Lecture 17 and 18 - Macroevolution

Question 1

Adaptation

Answer 1

A characteristic that enhances the survival or reproduction of the organism that bears it (relative to the ancestral state)

Question 2

Snake Jaw kinesis

Answer 2

Adaptation in snakes where they can dislocate their jaw to eat bigger things

Question 3

Post copulatory cannibalism in widow spiders

Answer 3

adaptation that after mating male spiders will lauch themselves into the jaws of the female that eats him

A male who offers himself the fertilised eggs more likely to be used

Adapted for competition with other males

Question 4

Coadaptation

Answer 4

Complex characters undergoing mutually inter-dependent adjustments in response to the same natural selection pressures

Question 5

Examples of coadaptation

Answer 5

Mimicry in butterflies adapts across species

Correlated progression of complex features in territorialisation

Question 6

Exaptation

Answer 6

Feature that has been co-opted to serve a new function

Question 7

Examples of Exaptation

Answer 7

Penguin wings formerly used for flying, co-opted to underwater swimming

Bird feathers may have initially evolved for insulation and thermoregulation

Question 8

What are ways in which you can test weather a character is an adaptation?

Answer 8

Experimentally investigating through manipulation

Comparative method: comparing independent evolution of the same feature in related groups

Question 9

Example of recognizing adaptations through experimentally investigating through manipulation?

Answer 9

Male barn swallows

Cutting/extending their tails to observing the number of offspring

Found out tail size does have a correlation with offspring and therefore adaptation

Question 10

Spandrals of San marco

Answer 10

Theory that just because something has a function may not mean that it is an adaptation, it may just be a byproduct of something else.

Question 11

Why do adaptations have limits

Answer 11

There is a limit to an organisms available resources investment in different strategies can lead to evolutionary trade-off

For example, cheetahs cannot get any faster as any other changes that would make them faster would decrease the fitness of another trait

Question 12

Morphodynamics

Answer 12

Interaction between environment, functional morphology, developmental constraints, historic constraints (phylogeny), and time

Question 13

Phylogenetic constraints

Answer 13

Limits of what characters can develop due to going down a particular evolutionary pathway

Question 14

Example of phylogenetic constraints

Answer 14

Larynheal nerve

Travels further distance than it needs to up the neck of animals with large necks

Question 15

What are the 3 types of constraints in morphodynamics?

Answer 15

Functional constraints

Phylogenetic constraints

Fabricational constraints

Question 16

Functional constraint

Answer 16

Limitation on the variation expressed in a phenotype in a phenotype because many variants have impaired function and reduce fitness

Question 17

Fabricational constraint

Answer 17

A restriction that prevents a lineage from evolving a trait due to the properties of biological materials

Question 18

Example of functional constraint

Answer 18

Insects have tubes in their body for oxygen to diffuse around their body

This puts a limitation on insect body size

Question 19

Example of a fabricational constraint

Answer 19

Cannot construct diamond teeth

Question 20

Microevolution

Answer 20

Changes in a population i.e. mutation, migration, genetic drift, natural selection

Question 21

Macroevolution

Answer 21

Change above species level i.e. adaptive radiation, rates of diversification and change, mass extinction, etc.

Question 22

What processes affect microevolution and macroevolution?

Answer 22

The process involved in the two are identical, but they occur in a different scale and over longer periods of time

Question 23

Evolutionary trend

Answer 23

Any sustained tendency for evolutionary change in a particular direction (from generations to millions of years)

Question 24

Passive trend

Answer 24

A trend goes in no particular direction

Question 25

Driven trend

Answer 25

A trend goes in a particular direction

Question 26

Convergent trend

Answer 26

Separate trends start from different origins but end up in the same place

Question 27

Divergent trend

Answer 27

Trends go in oposite directions

Question 28

Parallel trend

Answer 28

When two organisms are moving in the same evolutionary direction

Question 29

Iterative trend

Answer 29

The same conditions are being evolved repeatedly

Question 30

What are the two levels in which you can measure trends

Answer 30

phenotype and genotype

Question 31

What is an example of a trend in phenotype?

Answer 31

Horses body mass has increased and there has also been changes in teeth

Question 32

Ancestral state reconstruction

Answer 32

Measuring traits through time

Question 33

Morphospace

Answer 33

Multiple traits can be visualised together Takes information in multiple dimensions and represents it in two dimensions

Question 34

Phylogram

Answer 34

phylogenetic tree in which the branches a proportional to the amount of change

Question 35

Kimura theory of neutral evolution

Answer 35

Clock-like accumulation of molecular change

Question 36

How do you generate a time scaled phylogeny?

Answer 36

Application of rates of change (molecular) to sequence data

Question 37

Why do you need relaxed molecular clocks?

Answer 37

Rates of change are variable Not consistant in all parts of the genome or all species

Question 38

What do you calibrate molecular clocks against?

Answer 38

Real-time Can use node dating or tip dating

Question 39

Node dating

Answer 39

Minimum divergence point for some clades to act as calibration points Could be paleogeographic events MOre often a fossil taxon interpreted as belonging to that clade

Question 40

Tip dating

Answer 40

Simultaneous analysis of extinct and extant taxa using genetic sequence data and morphological character data with defined fossil dates Also known as total evidence dating Downside is there is a heavy reliance on your models being correct

Question 41

Why do phylogenies need fossils?

Answer 41

Breaking up long branches Unlock sequences of morphological change Providing a time scale for evolutionary events

Question 42

How to measure diversity trends?

Answer 42

Reconstruct them from fossil data

Question 43

Why is it hard to measure diversity over time?

Answer 43

Some species fossilize better than others

Question 44

How many major mass extinction events where there?

Answer 44

5

Question 45

What does diversity depend upon?

Answer 45

Extinction and origination rates

Question 46

When are origination rates the highest?

Answer 46

After mass extinction events

Question 47

How did the end Permian mass extinction change trends in diversity?

Answer 47

Sees change from brachiopod to bivalve ecological dominance

Question 48

Competitive displacement

Answer 48

Organisms with higher fitness excludes another species

Question 49

Incumbent replacement

Answer 49

Overtime by chance extinction occurs

Question 50

Example of evolutionary stasis

Answer 50

Bony finned fish are thought to be long extinct The last extant bony finned fish the coelocanth is very similar to fossil bony finned fish

Question 51

What causes a slow rate of evolution?

Answer 51

Genetic or developmental constraints - unable to undertake much change Stabilizing selection - the physical nad biotic environment remains constant Ephemeral local divergence - changes are unobservable (too quick, not obvious phenotype)

Question 52

Two example of evolutionary gradualism?

Answer 52

Different lineages of ordovician trilobites show gradual and contemporaneous increase in number of ribs (parallelism) Morphological changes from theropods to birds is steady, there is no great leap

Question 53

What is an example of fast evolution?

Answer 53

Rapid increase in horse body size and hyposodonty in dentition

Question 54

Copes rule

Answer 54

Suggests that clades should increase in body size (e.g. in horses and dinosaurs) However just as many species seem to get smaller, therefore this is not true and body size is a passive trend

Question 55

Saltation

Answer 55

Rapid changes or leaps

Question 56

Punctuated equilibrium

Answer 56

Periods of fast evolution with periods of evolutionary stasis

Question 57

Why is punctuated equilibrium hard to test?

Answer 57

As the fossil record is patchy so hard to determine if gradual or punctuated change

Question 58

Adaptive radiation

Answer 58

Divergent evolution of numerous related lineages within a short period of time to occupy different ecological niches

Question 59

Example of adaptive radiation in birds

Answer 59

Galapagos islands are a volcanic archipelago orginally devoid of animal life Single ancestor species arrived and rapirdly diversified to occupy available niche Beak shape adaptations relate to diet Adaptive radiations seen in lots of clades

Question 60

Adaptive radiations in fish

Answer 60

Cichlid fish in separate freshwater lakes in of Africa Species within each lake are a diverse monophyletic clade (single arrival) EAch group has diversified into a smaller range of morphologies