Chapter 16 Biology 105

assuming hardy weinberg equilibrium what will the frequency of the homozygous dominant genotype be in the next generation of the frequency of the dominant allele in the current generation is 0.60

0.36

what is the frequency of a recessive allele in a population if 25% of the individuals are homozygous recessive and 50% or heterozygous

0.50

calculate the dominant allele frequency in a population of the homozygous dominant genotype frequency is 49%

0.7

it is estimated that a mutation occurs once every ... cell division

100,000

which individuals have an advantage in an environment where malaria is present

Hb^a Hb^s

runaway hypothesis

The hypothesis regarding sexual selection that states that females choose mates on the basis of appearance

genetic equilibrium

a population in which allele frequencies don't change over time

polygenic trait

a trait that is controlled by many genes

founder effect

a type of genetic drift in which a small number of individuals from a new population away from the original one

Evolution is considered a change in the frequencies of alleles over generations.

alleles

gene flow is the movement of what between populations

alleles

gene pool

alleles of all genes in all individuals in a population

If the frequencies of alleles do not change from one generation to the next, genetic equilibrium has occurred.

alleles, genetic equilibrium

If the frequencies of alleles has changed, then microevolution has occurred.

alleles, microevolution

By looking at the frequencies of alleles within a single population over a period of time, one can determine if microevolution has occured.

alleles, population, microevolution

Microevolution is the change in the frequencies of alleles in populations from one generation to the next.

alleles, populations

according to the cost benefit analysis the benefit of partaking in a particular behavior or strategy must outweigh the cost

benefit, cost

mutation

change to DNA sequence that can serve as a source of new genetic variation

genetic drift

changes in the allele frequency of a gene pool due to chance events bottleneck effect founder effect

mutagens

chemical of physical agents that cause mutation

sexual selection in males results in an increased ability to compete for mates where sexual selection in females involves selecting a mate with the best fitness

compete, selecting

microevolution

evolutionary changes within a population

assortative mating can cause the frequency of what to change within a population

genotype

Population

group of organisms of a single species living in the same geographic area

sickle cell disease is caused by an abnormal form of what in red blood cells

hemoglobin

dominance hierarchies

in some populations males or females will establish dominance hierarchies in which high ranking individuals have a greater access to resources

which of the following demonstrates the imperfect nature of natural selection

increased chance of spinal injury from walking upright

assortative mating

individuals mate based upon preference

which of the following are conditions that a population must meet in order to maintain hardy weinberg principle

no mutation no migration large gene pool random mating no selection

allele frequency

the percentage of each allele in a populations gene pool

disruptive selection

the type of selection in which two or more extreme phenotypes are favored over the intermediate phenotype persist in an environment that is subject to a high degree of change

during times of environmental change populations with genetic what have a better chance of adapting

variation

which equation describes genotype frequencies of a non living population

p2+ 2pq+ q2

negative aspects of being a dominant baboon

required to defend against predators requires a larger amount of food

population genetics

scientist studies the diversity of genes in a population

ways diversity is maintained within a population

sexual reproduction occasional interbreeding between adjacent populations the presence of subspecies mutations create new alleles

sexual dimorphism

some animals the males and females differ in size and other characteristics

antibiotic resistance

the STD gonorrhea is becoming more difficult to treat due to the development of antibiotic resistance

fitness

the ability to produce surfing offspring

sexual selection

the adaptive changes in males and females that lead to an increased ability to secure a mate

territory

the area that is defended against competitors

territoriality

the defensive behavior necessary to defend a territory

homozygous

the heterozygote advantage means that the heterozygote for a trial has an advantage over two homozygous

stabilizing selection

the intermediate phenotype is the favored phenotype responsible for keeping cystic fibrosis allele in the population

bottleneck effect

the loss of genetic diversity that can be caused by a natural disaster

directional selection

when an extreme phenotype is favored and the distribution curve moves toward that extreme this would demonstrate a type of natural selection

the alleles in nonrandom mating assort according to what

mating behavior

reproductively isolated

migration between populations does not occur the gene pools of those populations may become different over time

gene flow

movement of alleles between populations when plants and animals migrate

what is the raw material for evolutionary change and introduce new variations among members of a population

mutation

heterozygote advantage

maintenance of genetic diversity of future generations