Biology 204

Biology 204

Population Growth
Hardy-Weinberg Equilibrium
Genetic Drift
Natural Selection

Population Growth

User Inputs

r

k

Initial pop size

Generations

Exponential Growth
Logistic growth

Equations

$$n(t) = n_0 \cdot e^{t \cdot r}$$ $$\frac{dn}{dt} = n \cdot r$$

Equations

$$n(t) = \frac{n_0 \cdot k \cdot e^{t \cdot r}}{k + n_0 \cdot e^{t \cdot r} - 1} $$ $$\frac{dn}{dt} = n \cdot r \left ( 1 - \frac{n}{k} \right )$$

Hardy-Weinberg Equilibrium

User Inputs

Proportion of allele A

Allele A is dominant

Genetic Drift

User Inputs

Starting proportion

Number of populations

Show mean of populations

Population size

Number of alleles

Track an allele

Population size

Number of generations

Tracking populations
Tracking alleles

Natural Selection

User Inputs

Initial proportion allele A

Number of generations

Allele A is dominant

Fitness of phenotype 1

Fitness of phenotype 2

Fitness of phenotype 1

Fitness of phenotype 2

Fitness of phenotype 3

Anemia death rate

Malaria death rate

Use realistic death rate values

Initial proportion of carriers

Population size

Simulate results

Natural selection simulation
Sickle-cell anemia