Evolution Jeopardy Template

Definitions

Definitions Cont.

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Hardy-Wienberg

More Hardy-Weinberg

100

change in the genetic makeup of a population overtime. The change in allele frequencies in a population over time

Evolution

100

What is the ‘migration’ of individuals (or their gametes) from one population to another

Gene Flow

100

limit ability of two species to combine gametes and form zygotes

Prezygotic Barriers

100

divergence of many new species from a single ancestral species in a relatively short time

Adaptive Radiation

100

The range of conditions—like type of food—a species needs to survive (often constrained by competition)

Niche

200

What is a population’s entire collection of genes and their alleles

Gene Pool

200

Selection for traits that improve how well an individual can compete for mates. Often involves male-male competition

Intra-Sexual Selection

200

In which cells would a deer mouse need to acquire the mutation causing white fur in order for natural selection to “select” for white fur?

Egg or Sperm Cells

200

If a population has a frequency of .25 for one allele and .80 for another, is this population at Hardy-Weinberg equilibrium?

200

A population has two alleles B and R. B has a frequency of .55 and R has a frequency of .45. Is this population in Hardy-Weinberg Equilibrium?

Yes

300

What is the number of offspring contributed by an individual to future generations

Fitness

300

Selection for traits that improve how well an individual can attract mates (Often involves female mate choice)

Inter-Sexual Selection

300

How is genetic drift affected by population size?

more drastically with smaller population sizes, while its effects are lessened in larger populations

300

You have a population with the genotype GG: 0.49, GS:0.42, and SS: 0.09. What are the frequencies of the G and S population?

G=0.7

S=0.3

300

You have a population with the genotype GG: 0.49 and SS: 0.09. The heterozygote population is 0.55. Is this population at Hardy-Weinberg Equilibrium?

400

occurs if a disaster drastically reduces the size of a population

Bottleneck

400

groups of actually or potentially interbreeding natural populations, which are reproductively isolated from other groups

Biological Species Concept

400

Which of these mechanisms cause random evolutionary changes? A) Mutation B) Genetic drift C) Natural selection D) A and B E) All three (A, B & C)

400

You have a population with the frequencies S: 0.9 and A: 0.1. What is the frequency of SS and AA?

SS: 0.81

AA: 0.01

400

You have a population with the frequencies S: 0.9 and A: 0.1. What is the frequency of SA?

SA: 0.18

500

occurs when a small group of individuals separates from a larger population to establish a new colony

Founders Effect

500

Allele frequencies in a population will only stay constant over time in the absence of specific conditions

Hardy-Weinberg Equilibrium

500

Two main types of speciation

Allopatric Speciation (Physical barriers) and Sympatric speciation (same location)

500

What is the effect of genetic drift and natural selection on genetic variation within a population?

Both tend to decrease diversity

500

How will gene flow affect the amount of variation between population?

Decreases variation