lecture 18: rates of evolutionary change g. g. simpson: “tempo & mode in evolution” (1944)...
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Lecture 18: Rates of Evolutionary Change
G. G. Simpson:
“Tempo & Mode in Evolution” (1944)
• applied principles of modern synthesis
(e.g. population genetics) to fossil record
macroevolution ≈ microevolution writ large
Two ways to measure evolution
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1) Phylogenetic Rate
• Morphological Rate• rate of change of character or group of characters in
a lineage• (anagenesis)
Rate = Change/ Unit Time
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Rates of Evolution of Single Characters
• Haldane (1949):
darwin = change in e / my
(ln x2 - ln x1 /change in t)
Transformation : % change (removes scaling effect)
e.g. 34 mm to 56 mm over 12 my
ln (34) = 3.526; ln (56) = 4.025
rate of change = (4.025 - 3.526) / 12 = 0.042 d
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Evolution of Equine Lineage
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Horse Teeth
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McFadden (1992):
• 408 specimens• 26 ancestor - descendent pairs• 4 characteristics of teeth
In general: • pointy, narrow (leaf eater) wide, flat (grazer)• 26 X 4 = 104 estimates of evolutionary • 0.05 - 0.1 darwins• mainly positive, but also some reversals
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Comparing Rates
in size of Ceratopsids = 0.06 darwins in skeletal dimensions of Passer domesticus
after intro to N. Am. = 50 - 300 darwins• artificial selection: 60,000 darwins!• continuous fossil records show low rate masks
frequent advances & reversalse.g. late Cenozoic mammals : 12 darwins for
short periods
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Fluctuations in RateGingerich : rate of evolution 1/ time measured
Short term fluctuations cancel out
e.g. beaks of Darwin’s finches
e.g. changes in radiolarian tests
time
wid
th
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Character Types
• characters evolve at diff’t rates
(mosaic evolution)
• rate of change is not constant
• conservative characters: canalized; general adap’ns
• derived characters: specialized, rapid evol’n
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Rates of change & population genetics
• Given: variance in character, estimate of heritability (hN2), in mean over t gen’ns: can estimate strength of directional selec’n req’d
• i.e. proportion of pop’n that fails to reproduce in order to produce observed changes
• contrast: weak, stabilizing selection, but pop. size small enough that drift will produce change
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Horse Example
• Assume (hN2) = 0.5
• 2 selective deaths / 106 individ / generation (selection)
• population size of < 104 individuals (drift)
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2) Taxonomic Rate
• replacement of forms
• origination & extinction (cladogenesis)
• Quantified:
(# taxa originate - # taxa extinct) / unit time
• Or the inverse of the average duration of a species
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Cladogenesis & Anagenesis
• Speciation at t1 & t2
• a & c contemporary
• b goes extinct
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Chronospecies• Problem:
Fossil record: taxonomy based on morpho characts.
Hard to separate anagenesis from cladogenesis
Identification of many chronospecies
• Chronospecies: descendent recognized as separate spp.
Taxonomic Pseudoextinction
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time
mor
phol
ogy
Phylogenetic Rate = Taxonomic Rate
• rapid rate of morphological change leads to high rate of taxonomic replacement
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time
mor
phol
ogy
↑ Taxonomic Rate ↑ Phylogenetic Rate
• high rate of turnover; little morphological change
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Relationship b/w phylogenetic rate & taxonomic rate depends on characters used to determine taxa
Comparison of taxonomic rates :balance of origination & extinction
e.g. Bivalvia (Pelecypoda):• 17 genera appear in Ordovician• 4 survive to Triassic• average duration = 78 my• compare to Carnivora: 8 my
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Living Fossils• oldest living species: Triops cancriformis
(tadpole shrimp)
• unchanged since Triassic! (180 mya)
Coelacanth Cycad
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Recent Taxa
• rapid evolution
• poor fossil record
• typical of Adaptive Radiations:
Elaphus
Primelaphus Loxodonta
Mammuthus
~ 1 my (during Pliocene)
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Problem of stasis:
Fossil Deposits: 50 - 100 my apart• short term changes are lost
However, observe:
1) long periods without change
2) rapid appearance of new forms
3) no transitional forms
Real or Artifact?
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Quantum Evolution
Problem: new taxa without fossil intermediariesSimpson:• rapid, substantial evol’nary change with shift into
new adaptive zones• once a threshold passed in acquisition of new
adaptation, strong directional selection shapes feature into new forms
• e.g. tarsus “pulley” in Artiodactyla: rapid evol’n & diversificat’n of deer, camels, antelopes
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Hypotheses
1) Phyletic Gradualism• constant anagenetic change• speciation gradual• transitional forms lost in fossil record
2) Punctuated Equilibrium• stasis is real• evolution occurs during speciation• long-term trends in morphology due to spp. sel’n