Presentation is loading. Please wait.

Presentation is loading. Please wait.

I. Population Evolution

Published byDana Rebecca McCarthy Modified over 5 years ago

Similar presentations

Presentation on theme: "I. Population Evolution"— Presentation transcript:

1 I. Population Evolution
A. Macro 1. large scale changes 2. long periods of time B. Micro 1. changes within populations (interbreeders in a given area) 2. change in allele frequencies alleles: alternative forms of a gene 3. driven primarily by natural selection real essence of Darwin’s ideas of evolution

2 C. Why do original genotype proportions often remain constant?
1. allele frequencies (proportions of alleles of a given gene) 2. dominant alleles do not replace recessives (in randomly mating populations) 3. Hardy-Weinberg equilibrium indicates population is not evolving 4. Hardy-Weinberg theorem (p + q)2 = p2 + 2pq + q2 p = dominant allele q = recessive allele If only 2 alleles, then p + q = 1

3 p2 + 2pq + q2 = 1 p = q2 = 0.16 p = 0.6 q = 0.4 p2 = 0.36 p = 1 2pq = 2 x 0.6 x 0.4 = 0.48 = 1

4 p2 + 2pq + q2 = 1 p = q2 = 0.04 p = 0.8 q = 0.2 p2 = 0.64 p = 1 2pq = 2 x 0.8 x 0.2 = 0.32 = 1

5

6 5. Hardy Weinberg theorem is based on assumptions:
a. a large (almost infinite) population size b. random mating c. no natural selection d. no new alleles introduced - migration, mutation, etc. Evolution is normally so slow as to give the appearance of Hardy-Weinberg equilibrium

7 II. Changes in Allele Frequencies
(usually ratio of homozygotes to heterozygotes) Factors that can cause variation in Hardy-Weinberg: A. Mutation 1. maybe replication error 2. change in DNA sequence a. harmful b. benign c. beneficial (rare) 3. mutation rate probably too low to change most allele frequencies

8 B. Migration 1. individual from one population moves to another population 2. depends on the ability of the immigrant to survive and breed 3. includes transport of gametes and/or zygotes 4. gene flow - tends to reduce the number of differences among populations - free movement of humans

9 C. Genetic drift 1. often involves loss of alleles 2. maybe the result of drastic events 3. also can come from isolation 4. founder effect a. one or more individuals carrying certain alleles b. certain alleles may become more common as those individuals interbreed c. good explanation for Darwin’s finches

10 5. bottleneck effect a. event drastically reduces population size b. surviving small population will have less genetic variability (fewer alleles)

11 D. Nonrandom mating - inbreeding increases the number of homozygotes in a population ( higher than if in Hardy-Weinberg equilibrium) E. Selection 1. survival (reproduction) of the fittest 2. artificial - animal breeding 3. natural - by environment

12

13 Selection

14 Selection

15 Selection Sickle-cell trait represents which type of selection?

16

Download ppt "I. Population Evolution"

Similar presentations

Lecture #10 Date ________

Lecture #10 Date ________
EVOLUTION OF POPULATIONS

EVOLUTION OF POPULATIONS
How do we know if a population is evolving?

How do we know if a population is evolving?
Study of Microevolution

Study of Microevolution
Population Genetics: Populations change in genetic characteristics over time Ways to measure change: Allele frequency change (B and b) Genotype frequency.

Population Genetics: Populations change in genetic characteristics over time Ways to measure change: Allele frequency change (B and b) Genotype frequency.
PROCESS OF EVOLUTION I (Genetic Context). Since the Time of Darwin  Darwin did not explain how variation originates or passed on  The genetic principles.

PROCESS OF EVOLUTION I (Genetic Context). Since the Time of Darwin  Darwin did not explain how variation originates or passed on  The genetic principles.
1 1 Population Genetics. 2 2 The Gene Pool Members of a species can interbreed & produce fertile offspring Species have a shared gene pool Gene pool –

1 1 Population Genetics. 2 2 The Gene Pool Members of a species can interbreed & produce fertile offspring Species have a shared gene pool Gene pool –
Population Genetics youtube. com/watch

Population Genetics youtube. com/watch
Populations, Genes and Evolution Ch. 16.1. Population Genetics  Study of diversity in a population at the genetic level.  Alleles  1 individual will.

Populations, Genes and Evolution Ch Population Genetics  Study of diversity in a population at the genetic level.  Alleles  1 individual will.
POPULATION GENETICS 1. Outcomes 4. Discuss the application of population genetics to the study of evolution. 4.1 Describe the concepts of the deme and.

POPULATION GENETICS 1. Outcomes 4. Discuss the application of population genetics to the study of evolution. 4.1 Describe the concepts of the deme and.
Changing Allele Frequency Chapter 23. What you need to know! The conditions for Hardy-Weinberg Equilibrium How to use the Hardy-Weinberg equation to calculate.

Changing Allele Frequency Chapter 23. What you need to know! The conditions for Hardy-Weinberg Equilibrium How to use the Hardy-Weinberg equation to calculate.
CHANGE IN POPULATIONS AND COMMUNITIES. Important Terms Communities are made up of populations of different species of organisms that live and potentially.

CHANGE IN POPULATIONS AND COMMUNITIES. Important Terms Communities are made up of populations of different species of organisms that live and potentially.
Evolution and Population GENETICS

Evolution and Population GENETICS
 Chapter 23~ The Evolution of Populations. Population genetics provides foundation for studying evolution  Microevolution –Evolutionary change on the.

 Chapter 23~ The Evolution of Populations. Population genetics provides foundation for studying evolution  Microevolution –Evolutionary change on the.
Chapter 16 Population Genetics and Speciation. Objectives CLE 3210.5.3 Explain how genetic variation in a population and changing environmental conditions.

Chapter 16 Population Genetics and Speciation. Objectives CLE Explain how genetic variation in a population and changing environmental conditions.
Chapter 21 The Mechanics of Evolution Biology 101 Tri-County Technical College Pendleton, SC.

Chapter 21 The Mechanics of Evolution Biology 101 Tri-County Technical College Pendleton, SC.
Evolution of Populations. The Smallest Unit of Evolution Natural selection acts on individuals, but only populations evolve – Genetic variations contribute.

Evolution of Populations. The Smallest Unit of Evolution Natural selection acts on individuals, but only populations evolve – Genetic variations contribute.
2007- 2008 Mader Evolution of Poplulations Chapter 23.

Mader Evolution of Poplulations Chapter 23.
EVOLUTION: GENES AND POPULATIONS CH 23 brary/news/070401_lactose.

EVOLUTION: GENES AND POPULATIONS CH 23 brary/news/070401_lactose.
Population Genetics Chapter 23. Levels of Organization Atoms - CHNOPS Molecules – Carbs, Proteins, Lipids, Nucleic Acids Organelles – Nucleus, Ribsomes,

Population Genetics Chapter 23. Levels of Organization Atoms - CHNOPS Molecules – Carbs, Proteins, Lipids, Nucleic Acids Organelles – Nucleus, Ribsomes,

Similar presentations

Ads by Google