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NATURAL SELECTION & ADAPTATION
- 1) MICROEVOLUTION
- heritability of
traits needs to be
measured
- measure continuous traits
- Evo can be tracked over
ecological time in natural
popn of orgnms
- E.g. Sockeye Salmon
Anmerkungen:
- Males - sandy beach --> hv deeper body, higher success - rocky stream --> disadvantage Females -river/stream --> larger& longer, burrow into the rocks better --> lay eggs better
- E.g. Sockeye Salmon
- heritability of
traits needs to be
measured
- 2) NATURAL
SELECTION IN
NATURAL POPN
- C) Selection on multiple traits
- traits can be
correlated and can
affect the outcome
of selection
- e.g. Medium ground
finches on Daphne Major
vary in beak depth & beak
width
Anmerkungen:
- deep beaks tend to be wide and shallow beaks tend to be narrow
- traits can be
correlated and can
affect the outcome
of selection
- A) Natural selection on phenotypic
traits
- Nat. Sel. background
- Orgnms hv the
capacity to increase
in numbers
- # often remain constant
- competitive
- limited resources
- not all offspring survive
- competitive
- Orgnms hv the
capacity to increase
in numbers
- 4 POSTULATES
- 1) Indv within popn
are VARIABLE in traits
- 2) some variations are inherited
- 3) some are more
successful at surviving &
reproducing
- 4) survival & reproduction is
NON-RANDOM (indv w the most
favourable variations - naturally
selected
- 1) Indv within popn
are VARIABLE in traits
- Outcomes
- 1) favourable traits hv
greater survival &
reproductive success
- 2) "favourable traits"
will be passed on
more frequently
- 3) "favourable
traits" will in
crease in freq in
the next gen.
- * Evolution :
characteristics in the
popn change slightly w
each generation
- 1) favourable traits hv
greater survival &
reproductive success
- e.g. Darwin's finches & nat. sel.
Anmerkungen:
- - beak shape & size, adapted to diet, change over time
- variation in beak depth (post 1)
- variation is heritable (post 2)
- A large propn of birds did
not survive (post 3)
- On average those that
survived the drought
had deeper beaks
(post 4)
- Nat. Sel. background
- B) Modes of selection on
continuous phenotypic traits
- Directional selection
- Selection in favour/against
a particular trait
- Fitness consistently
increases/decreases w
value of a trait
- Changes average
value of trait in
popn
- Selection in favour/against
a particular trait
- Stabilising selection
- selection for intermediate
characteristic of a continuous trait
- Average value of
trait does not change
- e.g. birth weight humans
- selection for intermediate
characteristic of a continuous trait
- Disruptive selection
- Maintains 2 extremes
- lead to a popn splitting
Anmerkungen:
- bill width vs seed cracking performance
- e.g. African finch beak size
- Maintains 2 extremes
- Directional selection
- C) Selection on multiple traits
- 3) FREQUENCY DEPENDENT SELECTION
- strength of selection
depends on the
common-ness of the
allele/phenotype
- maintain
polymorphism in popn
- PREDATION - can be a
freq dependent selective
force
- 1) e.g. European land
snail (Cepaea
nemoralis)
Anmerkungen:
- * shell polymorphism -colour (yellow/brown) -Banding pattern (bands or not, how many bands)
- - count freq of yellow shell
fragments at the anvils
compared to the freq in
surrounding popn in the
woodlands
- Camouflage- in grass:
yellow + banding,
ground(dirt) : brown
- 2) e.g.Mimicry in the
swallowtail butterfly Papilio
memnon
Anmerkungen:
- -caterpillars (Lepidoptera) feed poison plants- protective -retain until adult -predator attack the adult- foul taste, sick -Aposematic (warning) colour patterns - predator recognize and learn not to attack
- a) Batesian Mimicry (1 sp (the
mimic) gains in fitness by
resembling another (the model)
- model has an attribute
that discourage predators
while mimic x.
- Fitness benefit for mimic depends
on: - how closely it resembles, -the
ratio of distasteful models and
tasty mimics
- model has an attribute
that discourage predators
while mimic x.
- b) Mullerian Mimicry (2 distasteful
model sp resemble each other)
- Fitness benefits: - greater # showing same
colouration and are actually distasteful,
warn the predator, the greater the models,
the greater the fitness
- Fitness benefits: - greater # showing same
colouration and are actually distasteful,
warn the predator, the greater the models,
the greater the fitness
- vertebrate predators
develop a hunting image
of prey
- Rare morphs - less likely to be
spotted than frequent morphs &
have higher survival rate
- 1) e.g. European land
snail (Cepaea
nemoralis)
- strength of selection
depends on the
common-ness of the
allele/phenotype
- 4) ADAPTATION AND NATURAL SELECTION
- Recognising adaptation
- Not all traits are adaptation
- may be a necessary consequence of
physics/chem (e.g. red colour of blood)
- may have evolved through genetic
drift (e.g. geographic colour variation
some birds)
- May have evolved bcz it was
correlated w another feature that was
adaptive (e.g. beak w medium ground
finch)
- may be a necessary consequence of
physics/chem (e.g. red colour of blood)
- Not all traits are adaptation
- Testing the adaptiveness of traits
- Experimental studies
- Perform controlled manipulative
experiments to show higher fitness of
individuals with a particular trait. (e.g.
benefits of female polyandry in
pseudoscorpians)
Anmerkungen:
- why polyandry is an adaptive strategy? Prediction: expect polyandrous females to have more offspring (greater reproductive success) than monoandrous females. -true in large popn 2 hypotheses: 1) Females gain material benefits for themselves or their offspring 2) Females gain genetic benefits for their offspring
- Multiple mated females have greater
reproductive success than singly
mated females by gaining genetic
benefits for their offspring
- Perform controlled manipulative
experiments to show higher fitness of
individuals with a particular trait. (e.g.
benefits of female polyandry in
pseudoscorpians)
- Observational studies
- A series of observations on a
species that shows individuals
with the trait have higher
fitness than those without it.
(e.g. beak size in African
finches), (e.g. behavioural
thermoregulation in garter
snakes)
- A series of observations on a
species that shows individuals
with the trait have higher
fitness than those without it.
(e.g. beak size in African
finches), (e.g. behavioural
thermoregulation in garter
snakes)
- Comparative studies
- Use comparisons among species to
test predictions based on the
adaptiveness of a trait (e.g. testes size
in male primates
Anmerkungen:
- why do some animal sp have larger testes than others? - testes mass scales w body size -larger testes- greater sperm - advantage in sperm competition
- taxa w female multiple
mating hv larger testes per
unit body mass than in single
male system (e.g. primates,
bats, ungulates etc)
- Use comparisons among species to
test predictions based on the
adaptiveness of a trait (e.g. testes size
in male primates
- Experimental studies
- Recognising adaptation
- 5) PHENOTYPIC PLASTICITY
- def = individuals with identical genotypes
have different phenotypes if they live in
different environments
- The norm of reaction of a genotype is
the set of phenotypes that genotype is
capable of expressing under different
environmental conditions
- diff genotypes have different reactions
towards env (diff on how they're plastic)
- diff genotypes have different reactions
towards env (diff on how they're plastic)
- may be adaptive/evolve
- e.g. Phototactic
behaviour in water
fleas
Anmerkungen:
- Cloned lines of genetically identical individuals Tested whether they swam towards or away from a light source for 10 different genotypes from three different lakes
- = genotype x environment reaction, which
shows that the plasticity can evolve
- e.g. Phototactic
behaviour in water
fleas
- def = individuals with identical genotypes
have different phenotypes if they live in
different environments
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