Environment: Polluted Forest Moths Released G1 G2 G3 G4 G5 Typica 810 327 303 169 103 59 Carbonaria 190 240 486 693 974 1407 Total 1000 567 789 862 1077 1466 Phenotype Frequency Color Initial Frequency Frequency G5 Typica w 0.81 Carbonaria b 0.19 Allele Frequency Allele Initial Allele Frequency G5 Allele Frequency q d 0.90 p D 0.10 Genotype Frequency Moths Genotype Color Moths Released Initial Frequency Frequency G5 Number of Moths G5 q2 typica dd w 810 0.81 2pq carbonaria Dd b 180 0.18 p2 carbonaria DD b 10 0.01
Gene Flow
Gene flow, also known as gene migration, is the introduction of genetic material from a particular population to another population of the same species through interbreeding. For example, a bee facilitates its reproductive process by carrying pollen from one flower to another. The flow alters the composition of the gene pool of the receiving population. It introduces new alleles within the population and helps increase variability. This exchange of genetic material occurs through reproduction and brings about new combinations of traits into the population. Where human beings are concerned, actual migration of populations, whether voluntary or forced, brings about gene flow.
Population Biology
Population biology is the study of patterns in organism populations, specifically the growth and management of population size, population genetics, the evolution of life history, species interactions, and demography.
Speciation
The process of speciation involves the formation of new species during evolution. The new species evolve in such a way that both new and old species are not able to interbreed. Thus, speciation occurs when few members of one species get separated from the main species due to geographical, mechanical, or reproductive isolation. These separated members develop new traits that make them different from the main species. In other words, speciation could be defined as the absence of gene flow between two populations that become new species.
Allele Fixation
A gene is a unit of heredity and contains both physical and functional information that shapes an individual. Genes are made up of DNA (deoxyribonucleic acid), which carry genetic information from one generation to another, from one set of parents to their offspring, and so on. Every cell in a human body, or any living organism, has the same DNA, which implies that every cell in an individual’s body has all the information it needs to build and sustain the body!
Environment: Polluted Forest
| Moths Released | G1 | G2 | G3 | G4 | G5 | |
|---|---|---|---|---|---|---|
| Typica | 810 | 327 | 303 | 169 | 103 | 59 |
| Carbonaria | 190 | 240 | 486 | 693 | 974 | 1407 |
| Total | 1000 | 567 | 789 | 862 | 1077 | 1466 |
Phenotype Frequency
| Color | Initial Frequency | Frequency G5 | |
|---|---|---|---|
| Typica | w | 0.81 | |
| Carbonaria | b | 0.19 |
Allele Frequency
| Allele | Initial Allele Frequency | G5 Allele Frequency | |
|---|---|---|---|
| q | d | 0.90 | |
| p | D | 0.10 |
Genotype Frequency
| Moths | Genotype | Color | Moths Released | Initial Frequency | Frequency G5 | Number of Moths G5 | |
|---|---|---|---|---|---|---|---|
| q2 | typica | dd | w | 810 | 0.81 | ||
| 2pq | carbonaria | Dd | b | 180 | 0.18 | ||
| p2 | carbonaria | DD | b | 10 | 0.01 | ||
Trending now
This is a popular solution!
Step by step
Solved in 2 steps
