Overview: Lost Worlds
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Transcript of Overview: Lost Worlds
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Copyright © 2008 Pearson Education, Inc., publishing as Pearson Benjamin Cummings
Overview: Lost Worlds
• Past organisms were very different from those now alive
• The fossil record shows macroevolutionary changes over large time scales including
– The emergence of terrestrial vertebrates
– The origin of photosynthesis
– Long-term impacts of mass extinctions
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Fig. 25-1
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Fig 25-UN1
Cryolophosaurus
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Conditions on early Earth made the origin of life possible
• Chemical and physical processes on early Earth may have produced very simple cells through a sequence of stages:
1. Abiotic synthesis of small organic molecules
2. Joining of these small molecules into macromolecules
3. Packaging of molecules into “protobionts”
4. Origin of self-replicating molecules
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Synthesis of Organic Compounds on Early Earth
• Earth formed about 4.6 billion years ago, along with the rest of the solar system
• Earth’s early atmosphere likely contained water vapor and chemicals released by volcanic eruptions (nitrogen, nitrogen oxides, carbon dioxide, methane, ammonia, hydrogen, hydrogen sulfide)
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Fig. 25-2
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• Amino acids have also been found in meteorites
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Abiotic Synthesis of Macromolecules
• Small organic molecules polymerize when they are concentrated on hot sand, clay, or rock
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Self-Replicating RNA and the Dawn of Natural Selection
• The first genetic material was probably RNA, not DNA
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The fossil record documents the history of life
• The fossil record reveals changes in the history of life on earth
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The Fossil Record
• Sedimentary rocks are deposited into layers called strata and are the richest source of fossils
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Fig. 25-4Present
Dimetrodon
Coccosteus cuspidatus
Fossilizedstromatolite
Stromatolites Tappania, aunicellulareukaryote
Dickinsoniacostata
Hallucigenia
Casts ofammonites
Rhomaleosaurus victor, a plesiosaur
10
0 m
illi
on
ye
ars
ag
o2
00
17
53
00
27
04
00
37
55
00
52
55
65
60
03
, 500
1, 5
0 0
2.5 cm4.5 cm
1 cm
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Fig. 25-4-1
Fossilizedstromatolite
Stromatolites Tappania, aunicellulareukaryote
Dickinsoniacostata
Hallucigenia
500
525
565
600
3,50
0 1,
500
2.5
cm
4.5 cm
1 cm
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Fig. 25-4a-2
Present
Dimetrodon
Coccosteus cuspidatus
Casts ofammonites
Rhomaleosaurus victor, a plesiosaur
100
mill
ion
yea
rs a
go
200
175
300
270
400
3754.5 cm
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Fig. 25-4b
Rhomaleosaurus victor, a plesiosaur
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Fig. 25-4c
Dimetrodon
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Fig. 25-4d
Casts of ammonites
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Fig. 25-4e
Coccosteus cuspidatus
4.5 cm
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Fig. 25-4f
Hallucigenia
1 cm
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Fig. 25-4g
Dickinsonia costata 2.5 cm
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Fig. 25-4h
Tappania, a unicellular eukaryote
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Fig. 25-4i
Stromatolites
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Fig. 25-4j
Fossilized stromatolite
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• Few individuals have fossilized, and even fewer have been discovered
• The fossil record is biased in favor of species that
– Existed for a long time
– Were abundant and widespread
– Had hard parts
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How Rocks and Fossils Are Dated
• Sedimentary strata reveal the relative ages of fossils
• The absolute ages of fossils can be determined by radiometric dating
• A “parent” isotope decays to a “daughter” isotope at a constant rate
• Each isotope has a known half-life, the time required for half the parent isotope to decay
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Fig. 25-5
Time (half-lives)
Accumulating “daughter” isotope
Remaining “parent” isotopeF
ract
ion
of
par
ent
i
soto
pe
r em
a in
ing
1 2 3 4
1/2
1/41/8 1/16
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• Radiocarbon dating can be used to date fossils up to 75,000 years old
• For older fossils, some isotopes can be used to date sedimentary rock layers above and below the fossil
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• The magnetism of rocks can provide dating information
• Reversals of the magnetic poles leave their record on rocks throughout the world
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Table 25-1
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Table 25-1a
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Table 25-1b
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Fig. 25-7
Animals
Colonizationof land
Paleozoic
Meso-
zoic
Humans
Ceno-zoic
Origin of solarsystem andEarth
ProkaryotesProterozoic Archaean
Billions of years ago
1 4
32
Multicellulareukaryotes
Single-celledeukaryotes
Atmosphericoxygen
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Photosynthesis and the Oxygen Revolution
• Most atmospheric oxygen (O2) is of biological origin
• O2 produced by oxygenic photosynthesis reacted with dissolved iron and precipitated out to form banded iron formations
• The source of O2 was likely bacteria similar to modern cyanobacteria
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• By about 2.7 billion years ago, O2 began accumulating in the atmosphere and rusting iron-rich terrestrial rocks
• This “oxygen revolution” from 2.7 to 2.2 billion years ago (this is when we see rust)
– Posed a challenge for life
– Provided opportunity to gain energy from light
– Allowed organisms to exploit new ecosystems
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Fig. 25-8
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The First Eukaryotes
• The oldest fossils of eukaryotic cells date back 2.1 billion years
• The hypothesis of endosymbiosis proposes that mitochondria and plastids (chloroplasts and related organelles) were formerly small prokaryotes living within larger host cells
• An endosymbiont is a cell that lives within a host cell
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• The prokaryotic ancestors of mitochondria and plastids probably gained entry to the host cell as undigested prey or internal parasites
• In the process of becoming more interdependent, the host and endosymbionts would have become a single organism
• Serial endosymbiosis supposes that mitochondria evolved before plastids through a sequence of endosymbiotic events
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• Key evidence supporting an endosymbiotic origin of mitochondria and plastids:
– Similarities in inner membrane structures and functions
– Division is similar in these organelles and some prokaryotes
– These organelles transcribe and translate their own DNA
– Their ribosomes are more similar to prokaryotic than eukaryotic ribosomes
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The Origin of Multicellularity
• The evolution of eukaryotic cells allowed for a greater range of unicellular forms
• A second wave of diversification occurred when multicellularity evolved and gave rise to algae, plants, fungi, and animals
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The Cambrian Explosion
• The Cambrian explosion refers to the sudden appearance of fossils resembling modern phyla in the Cambrian period (535 to 525 million years ago)
• The Cambrian explosion provides the first evidence of predator-prey interactions
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Continental Drift
• At three points in time, the land masses of Earth have formed a supercontinent: 1.1 billion, 600 million, and 250 million years ago
• Earth’s continents move slowly over the underlying hot mantle through the process of continental drift
• Oceanic and continental plates can collide, separate, or slide past each other
• Interactions between plates cause the formation of mountains and islands, and earthquakes
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Fig. 25-12
(a) Cutaway view of Earth (b) Major continental plates
Innercore
Outercore
Crust
MantlePacificPlate
NazcaPlate
Juan de FucaPlate
Cocos Plate
CaribbeanPlate
ArabianPlate
AfricanPlate
Scotia Plate
NorthAmericanPlate
SouthAmericanPlate
AntarcticPlate
AustralianPlate
PhilippinePlate
IndianPlate
Eurasian Plate
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Fig. 25-12a
(a) Cutaway view of Earth
Innercore
Outercore
Crust
Mantle
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Fig. 25-12b
(b) Major continental plates
PacificPlate
NazcaPlate
Juan de FucaPlate
Cocos Plate
CaribbeanPlate
ArabianPlate
AfricanPlate
Scotia Plate
NorthAmericanPlate
SouthAmericanPlate
AntarcticPlate
AustralianPlate
PhilippinePlate
IndianPlate
Eurasian Plate
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Consequences of Continental Drift
• Formation of the supercontinent Pangaea about 250 million years ago had many effects
– A reduction in shallow water habitat
– A colder and drier climate inland
– Changes in climate as continents moved toward and away from the poles
– Changes in ocean circulation patterns leading to global cooling
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Fig. 25-13
SouthAmerica
Pangaea
Mil
lio
ns
of
year
s ag
o
65.5
135
Mes
ozo
ic
251
Pal
eozo
ic
Gondwana
Laurasia
Eurasia
IndiaAfrica
AntarcticaAustralia
North Americ
a
Madagascar
Cen
ozo
ic
Present
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Fig. 25-13a
SouthAmerica
Mil
lio
ns
of
year
s ag
o
65.5
Eurasia
IndiaAfrica
AntarcticaAustralia
North Americ
a
Madagascar
Cen
ozo
ic
Present
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Fig. 25-13b
Pangaea
Mil
lio
ns
of
year
s ag
o
135
Mes
ozo
ic
251
Pal
eozo
ic
Gondwana
Laurasia
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Mass Extinctions
• The fossil record shows that most species that have ever lived are now extinct
• At times, the rate of extinction has increased dramatically and caused a mass extinction
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Fig. 25-14
To
tal e
xtin
cti
on
ra
te(f
amili
es
pe
r m
illio
n y
ears
):
Time (millions of years ago)
Nu
mb
er o
f fa
mili
es:
CenozoicMesozoicPaleozoicE O S D C P Tr J
542
0
488 444 416 359 299 251 200 145
EraPeriod
5
C P N
65.5
0
0
200
100
300
400
500
600
700
800
15
10
20
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Fig. 25-15
NORTHAMERICA
ChicxulubcraterYucatán
Peninsula
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Is a Sixth Mass Extinction Under Way?
• Scientists estimate that the current rate of extinction is 100 to 1,000 times the typical background rate
• Data suggest that a sixth human-caused mass extinction is likely to occur unless dramatic action is taken
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Consequences of Mass Extinctions
• Mass extinction can alter ecological communities and the niches available to organisms
• It can take from 5 to 100 million years for diversity to recover following a mass extinction
• Mass extinction can pave the way for adaptive radiations
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Fig. 25-16
Pre
dat
or
gen
era
(pe
rcen
tag
e o
f m
arin
e g
en
era
)
Time (millions of years ago)
CenozoicMesozoicPaleozoicE O S D C P Tr J
542
0
488 444 416 359 299 251 200 145
EraPeriod C P N
65.5 0
10
20
30
40
50
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Adaptive Radiations
• Adaptive radiation is the evolution of diversely adapted species from a common ancestor upon introduction to new environmental opportunities.
• This is what occurred with Darwin’s finches. One type of finch went to the Galapogos Islands. As they reproduced, variations occurred. If a bird was born with a good variation, they adapted and lived. IE: A beak that could break seeds. If a bird was born with a bad feature, they died.
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• VERY IMPORTANT: Evolution does not occur because of need. It is a random genetic event. If the random event gives an organism something useful in the environment in which it lives, then it survives.
• How have humans changed natural selection?
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Fig. 25-17
Millions of years ago
Monotremes(5 species)
250 150 100200 50
ANCESTRALCYNODONT
0
Marsupials(324 species)
Eutherians(placentalmammals;5,010 species)
Ancestralmammal
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Regional Adaptive Radiations
• Adaptive radiations can occur when organisms colonize new environments with little competition
• The Hawaiian Islands are one of the world’s great showcases of adaptive radiation
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Fig. 25-18
Close North American relative,the tarweed Carlquistia muirii
Argyroxiphium sandwicense
Dubautia linearisDubautia scabra
Dubautia waialealae
Dubautia laxa
HAWAII0.4
millionyears
OAHU3.7
millionyears
KAUAI5.1
millionyears
1.3millionyears
MOLOKAIMAUI
LANAI
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Fig. 25-18a
HAWAII0.4
millionyears
OAHU3.7
millionyears
KAUAI5.1
millionyears
1.3millionyears
MOLOKAIMAUI
LANAI
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Fig. 25-18b
Close North American relative,the tarweed Carlquistia muirii
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Fig. 25-18c
Dubautia waialealae
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Fig. 25-18d
Dubautia laxa
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Fig. 25-18e
Dubautia scabra
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Fig. 25-18f
Argyroxiphium sandwicense
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Fig. 25-18g
Dubautia linearis
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• Hox genes are a class of homeotic genes that provide positional information during development
• If Hox genes are expressed in the wrong location, body parts can be produced in the wrong location
• For example, in crustaceans, a swimming appendage can be produced instead of a feeding appendage
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• Adaptive radiation- a single species or small group of species has evolved into many different species. Many from one……
Patterns of evolution
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• Organisms undergo adaptive radiation in different places because of environmental.
Convergent evolution
Two similar succulent plants with one common ancestor.
Euphorbia
Astrophytum