Biology - Chp 17 - History Of Life - PowerPoint
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Transcript of Biology - Chp 17 - History Of Life - PowerPoint
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Chapter17
The History of Life
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17-1 The Fossil Record• Studying life’s history is one of the
most fascinating and challenging parts of biology
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17-1 The Fossil Record• And researchers go about it in
different ways
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Fossils and Ancient Life• From the study of fossils,
Paleontologists infer what past life forms were like and the environment that they lived
• They also classify them and arrange them in the order in which they lived
• Together, all of this information is called The fossil record
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What the Fossil Record Shows
• Fossils occur in a particular order• Life has changed over time• More than 99 percent of all
species that have ever lived have become extinct
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Extinct• When a species dies out
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How Fossils Form• For a fossil to form, either the remains
of the organism or some trace of its presence must be preserved
• The formation of fossils depends on a precise combination of conditions
• Most fossils form in sedimentary rock
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Interpreting Fossil Evidence• More often than not, a Paleontologist must
analyze and interpret a fossil from a few fossil bits
• When they study fossils, they look at anatomical similarities and differences between the fossil and living organisms
• Also a fossils age is extremely important• Paleontologists determine the age of a fossil
using 2 techniques
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1. Relative Dating• The relative age of a fossil is
determined by comparing its placement with that of fossils in other layers of rock
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Index Fossils• Used to compare the relative
ages of fossils
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To be used as an index fossil, a species must
1. Be easily recognized2. Existed for a short period of time3. Have a wide geographical range
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2. Radioactive dating• Used to determine the absolute
age of rocks using radioactive elements
• Radioactive elements decay or break down into non-radioactive elements at a steady rate
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Half life• The length of time required for half
of the radioactive atoms in a sample to decay
• In radioactive dating, scientists calculate the age of a sample based on the amounts of remaining radioactive isotopes it contains
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Geologic Time Scale• Paleontologists use divisions of
the Geologic time scale to represent evolutionary time
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Eras• Divides the time between the
Precambrian and Present
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Periods• Subdivides eras
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Cambrian Explosion
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Ordovician
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Silurian
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Devonian
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Carboniferous
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Permian
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Triassic
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Jurassic
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Cretaceous
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Tertiary
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Quaternary
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What would it take to bring on a new geological era?
1. Change the atmospheres composition, thus modifying plants
2. Change the distribution and diversity of species, thereby changing the future fossil record
3. Acidify the oceans, which will modify the mineral deposits on the ocean floor
• Does this sound familiar?
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New era being proposed• “Anthropocene”• New era characterized by the
domination of the planet by one species…us.
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17 – 4 Patterns of Evolution• Biologists often use the term
macroevolution to refer to large-scale evolutionary patterns and the processes that occur over long periods of time
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Six important topics in macroevolution are
1. Extinction2. Adaptive radiation3. Convergent evolution4. Coevolution5. Punctuated equilibrium6. Changes in developmental genes
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Extinction• More than 99% of all species that have
ever lived are now extinct• Usually extinctions happen the way
Darwin proposed• Sometimes mass extinctions wipe out
entire ecosystems• Many times mass extinctions are
followed by a burst of evolution that produces many new species
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Adaptive Radiation• When a single species or a small
group of species has evolved into diverse forms that live in different ways
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Convergent Evolution• When unrelated organisms come
to resemble one anotherEx.) sharks and dolphins
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Q: How does this happen?
A: Adaptive radiation can happen in different places and times but in ecologically similar environments
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Analogous Structures• Structures which look and
function similarly but are made up of parts that don’t share a common evolutionary history
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Coevolution• The process in which 2 species
evolve in response to changes in each other
Ex.) plants + pollinatorsplants + herbivorous insectsbats + moths
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Plants and Pollinators
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Hammer Orchid
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Bats vs. MothsAn Evolutionary Arms Race
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Rough Skinned Newt vs. Garter Snake
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Punctuated Equilibrium• There is no question among Biologists that
evolution has happened and is happening today• There are however questions about how fast
evolution happens• Darwin thought that evolution was slow and
steady. He called this idea Gradualism• This idea is supported by fossil evidence• However, the fossil record also shows changes
that have happened over relatively short periods of time (hundred of thousands-even million-of years)
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Punctuated Equilibrium• Long stable periods of equilibrium
interrupted by brief periods of more rapid change
• This may be the result of genetic isolation
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Developmental Genes and Body Plans
• Biologists have long suspected that changes in the genes for growth and differentiation during embryological development could produce transformations in body size and shape
• Until recently, researchers had only limited ability to affect gene activity in embryos
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Developmental Genes and Body Plans
• We can now perform experiments with gene expression by turning genes on or off and examining the results
• Small changes in the timing of cell differentiation and gene expression can make the difference between two completely different phenotypes
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