EnvSci Q01 W05 QG01

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Unit 1: Many Plantets, One Earth. Section 4: Carbon Cycling and Earth´s Climate.
fmk012002
Quiz by fmk012002, updated more than 1 year ago
fmk012002
Created by fmk012002 about 9 years ago
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Resource summary

Question 1

Question
What´s the first step early Earth transitioned from a hell-like environment to temperatures more hospitable to life?
Answer
  • a. Early in the Archean (ancient) eon, about 3.8 billion years ago, the rain of meteors and rock bodies from space ended, allowing our planet's surface to cool and solidify.
  • b. Water vapor in the atmosphere condensed and fell as rain, creating oceans. These changes created the conditions for geochemical cycling (flow of chemical substances between reservoirs in Earth atmosphere, hydrosphere (water bodies), and lithosphere (the solid part of Earth´s crust).

Question 2

Question
What´s the second step early Earth transitioned from a hell-like environment to temperatures more hospitable to life?
Answer
  • Early in the Archean (ancient) eon, about 3.8 billion years ago, the rain of meteors and rock bodies from space ended, allowing our planet's surface to cool and solidify.
  • Water vapor in the atmosphere condensed and fell as rain, creating oceans. These changes created the conditions for geochemical cycling (flow of chemical substances between reservoirs in Earth atmosphere, hydrosphere (water bodies), and lithosphere (the solid part of Earth´s crust).

Question 3

Question
How does natural thermostat work when the climate warms?
Answer
  • Weathering rates accelerate and convert an increasing fraction of atmospheric CO2 to calcium carbonate, which is buried on the ocean floor. Atmospheric concentrations of CO2 decline, modifying the greenhouse effect and cooling Earth's surface.
  • Weathering slows down but volcanic outgassing of CO2 continues, so atmospheric CO2 levels rise and warm the climate.

Question 4

Question
How does the natural thermostat work when the climate cools?
Answer
  • Weathering rates accelerate and convert an increasing fraction of atmospheric CO2 to calcium carbonate, which is buried on the ocean floor. Atmospheric concentrations of CO2 decline, modifying the greenhouse effect and cooling Earth's surface.
  • Weathering slows down but volcanic outgassing of CO2 continues, so atmospheric CO2 levels rise and warm the climate.

Question 5

Question
The Faint Young Paradox is
Answer
  • The sun was about 30 percent dimmer than it is today, so our planet received less solar radiation. Earth's surface should have been well below the freezing point of water, too cold for life to exist, but evidence shows that liquid water was present and that simple life forms appeared as far back as 3.5 billion years ago.
  • the sun was about 30 percent dimmer than it is today, so our planet received less solar radiation. Earth's surface should have been well below the freezing point of water, too cold for life to exist, but evidence shows that liquid water was present and that simple life forms appeared as far back as 2.5 billion years ago.

Question 6

Question
What gases were included in the Archean atmosphere?
Answer
  • Nitrogen, liquid water , methane (CH4), and CO2.
  • Nitrogen, water vapor, methane (CH4), and CO2.

Question 7

Question
Where was CO2 coming from?
Answer
  • Volcanoes emitted CO2 as a byproduct of heating within the Earth's crust.
  • Volcanoes emitted CO2 as a byproduct of industry.

Question 8

Question
What process avoided developing a runaway greenhouse effect like that on Venus?
Answer
  • Natural sink, a process that adds excess carbon from atmosphere. This sink involves the weathering of silicate rocks, such as granites and basalts, that make up much of Earth's crust.
  • Natural sink, a process that removes excess carbon from atmosphere. This sink involves the weathering of silicate rocks, such as granites and basalts, that make up much of Earth's crust.

Question 9

Question
One of the four basic stages of sink process is
Answer
  • First, rainfall scrubs CO2 out of the air, producing carbonic acid (H2CO3), a weak acid.
  • This carbonic acid reacts on contact with silicate rocks to release calcium and other cations and leave behind carbonate and biocarbonate ions dissolved in the water.

Question 10

Question
The second step of the four basic stages of sink process:
Answer
  • Rainfall scrubs CO2 out of the air, producing carbonic acid (H2CO3), a weak acid.
  • The Carbonic acid reacts on contact with silicate rocks to release calcium and other cations and leave behind carbonate and biocarbonate ions dissolved in the water.

Question 11

Question
What is the third step of the four basic stages of sink process:
Answer
  • The carbonate and biocarbonate ions dissolved in the water is washed into the oceans by rivers, and then calcium carbonate (CaCO3), also known as limestone, is precipitated in sediments.
  • Over long time scales, oceanic crust containing limestone sediments is forced downward into Earth's mantle at points where plates collide, a process called subduction. Eventually, the limestone heats up and turns the limestone back into CO2, which travels back up to the surface with magma. Volcanic activity then returns CO2 to the atmosphere.

Question 12

Question
What´s the fourth basic stage of sink process:
Answer
  • Over long time scales, oceanic crust containing limestone sediments is forced upward into Earth's mantle at points where plates collide, a process called subduction. Eventually, the limestone heats up and turns the limestone back into CO2, which travels back up to the surface with magma. Volcanic activity then returns CO2 to the atmosphere.
  • Over long time scales, oceanic crust containing limestone sediments is forced downward into Earth's mantle at points where plates collide, a process called subduction. Eventually, the limestone heats up and turns the limestone back into CO2, which travels back up to the surface with magma. Volcanic activity then returns CO2 to the atmosphere.

Question 13

Question
What`s the balance that has kept the Earth`s climate stable through most of its history?
Answer
  • The balance between CO2 outgassing from volcanoes and CO2 conversion to calcium carbonate through silicate weathering has kept the Earth's climate stable through most of its history.
  • The balance between CO2 outgassing from volcanoes and CO2 conversion to wood and oxygen through forest photosysthesis has kept the Earth's climate stable through most of its history.
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