7.3 Evolution & Speciation Flashcards
What 3 genetic factors contribute to variation within a population?
Mutation
Meiosis (independent assortment & crossing over)
Random fertilisation of gametes
In general, phenotypic variation is explained by…
a combination of genetic and environmental factors
What is the primary source of genetic variation?
Mutation - produces new ALLELES
What is the difference between natural selection and evolution?
Natural selection is the PROCESS that drives evolution
What does natural selection change within a population?
ALLELE FREQUENCY!
This in turn changes the gene pool
Natural selection depends on which 5 factors?
- Organisms produce more offspring than can be supported by available resources: this leads to inTRAspecific competition
- Genetic variation (different alleles) within population
- Genetic variation leads to different phenotypes, which may be advantageous or disadvantageous
- Predation
- Disease
Terminology for maximum population that can be supported?
Carrying capacity
Define selection pressure
The biotic/abiotic (usually environmental so abiotic) factors that limit the size of a population
Define gene pool
ALL ALLELES of a gene present in a PARTICULAR POPULATION at a PARTICULAR TIME
Define allele frequency
How frequently an allele occurs in a population
What are some example of factors limiting an individual’s chance of survival?
- Competition for food
- Competition for a reproductive mate
- Water supply
- Temperature
- Predators
What is stabilising selection?
Natural selection that keeps allele frequencies relatively constant over generations.
Selects AGAINST extremes of the phenotype range.
What is directional selection?
Selects for ONE EXTREME of the phenotype range.
Produces a gradual change in allele frequencies over several generations.
What is disruptive selection?
Selection that maintains high frequencies of TWO DIFFERENT SETS OF ALLELES (i.e. selection AGAINST THE MEAN)
Curve looks like an M shape with humps
Describe the process of genetic drift
- Allele frequencies in a population change overtime due to CHANCE
- In each generation, some individuals may (by chance) leave behind a few more descendants than other individuals OR a chance event reduces the gene pool
- Alleles of these “lucky” individuals become more common in next gen
- Genetic drift happens in all populations, but effect more marked in SMALL populations
Allopatric speciation
Speciation that starts with two populations becoming GEOGRAPHICALLY ISOLATED
Describe how allopatric speciation works
- species are REPRODUCTIVELY ISOLATED so no genetic exchange can occur
- there are DIFFERENT SELECTION PRESSURES in each environment
- there is variation due to MUTATIONS in each population
- advantageous ALLELES selected for & passed on to next generation
- this leads to a CHANGE IN ALLELE FREQUENCY/GENE POOL
- eventually the two groups cannot interbreed to produce fertile offspring
Sympatric speciation
When species become reproductively isolated while STILL INHABITING THE SAME PLACE
How does sympatric speciation work (general)?
There must be TWO POPULATIONS with NO GENE FLOW occurring between them
Examples of the two populations being “split” in sympatric speciation
- Ecological separation: living in different environments within the same area (eg. diff soil pH in diff areas)
- Behavioural separation: different courtship rituals/feeding patterns
Both allopatric and sympatric speciation rely on what occurring within individuals in populations?
MUTATIONS!
