"Evidence of Evolutionary Transitions" by Michael J. Benton, Ph.D.
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authorbio
Michael Benton, Ph.D., is
a vertebrate palaeontologist with interests in
dinosaur origins and fossil history. He holds the
Chair in Vertebrate Palaeontology at the
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evolution: evolution
theory
Evidence of Evolutionary
Transitions
By Michael Benton,
Ph.D.
An
actionbioscience.org original
article | | |
articlehighlights
All living organisms share
the same family tree. This fact is backed by
evidence such as: |
- Archaeopteryx, a missing
link between reptiles and birds
- mammalian hearing
structure, which evolved from reptilian
jawbones
- the animals of the
Galapagos, isolated from the rest of the
world
- DNA profiles of life
forms, present and past
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March 2001 |
Evidence of Evolutionary
Transitions
By Michael Benton,
Ph.D. |
| All life is related on
the tree of life.
|
One of the most startling discoveries of
the past two centuries has been that all living
organisms -- all the millions of species of
microbes, plants and animals alive on Earth today
-- share a common ancestry. However different an
elephant, a dung beetle, an oak tree, and an AIDS
virus may look, they can all be tracked back to
common ancestors in the depths of geologic time.
This insight was first articulated by Charles
Darwin in 1859, and new lines of evidence have
confirmed his discovery time and time again since
then. There are two key lines of evidence:
- missing links
- shared characteristics
|
Fossils provide
evidence of missing links.
|
The role of missing links is most difficult
to understand. Surely, argue the creationists and
other religious fundamentalists, if evolutionists
claim that all of life is related through a single
huge family tree extending from the present day
back millions of years to a single point of
origin, we should find fossils that are midway
between established groups. 'Where are the missing
links?' they cry. Palaeontologists have
them! |
| Archaeopteryx was half
reptile, half bird.
|
Archaeopteryx - half reptile,
half bird
The first dramatic missing
link came to light in 1861, only a couple of years
after Darwin's Origin of Species had been
published. The first specimen of
Archaeopteryx was discovered in a limestone
quarry in southern Germany, and it was studied
avidly by scientists throughout Europe. Early
writers, such as Thomas Henry Huxley, immediately
noticed that Archaeopteryx was an
intermediate form.
- It had bird characters, feathers and
wings.
- It also had reptilian characters, the
skeleton of a small theropod (flesh-eating)
dinosaur, with a long bony tail, fingers with
claws on the leading edge of the wing, and teeth
in the jaws.
|
| Fossils show how some
reptiles became more bird-like. |
The role of Archaeopteryx has been
debated ever since 1861. Is it really a missing
link between reptiles and birds, or is it just a
bird and not a missing link at all?
- A further seven skeletons have come to
light, and all of them confirm that Huxley was
correct.
- In addition, fantastic new specimens of
birds have been found in Spain and China, which
are some 30 or 40 million years younger than
Archaeopteryx, and they are more
bird-like, exactly as an evolutionist
predicts.
- The new Spanish and Chinese birds have
short bony tails, and their hand claws are
reduced - they are becoming more
bird-like.
The Chinese localities have
not only produced amazing new birds, but also
new dinosaur specimens with
feathers! |
| It is now known that
birds evolved from reptiles. |
These new specimens clinch the argument.
Archaeopteryx is no longer on its own, a
single species that attests to the reality of an
evolutionary transition from reptiles to birds.
Below it, on the evolutionary tree, stretch
countless theropod dinosaurs that become ever more
birdlike through time, and above it stretch
numerous bird species that bridge every step of
the way from Archaeopteryx to fully-fledged
birds. A long series of fossils through the
Jurassic and Cretaceous periods, a span of 140
million years, document the evolutionary
transition from reptile to bird. |
| Mammals can be traced
back to reptilian origins.
Jaws tell the story of
reptile to mammal
transition.
|
Jaws to ears: An example of tracking
missing links
The evolutionary route
from reptile to mammal is known in just as much
detail. Between the Permian and Triassic periods,
mammal-like reptiles evolved from basal forms that
were fully reptilian. Through dozens of
intermediate steps they evolved into mammals by
the Late Triassic, some 225 million years ago. All
the steps are evident in fossils:
- Step-by-step, palaeontologists can see
the switch from peg-like reptilian teeth to the
differentiated teeth of mammals (incisors,
canines, molars).
- Step-by-step the complex reptilian jaw,
with five separate bones, changes to the
mammalian jaw, with only one bone, the
dentary.
- In reptiles, both today and in the past,
the jaw joint lies between the articular bone at
the back of the lower jaw, and the quadrate bone
in the skull.
- In mammals, on the other hand, the jaw
joint is between the dentary and the squamosal
element of the skull.
|
|
Most amazing of all is the evolutionary
transition to the mammalian middle ear.
- In reptiles, as in amphibians and fishes,
there is a single hearing bone, the stapes,
which is simply a straight rod that links the
eardrum to the hearing structures of the inner
ear and the brain.
- Mammals, including humans, have three ear
ossicles (small bones), the malleus, incus and
stapes (or hammer, anvil, and
stirrup).
|
| You hear yourself
chewing because parts of your hearing structure
evolved from reptilian jawbones. |
The evolutionary steps were worked out
first in Victorian times by the study of mammal
embryos and then the fossils confirmed
it:
- The mammalian stapes is the same as that
of their ancestors. But the malleus and incus
have moved into the middle ear from their former
function as the reptilian jaw
joint.
- Life is stranger than fiction: the
reptilian lower jaw has been subsumed into the
mammalian middle ear to enhance the hearing
function.
- And the fossils show how some Triassic
mammal-like reptiles had effectively two jaw
joints: the reptilian joint was reduced, and the
new dentary-squamosal joint came into
play.
- At a certain point, in the Late Triassic,
the reptilian jaw joint had shifted
function.
- We can still detect the legacy of this
astonishing transition: when you chew a
hamburger, you can hear your jaw movements deep
inside your ears.
|
| Evolutionary
transitions are highly
predictable. |
Every day, new fossil finds are reported --
the first insect, the oldest hominid, the first
sauropod dinosaur, an Eocene whale with legs --
and so it goes on. The new fossil finds that hit
the headlines are all concrete evidence of
evolutionary transitions. The fossils are rarely
bizarre or unexpected; they fit into the
predictions of evolutionary trees. Dinosaurs with
feathers and whales with legs are pretty startling
discoveries, but biologists were convinced they
existed from the predictions of their evolutionary
trees. But is this the sole evidence of
evolutionary transitions? |
|
Darwin's observations
of species relationships provided major clues to
speciation. |
The great tree of
life
The single great tree of life is
profound evidence for evolutionary transitions.
Darwin, as he toured South America and the
Galapagos Islands in the 1830s, became
increasingly puzzled about the distributions of
plants and animals, both geographically and
geologically. He went out on the expedition as a
traditional creationist. Instead, this is what he
discovered:
- He saw that the strange and wonderful
plants and animals of South America were related
to each other. Why should that be if they had
simply been created?
- He also saw some of the relatively recent
fossils of South American mammals -- the giant
ground sloths and glyptodonts. Why were these
fossils so obviously relatives of the modern
sloths and anteaters that are unique to South
America?
- Famously, he saw that the singular
animals of the Galapagos Islands were all close
relatives of animals from the mainland of
Ecuador, and they varied from island to island.
Why?
|
| Darwin's answer to
similarities in species:
evolution. |
The solution then hit Darwin like a hammer
blow. The similarities in time and space were easy
to explain: life had evolved. It had not been
created, species by species. The Galapagos
finches, tortoises, and iguanas had diverged from
single ancestors that arrived by chance on the
islands a few thousand or million years ago. South
America had been isolated from the rest of the
world, and its own unique birds and mammals had
evolved through long spans of time from single
ancestors. Tracking back to the very origin of
life, he suggested, daringly, that all of life
came from a single ancestor. |
|
DNA differences among
species is relative to the time they diverged on
the tree of life. |
Molecular
confirmation
Since 1859, that great
tree has been built up painstakingly by close
study of fossils and modern organisms. And then,
Darwin's speculation, and all that careful work,
was confirmed from an unpredicted source -- the
molecules.
- Proteins in the bodies of all organisms,
and indeed DNA and RNA, the fundamental
molecules of life, carry records of evolutionary
transitions.
- Simply put, the degree of difference
between the same proteins (or the DNA or RNA) in
different species is proportional to the time
since they split apart. So, humans have
molecules that are nearly identical to those of
chimpanzees, rather more different from those of
cows, and very different from those of slime
molds. The amount of difference is proportional
to the time of divergence on the evolutionary
tree.
|
| Molecular biology
confirms evolutionary
transitions. |
Since 1960, molecular biologists have been
drawing up their own evolutionary trees, and these
match those based on fossils and museum specimens
of living plants and animals. The final, and most
startling, confirmation of Darwin's insight also
comes from the molecular biology. All living
things, from viruses to humans, from bacteria to
grasses, share complex molecular machinery -- the
whole DNA/ RNA code of life and protein synthesis
machinery and the ATP system of energy
transfer. |
|
Conclusion: Shared
ancestry of all living things has been proven by
molecular biology. |
Conclusion
Evolutionary
transitions are demonstrated by so-called 'missing
links', fossils like Archaeopteryx, and the whole
array of intermediates between dinosaurs and
modern birds that lie on either side of it. There
are thousands of other fossils that plug the gaps
between modern groups that are quite separate, and
new finds every year plug yet more gaps. But, the
evidence for evolutionary transitions can be seen
also in geographic distributions: close relatives
are often found close to each other at the base of
the evolutionary branch. The shapes of
evolutionary trees have now been confirmed from
independent evidence of molecular structures.
Indeed, the fact that all microbes, plants, and
animals today possess certain complex molecular
mechanisms proves conclusively that all of life
arose ultimately from a single ancestor billions
of years ago. |
|
© 2001, BioScience
Productions, Inc., an organization promoting
bioscience literacy. Educators have permission to
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please contact editor@actionbioscience.org
editor
for reprint permission.. |
|
About the author: Michael Benton, Ph.D., is
a vertebrate palaeontologist with interests in
dinosaur origins and fossil history. He holds the
Chair in Vertebrate Palaeontology at the
University of Bristol, UK, in addition to chairing
the Masters program in palaeobiology at the
university. He has written some 30 books on
dinosaurs and palaeobiology, ranging from
professional tomes to popular kids'
books.
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