Lecture 36 Flashcards
How long does it take for a mutation to reduce allele frequency from 1c to 0.5?
-The number of generations to reduce the allele frequency from 1.0 to 0.5 is 69 314 generations, assume ~ 25 years per generation = 25 X 69 314 = 1 732 850 years
-but it can set up the source of the new alleles in the population
can put the individual at an advantage or disadvantage
Is population size significant for allele frequencies?
-yes it can be
What is genetic drift?
-• random changes in allele frequencies due to sampling error
• occurs in all populations but effect pronounced in small populations:
-in a small population can see the effect whereas the big pop will dampen the results
-often some alleles are lost ins mall populations due to chance
What are the two types of genetic drift?
- Founder effect : small group from a larger population settle in a new location
- the allele frequency may not represent the original population, by chance
- Bottleneck: population goes through a severe reduction and only a few members survive to produce next generations.
- after a disaster, the surviving individuals don’t represent the population before the disaster
What is the bottleneck effect?
large popualtin-disaster- then fewer alleles
What are the 4 examples of founder effect?
- Pingelap atoll – founder effect
- Huntington Disease and Tasmania – founder effect
- Tristan d’Cunha – founder effect/bottleneck
- Dunkers and Amish – founder effect
What is the modern synthetic theory of evolution?
-
What are species?
-Members of a species share a common gene pool Different species have separate gene pools
Speciation - separation of gene pools
forces which are pushing allele frequencies apart are greater than the forces holding allele frequencies constant
What is allopatric speciation?
- physical barrier separates gene pools
- river/roadway… separates them into subgroups, if separated for long enough= speciation!
What is sympatric speciation?
-separation of gene pools occurs in the
same area
-one subset of the population separated in the same area
-due to chromosomal changes, can’t interbreed!
-often Sympatric separated by chromosome number
-one group produces halpid gametes, the other produces diploid gametes= lot of abnormalities
What is reproductive isolation (5)?
-Prezygotic mechanisms:
prevent fertilisation and zygote formation
1. Habitat : geographic or ecological isolation
2. Seasonal or temporal
3. Ethological
4. Mechanical
5. Physiological
What is reproductive isolation- in case-Habitat : geographic or ecological isolation?
- squirrels on either side of the grand canyon
- can’t get to each other
What is reproductive isolation- in case-Seasonal or temporal?
- things are kept apart due to seasonal or temporal= never reproductively active at the same time
- orchids
What is reproductive isolation- in case-Ethological?
-ethological= behavioural
-different bird dances in different species= to mate!
-courtship -malehighsteps
• frog calls •c ricketsongs • bird plumage
-forg calls= have to match otherwise won’t mate
= so when the song changes they won’t mate! just because of the call!
drosphila= has to flap wings and running around, time spent in each is important= won’t mate
What is reproductive isolation- in case-mechanical?
-differences in size
dogs= small and big can’t reach though they are the same species!
