

selects against phenotype extremes, individuals with average phenotypes are favored.
-babies with average weights are more likely to survive (the mother isn’t burdened and the baby isn’t too small to get food)

Question 4

Natural Selection: Directional Selection

Answer 4

may favor phenotypes at one of the extremes of the normal distribution; over time one phenotype replaces another in frequency
-speckled rats survive better in the patchy canopy shade, then the trees get cut down so the white rat survives better

Question 5

Natural Selection: Disruptive Selection

Answer 5

the average is selected against, more than one phenotype is favored but it isn’t the average
-white beach with black rocks, the average speckled rats won’t survive

Question 6

Hardy-Weinburg requirements

Answer 6

• no mutations
• no gene flow
• yes random mating
• no genetic drift
• no selection

Question 7

evolution can be detected by…

Answer 7

…noting any deviation from the equilibrium, there would be a change in allele frequencies
-this is microevolution

Question 8

Evidences of Evolution:

Answer 8

• fossils
• biogeography
• comparative anatomy
• molecular biology
• embryology

Question 9

Date a fossil using half-life

Answer 9

• us radioactive isotopes found in the fossils, these have a particular half life (the time it takes for 1/2 of the isotope to change into another stable element)
• if a fossil has organic matter, than 1/2 of the Carbon-14 isotope will be changes to Nitrogen-14 in 5730 years (the next half-life would be 11,460

Question 10

Relatively date a fossil

Answer 10

• fossils found in the stratum of sedimentary rock are a local sample of the organisms that existed at the time
• strata at one location often can be correlated with strata at another location by similar fossils known as index fossils
• like peeling off wallpaper of an old house, oldest is buried deepest

Question 11

Biogeography

Answer 11

the study of geographic distribution of a species

• Australian wildlife evolved on the island continent in isolation from regions where early placental mammals diversified
  
  • we find species where they are because they evolved from ancestors that inhabited those regions

Question 12

Comparative Anatomy

Answer 12

comparison of body structures between different species

• the same skeletal remains make up the forelimbs of humans, cats, whales, and bats (all mammals)
• this means we all descended from a common ancestor

Question 13

homologous, analogous, and vestigial structures

Answer 13

• similar structures that have adapted to different functions
  
  • traits inherited from the common ancestor, such as spines and tails
• similarity due to convergent evolution, not a common ancestor
  
  • had to meet the same needs, so they developed the same things on their own
    
    • squid eyeballs and cat eyeballs
• body structures that no longer function
  
  • wings on flightless birds (like ostriches), human tailbones

Question 14

Molecular Biology

Answer 14

• if two species have lots of genes and proteins with sequences of monomers that match closely, the sequences must have been copied from a common ancestor
  
  • all living organisms have the same genetic code, the greater the % in nucleotide sequences the more related they are

Question 15

Embryology

Answer 15

comparing the embryos of organisms to show common ancestry