Speciation

Question 1

How do new species form?

Answer 1

• Genetic difference will accumulate due to genetic drift or because selection favours different alleles in different populations
• For a species to form:
- prevent/reduce gene flow
- populations no longer interbreed
- process generates continuum where subspecies/races eventually become new species

Question 2

Outline the Biological Species Concept BSC

Answer 2

Defines species in terms of interbreeding success
-> There is gene flow within species and restricted/no gene flow or hybridisation between species due to isolating mechanisms

Question 3

What are the issues with the BSC?

Answer 3

1. Applies to species that reproduce sexually (bacteria/archaea exchange genes sporadically)
2. Definition omits geographic isolation as this may be temporary but reproductive isolation due to genetic differences is usually irreversible
3. Doesn’t apply to fossil record- molecular taxonomists use Phylogenetic species concept PSC
4. In nature hybridisation/introgression occurs- contemporary sexually reproducing organisms (10% bird and butterfly species, 6% mammals) can fully hybridise
   - Introgression (movement of some genes across species) is potentially common

Question 4

Outline the PSC

Answer 4

Species are recognisable geographic forms with a unique evolutionary history. Species are tips of the phylogenetic tree

Question 5

Outline the types of reproductive isolation

Answer 5

Pre-zygotic (pre-mating)

• Ecological/habitat
• Temporal/seasonal
• Behavioural

Pre-zygotic (post-mating)

• Mechanical
• Gametic incompatibility

Post-zygotic

• Hybrid inviability
• Hybrid sterility
• Sexual selection against hybrids

Question 6

Outline Pre-zygotic pre-mating isolation

Answer 6

• Ecological/seasonal- mates don’t meet
- e.g. coral- temporally driven isolation- gamete release separated by 1.5 to 3 hours (all released in <30 mins). Low density from first means unlikely to cross fertilise

• Behavioural isolation- don’t attempt mating
- Divergence In signals- mating calls/monkey flowers pollinated by bees or hummingbirds- adapted to specific pollinator

Question 7

Outline Pre-zygotic post-mating isolation

Answer 7

• Mechanical
- Carabus beetles in Japan- copulatory organ differences- adeagus breaks off and damages reproductive organs

• Gametic incompatibility

• Externally fertilising marine invertebrates- cell surface proteins dictate whether sperm penetrates egg
• Abalone- sperm protein lysin dissolves vitelline membrane of conspecific eggs
• species differ in aa sequence of lysin proteins

Question 8

Outline post-zygotic isolation

Answer 8

• Hybrid inviability

• lower survival rates
• Heliconius butterflies- predators don’t recognise H.melpomene and H.cydno pattern as warning colouration

• Hybrid sterility
- structural differences between chromosomes or conflict in gene action of parental genomes

• Assortative mating

• conspecifics favoured I’m mate choice
• fruit flies- lineages fed on different foods preferred to mate with their own lineage

Question 9

How can speciation happen quickly? Give an example

Answer 9

Allopolyploidy- chromosomes from different parent species
- e.g. salsify flowers after accidental introduction to North America from Europe- Hybrid daughter species can’t reproduce with parent species

Question 10

Outline allopatric speciation with examples

Answer 10

• Geographically divided populations may come back into contact
• Depending on how strong reproductive barriers have become, species may not interbreed, or hybrids may have minimal reproductive success

E.g. Isthmus of Panama 3mya separated Alpheus snapping shrimp

• No longer interbreed
• Geminate species pairs- many species more closely related to species on other side of Panama than on their own side

E.g. Darwin’s Galapagos Finches

• Ancestor species colonised one island 3mya and dispersed and colonised
• beak shapes changed according to food- feeding specialisation
• Over time females lose attraction to Male song with different beak shape (affects song)-> reduces gene flow

Question 11

Outline sympathetic speciation with examples

Answer 11

• Genetic divergence of species in same area
• Need to invoke action of strong selection to bring about differences in ecology/mating preference- selection required to maintain reproductive barrier

E.g. apple maggot fly- adults mate on host plant and larvae develop in ripe fruits. Ancestral native is hawthorn

• allele frequencies at several loci differ significantly between apple and hawthorn derived flies- limited gene exchange ~6%
• difference in host preference and difference of ~3 weeks between mating activity
• sympatric evolution- almost speciation, with high degree of reproductive divergence

E.g. speciation in cichlids (lake-dwelling)- depth causes gradients in light, temp, O2-> affect resources, predators, parasites etc.
- gradients allow sorting of adaptive variation- can drive partial reproductive isolation