Presentation is loading. Please wait.

Presentation is loading. Please wait.

KEY CONCEPT Hardy-Weinberg equilibrium provides a framework for understanding how populations evolve.

Published byCecilia Moore Modified over 8 years ago

Similar presentations

Presentation on theme: "KEY CONCEPT Hardy-Weinberg equilibrium provides a framework for understanding how populations evolve."— Presentation transcript:

1 KEY CONCEPT Hardy-Weinberg equilibrium provides a framework for understanding how populations evolve.

2 Hardy-Weinberg equilibrium describes populations that are not evolving.
Biologists use models to study populations. Hardy-Weinberg equilibrium is a type of model.

3 Hardy-Weinberg equilibrium describes populations that are not evolving.
Genotype frequencies stay the same if five conditions are met. 1. very large population: no genetic drift 2. no emigration or immigration: no gene flow 3. no mutations: no new alleles added to gene pool 4. random mating: no sexual selection 5. no natural selection: all traits aid equally in survival

4 Real populations rarely meet all five conditions.
Hardy-Weinberg equilibrium describes populations that are not evolving. Real populations rarely meet all five conditions. Real population data is compared to a model. Models are used to studying how populations evolve.

5 must know frequency of recessive homozygotes
The Hardy-Weinberg equation is used to predict genotype frequencies in a population. Predicted genotype frequencies are compared with actual frequencies. used for traits in simple dominant-recessive systems must know frequency of recessive homozygotes Equation: p2 + 2pq + q2 = 1 or (p+q)2 "The Hardy-Weinberg equation is based on Mendelian genetics. It is derived from a simple Punnett square in which p is the frequency of the dominant allele and q is the frequency of the recessive allele."

6 There are five factors that can lead to evolution.
Genetic drift Gene flow Mutation Sexual selection Natural selection

7 1. Genetic drift changes allele frequencies due to chance alone.

8 2. Gene flow moves alleles from one population to another.

9 3. Mutations produce the genetic variation needed for evolution.

10 4. Sexual selection selects for traits that improve mating success.

11 5. Natural selection selects for traits advantageous for survival.
Critical Viewing: Describe a scenario in which more than one factor could influence this population at the same time.

12 In nature, populations evolve. INDIVIDUALS DO NOT EVOLVE!
expected in all populations most of the time respond to changing environments Infer: Why do real populations rarely reach Hardy-Weinberg equilibrium?

Download ppt "KEY CONCEPT Hardy-Weinberg equilibrium provides a framework for understanding how populations evolve."

Similar presentations

KEY CONCEPT Hardy-Weinberg equilibrium provides a framework for understanding how populations evolve.

KEY CONCEPT Hardy-Weinberg equilibrium provides a framework for understanding how populations evolve.
The Five Factors of Evolution

The Five Factors of Evolution
How do we know if a population is evolving?

How do we know if a population is evolving?
Allele Frequencies and the Gene Pool

Allele Frequencies and the Gene Pool
Hardy-Weinberg Equilibrium

Hardy-Weinberg Equilibrium
KEY CONCEPT Hardy-Weinberg equilibrium provides a framework for understanding how populations evolve.

KEY CONCEPT Hardy-Weinberg equilibrium provides a framework for understanding how populations evolve.
Hardy-Weinberg Equilibrium

Hardy-Weinberg Equilibrium
The Hardy-Weinberg Equilibrium Allele Frequencies in a Population G.H. Hardy English Mathematician Dr. Wilhelm Weinberg German Physician.

The Hardy-Weinberg Equilibrium Allele Frequencies in a Population G.H. Hardy English Mathematician Dr. Wilhelm Weinberg German Physician.
KEY CONCEPT A population shares a common gene pool.

KEY CONCEPT A population shares a common gene pool.
The Hardy-Weinberg Equilibrium

The Hardy-Weinberg Equilibrium
The Hardy-Weinberg Equation

The Hardy-Weinberg Equation
Population Genetics and Evolution. Darwin’s Observations (review) Galapagos Islands Many similar species had slight differences Favorable variations allow.

Population Genetics and Evolution. Darwin’s Observations (review) Galapagos Islands Many similar species had slight differences Favorable variations allow.
Gene flow is the movement of alleles between populations.

Gene flow is the movement of alleles between populations.
KEY CONCEPT A population shares a common gene pool.

KEY CONCEPT A population shares a common gene pool.
KEY CONCEPT A population shares a common gene pool.

KEY CONCEPT A population shares a common gene pool.
Mechanisms of Evolution Concept 4: Analyzing the evolution of populations through Hardy-Weinberg (microevolution) Chapter 23 in Campbell, pg 155-158 in.

Mechanisms of Evolution Concept 4: Analyzing the evolution of populations through Hardy-Weinberg (microevolution) Chapter 23 in Campbell, pg in.
Do Now: 5/14 (Week 36) Objectives : 1. Define gene pool, phenotype frequency, and genotype frequency. 2. State the Hardy-Weinberg Principle. 3. Describe.

Do Now: 5/14 (Week 36) Objectives : 1. Define gene pool, phenotype frequency, and genotype frequency. 2. State the Hardy-Weinberg Principle. 3. Describe.
Genetic Drift Random change in allele frequency –Just by chance or chance events (migrations, natural disasters, etc) Most effect on smaller populations.

Genetic Drift Random change in allele frequency –Just by chance or chance events (migrations, natural disasters, etc) Most effect on smaller populations.
The Hardy-Weinberg Principles Changing Populations.

The Hardy-Weinberg Principles Changing Populations.
Maintaining Genetic Variation (Population Equilibrium) Populations have TWO competing factors: Remaining stable (not evolving) vs Changing (evolving)

Maintaining Genetic Variation (Population Equilibrium) Populations have TWO competing factors: Remaining stable (not evolving) vs Changing (evolving)

Similar presentations

Ads by Google