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The Origin and Evolution of Life AP Biology: Chapter 20.
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Transcript of The Origin and Evolution of Life AP Biology: Chapter 20.
![Page 1: The Origin and Evolution of Life AP Biology: Chapter 20.](https://reader036.fdocuments.in/reader036/viewer/2022081513/56649f4f5503460f94c71885/html5/thumbnails/1.jpg)
The Origin and Evolution of Life
AP Biology: Chapter 20
![Page 2: The Origin and Evolution of Life AP Biology: Chapter 20.](https://reader036.fdocuments.in/reader036/viewer/2022081513/56649f4f5503460f94c71885/html5/thumbnails/2.jpg)
Key Concepts:
Life originated more than 3.8 billion years
ago
All of the compounds necessary for life
could have formed spontaneously under
conditions that existed on the early Earth
The history of life spans five intervals of
geologic time
![Page 3: The Origin and Evolution of Life AP Biology: Chapter 20.](https://reader036.fdocuments.in/reader036/viewer/2022081513/56649f4f5503460f94c71885/html5/thumbnails/3.jpg)
Key Concepts:
Divergence led to two prokaryotic lineages and
to the eukaryotic divergence
A theory of endosymbiosis helps explain the
profusion of specialized organelles
All of the kingdoms are characterized by
persistence, extinctions, and radiations
Certain environmental insults have had
profound impacts on the direction of evolution
![Page 4: The Origin and Evolution of Life AP Biology: Chapter 20.](https://reader036.fdocuments.in/reader036/viewer/2022081513/56649f4f5503460f94c71885/html5/thumbnails/4.jpg)
Impacts, Issues Video
Looking for Life in All the Odd Places
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The Big Bang
12-15 billion years ago
all matter was
compressed into a space
the size of our sun Sudden instantaneous
distribution of matter and energy throughout the known universe
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Conditions on the Early Earth
4.5 billion years ago “Cloud” began to condense
Minerals and ice orbiting the sun started clumping together
4 billion years ago Crust and mantle formed
Heavy metals moved to Earth’s interior, lighter ones floated to
surface
Primitive atmosphere H2, N2, CO, CO2 , probably no O2
Hot temperatures
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Earth Is “Just Right” for Life
Smaller in diameter, gravity would not be great enough to hold onto atmosphere
Closer to sun, water would have evaporated
Farther from sun, water would have been locked up as ice
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Early Earth
Primitive atmosphere
H2
N2
CO
CO2
Probably no free O2
![Page 9: The Origin and Evolution of Life AP Biology: Chapter 20.](https://reader036.fdocuments.in/reader036/viewer/2022081513/56649f4f5503460f94c71885/html5/thumbnails/9.jpg)
Synthesis of Organic Compounds
Amino acids, other organic compounds can form
spontaneously under conditions like those on early Earth Clay may have served as template for complex
compounds Compounds may have formed near hydrothermal vents
Stanley Miller’s experiment Methane, hydrogen, ammonia and water in a reaction
chamber
Simulated lightning
Amino acids and small organic compounds formed
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tovacuumpump
boiling water
sparkdischarge
liquid water in trap
water containingorganic compounds
water droplets
water in
condenser
electrodes
water out
CH4
NH3
H2OH2
gases
Stanley Miller’s Experiment
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Emergence of the First Living Cells
Metabolism Natural assembly of enzymes, ATP and other
organic compounds Chemical interactions
enzyme enzyme
A + B -------> C -------> D
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Origin of Organic Compounds
Amino acids, other organic compounds can form spontaneously under conditions like those on early Earth
Clay may have served as template for complex compounds
Compounds may have formed near hydrothermal vents
![Page 13: The Origin and Evolution of Life AP Biology: Chapter 20.](https://reader036.fdocuments.in/reader036/viewer/2022081513/56649f4f5503460f94c71885/html5/thumbnails/13.jpg)
Chemical Evolution
Spontaneous formation of porphyrin rings from formaldehyde
Components of chlorophylls and cytochromes
In energy yielding pathways.
formaldehyde
porphyrin ring system
chlorophyll a
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RNA World
DNA is genetic material now
DNA-to-RNA-to-protein system is complicated
RNA may have been first genetic material
RNA can assemble spontaneously
How switch from RNA to DNA might have
occurred is not known
![Page 15: The Origin and Evolution of Life AP Biology: Chapter 20.](https://reader036.fdocuments.in/reader036/viewer/2022081513/56649f4f5503460f94c71885/html5/thumbnails/15.jpg)
Proto-Cells
Microscopic spheres of proteins or lipids can self assemble
Tiny sacs like cell membranes can form under laboratory conditions that simulate conditions in evaporating tidepools
Nanobes may resemble proto-cells
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Emergence of the First Living Cells
Self Replicating Systems RNA
DNA
Plasma Membranes Proto-cells
proteins lipids
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livingcells
formation ofprotein-RNA systems,
evolution of DNA
formation oflipid spheres
spontaneous formation of lipids,carbohydrates, amino acids, proteins,nucleotides under abiotic conditions
membrane-bound proto-cells
self-replicating system enclosed in aselectively permeable, protective lipid sphere
DNA RNA enzymes andother proteins
Stepped Art
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Proterozoic Eon
Origin of photosynthetic Eubacteria
Noncyclic pathway first
Cyclic pathway next
Oxygen accumulates in atmosphere
Origin of aerobic respiration
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The First Cells
Originated in Archeon Eon
Were prokaryotic
heterotrophs
Secured energy through
anaerobic pathways No oxygen present
Relied on glycolysis and
fermentationProkaryotes
![Page 20: The Origin and Evolution of Life AP Biology: Chapter 20.](https://reader036.fdocuments.in/reader036/viewer/2022081513/56649f4f5503460f94c71885/html5/thumbnails/20.jpg)
Origin of Prokaryotic and Eukaryotic Cells
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Advantages of Organelles
Nuclear envelope may have helped to protect genes from competition with foreign DNA
ER channels may have protected vital proteins
DNA
infolding of plasma membrane
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Where Did Organelles Come From ?
Membranous enclosures Nucleus ER
Endosymbiosis Mitochondria Chloroplasts Both have self-replicating DNA, divide
independently of cell
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Theory of Endosymbiosis Lynn Margulis Mitochondria and chloroplasts are the
descendents of free-living prokaryotic organisms
Prokaryotes were engulfed by early eukaryotes and became permanent internal symbionts
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A Theory of Life’s Beginnings
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Major Events of Life’s History
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Life In the Paleozoic Era
Periods Cambrian
Ordovician
Silurian
Devonian
Carboniferous
Permian
All six kingdoms in the seas
Land plants and animals arise
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Life in the Paleozoic
Cambrian 550-500 mya Land masses dispersed near equator Simple marine communities Origin of animals with hard parts
Ordovician 500-435 mya Gondwana drifts south Major radiations of marine invertebrates and
fishes
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Life in the Paleozoic
Ordovician-Silurian boundary 435 mya First known ice age First known global mass extinction
Silurian and Devonian eras Vascular plants arise Origin of amphibians
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Life in the Paleozoic
Silurian swamp Dominated by non-
vascular plants Forerunners of
modern ferns and club mosses
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Life in the Paleozoic
Devonian-Carboniferous boundary Sea levels change dramatically Mass extinction
Carboniferous 360-290 mya Radiations of insects, amphibians Origins of reptiles Spore-bearing plants dominant
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Life in the Paleozoic
Permian 290-240 mya Radiation of reptiles and gymnosperms
Closed with greatest mass extinction
Land masses collided to form Pangea
More than 50% of families disappeared
Only 5% of known species survived
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Life in the Mesozoic Era
Periods Triassic Jurassic Cretaceous
Pangea began to break up Continental drift Divergence and Speciation
Major adaptive radiations
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Life in the Mesozoic
Angiosperms arose in the late Jurassic or early Cretaceous.
Adaptive radiation made them dominant plants in land environments
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Rise of the Ruling Reptiles
Dinosaurs Arose early in the Triassic
Weren’t dominant until after mass extinction
Adaptive radiation
Two Hypotheses for Dinosaur Extinction Asteroid Impact Theory
Global Broiling Theory
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Last Few Seconds of the Cretaceous
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Life in the Cenozoic Era
Present era
Geological shift
Shifts in climate
Adaptive radiation of mammals Tropical forests
Woodlands
Grasslands
Species diversity
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In Conclusion
The Big Bang is a model of the origin of the
universe
Every element of the solar system and of life
is a product of the physical and chemical
evolution of the universe
Four billion years ago, the Earth formed
The primitive atmosphere consisted of H2, N2 ,
CO, and CO2
![Page 38: The Origin and Evolution of Life AP Biology: Chapter 20.](https://reader036.fdocuments.in/reader036/viewer/2022081513/56649f4f5503460f94c71885/html5/thumbnails/38.jpg)
In Conclusion
After the crust cooled, water accumulated
and seas developed
Many experiments have yielded indirect
evidence that life originated under conditions
prevalent on the early Earth
Life originated about 3.8 billion years ago
Major changes in the Earth’s crust,
atmosphere, and oceans have influenced life
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In Conclusion
Discontinuities in the fossil record mark the time of global mass extinction
The first living cells were prokaryotes Divergence led to the evolution and to
the ancestor of the Archaebacteria and Eukaryotes
Ozygen began to accumulate in the atmosphere during the Proterozoic
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In Conclusion
Oxygen in the atmosphere served as a
selective pressure, bringing about the
spontaneous formation of organic molecules
Aerobic respiration was a key step towards
the origin of eukaryotic cells
Mitochondria and chloroplasts probably
evolved as an outcome of endosymbiosis
![Page 41: The Origin and Evolution of Life AP Biology: Chapter 20.](https://reader036.fdocuments.in/reader036/viewer/2022081513/56649f4f5503460f94c71885/html5/thumbnails/41.jpg)
In Conclusion
Ozone developed as a product of an O2
rich atmosphere.
Ozone protects against ultraviolet
radiation
Many events brought on pulses of mass
extinctions and adaptive radiations