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1.
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The graph shows the changes in the number of animal
faunas living on Earth over time and how the faunas were affected by different extinction
events.Which statement is correct about the
changes in faunas during one of these five major events?
a. | The event at the end of the Triassic (Tri.) resulted in the extinction of fewer
faunas than in any other period. | b. | The event at the end of the Cretaceous resulted
in an increase in the number of Paleozoic faunas. | c. | The event at the end of the Cretaceous resulted
in the extinction of more faunas than in any other period. | d. | The event at the end
of the Devonian (Dev.) resulted in an increase in the number of Cambrian faunas.
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2.
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A canyon wall is shown. The rocks that make up the
wall are layered.From the evidence in the
picture, which statement is most correct about what the fossil record looks like in this location?
a. | The number of fossils would decrease as the layers accumulate. | b. | The types of fossils
would be similar but would show gradual structural changes. | c. | The number of
fossils would rise and then immediately disappear. | d. | The types of fossils would stay exactly the
same in every layer. |
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3.
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Examine the geologic timeline graph
below.Two-Part Question Part
One: Identify a time period of gradual population change. Part Two: Identify a point of rapid
population change (mass extinction)
a. | Part One: Gradual chance occurred 600 to 400 million year ago. Part Two: Rapid
change-about 430 million years ago. | b. | Part One: Gradual chance occurred 500 to 559
million year ago. Part Two: Rapid change-about 440 million years ago. | c. | Part One: Gradual
chance occurred 325 to 275 million year ago. Part Two: Rapid change-about 230 million years
ago. | d. | Part One: Gradual chance occurred 240 to 150 million year ago. Part Two: Rapid
change-about 70 million years ago. |
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4.
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During glacial periods (Ice Ages), sea levels drop which changes marine
ecosystems resulting in population changes and/or extinctions. During interglacial periods, sea
levels rise which can have similar consequences. Graph of Glacial and
Inter-Glacial Periods | | | What cause and effect connection
explains why the sea level changes like this, and per graph displayed above, how often do Ice Ages
occur?
a. | During warming periods, the higher global temperatures melts glaciers resulting in
lower sea levels. Ice Ages occur about every 100, 000 years. | b. | Glaciers are heavy,
and this weight pushes down the continents which makes the sea level rise. Ice ages occur about once
every million years. | c. | During Ice Ages, more global water is frozen on
land. This reduces the amount of water in the oceans. Glacial periods occur about every 100, 000
years | d. | Marine organisms reproduce faster in colder water. So, when ocean temperatures
decrease, the number of fish vastly increases causing the ocean level to rise. Glacial periods occur
about every 500, 000 years. |
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5.
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Multiple lines of evidence suggest that the dinosaurs were made extinct is a
catastrophic event which occurred about 65 million years ago. This was a rapid extinction that was
most likely caused by a large asteroid impact. Two Part Question Part One: How did this impact
effect the stability of ecosystems around the planet? Part Two: In which era and period did this
event occur?
a. | Part One: Only the ecosystems at the impact site were damaged or destroyed.
Most ecosystems around the world were unaffected resulting in a population boom. Part Two:
This occurred in the Cenozoic era at the end of the Neogene period. | b. | Part One: The
impact ripped open a fault line in Russia called the Siberian Traps which vented millions of tons of
carbon dioxide into the atmosphere. Part Two: This happened in the Cretaceous period during
the Mesozoic era. | c. | Part One: Excess heat from the explosive
impact melted the ice caps at both the North and South poles which raised the sea levels. Higher sea
levels killed marine life. Part Two: This occurred in the Paleozoic era at the end of the
Cambrian period. | d. | Part One: Vaporized rock in the atmosphere reduced sunlight resulting in plant
deaths and lower global temperatures. This disrupted food webs and destroyed ecosystems. Part
Two: This occurred in the Mesozoic era at the end of the Cretaceous
period. |
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6.
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Examine this graph showing five mass extinction
events. Also, examine this chart of mass
extinction causes. Interpret Data/Cause
and Effect: What one key factor most likely resulted in the mass extinction event at the
end of the Permian period, and approximately when did this occur?
a. | Massive global volcanic eruptions that occurred about 200 million years
ago. | b. | Climate change due to industrial air pollution from about 65 million years
ago. | c. | Ocean chemistry changes that occurred about 500 million years
ago. | d. | Environmental changes due to volcanic activity about 230 million years
ago. |
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7.
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Extinctions can be caused by tectonic plate movement, asteroid impacts, or
massive volcanic eruptions. What occurs after each mass
extinction, and when did this occur with mammal after the dinosaur extinction per the graph shown
above?
a. | Mutations result in super-predators which overgraze the flora causing extinction.
Mammal diversification significantly increased around 30 MYA. | b. | Surviving species
adapt to the new environmental conditions and fill vacant habitats. Mammal diversification
significantly increased around 65 MYA. | c. | Existing species survive for a time but slowly
die off until none are left to reproduce. Mammal diversification significantly increased around 35
MYA. | d. | Ultraviolet radiation and solar flares gradually destroy all life on Earth. Mammal
diversification significantly increased around 75 MYA. |
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8.
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Examine the diagrams below. How can tectonic plate movement (continental drift) cause
extinctions?
a. | Continental drift can cause asteroid impacts with devastating
consequences. | b. | When a continent is moved, this can change weather patterns (rainfall etc.) and the
amount of sunlight. | c. | If the plates move too quickly, the force of
this motion can kill fauna and flora. | d. | When tectonic plates move, they carry the
continents with them. When continents are moved great distances, the climate will remain unchanged
resulting in extinctions. |
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9.
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Examine the graph below which displays five major extinction events.
What common factor occurred during each
of these five extinction events, and what most likely caused the mass extinction at the end of the
Ordovician period?
a. | The five major mass extinctions were caused by massive volcanic eruptions, and the
Ordovician extinction was most likely caused by a Flood Basalt eruption in
Russia. | b. | One common factor is all mass extinctions is lack of rainfall (drought). The
extinction event at the end of the Ordovician period was from a 1000-year global
drought. | c. | All five major mass extinction events happened due to asteroid impacts, and the
Ordovician mass extinction was most likely caused by global cooling (an Ice Age). | d. | Mass extinctions
occur when the environment is significantly changed, and glaciation (an Ice Age) most likely caused
the Ordovician mass extinction. |
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10.
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The diagram shows the development of two species,
the giraffe and the okapi, through the process of gradualism. During the first stage of gradualism,
shown as “Geographic Isolation,” the two branches of the species became separated from
each other. During the second stage, shown as “Genetic Isolation,” the okapi and the
giraffe developed into two distinct species.Which statement best describes the continued existence of the
giraffe and the okapi?
a. | The two species will likely interbreed with each other, resulting in young with
characteristics of both species. | b. | The two species are no longer able to
interbreed, and both will continue to exist and reproduce in their separate environments.
| c. | The two species will be in competition for resources with each other in a single
environment, leading to the extinction of one of the species. | d. | The two species will
likely interbreed and develop a new species with characteristics of their common ancestor.
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