Carbon cycle
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Jan 14, 2015
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Slide Content
What Is Carbon?
An element
The basis of life of earth
Found in rocks, oceans, atmosphere
An element
The basis of life of earth
Found in rocks, oceans, atmosphere
Carbon Cycle
The same carbon atoms are used
repeatedly on earth. They cycle between
the earth and the atmosphere.
The same carbon atoms are used
repeatedly on earth. They cycle between
the earth and the atmosphere.
Plants Use Carbon Dioxide
Plants pull carbon dioxide from the
atmosphere and use it to make food –—
photosynthesis.
The carbon becomes part of the plant
(stored food).
Plants pull carbon dioxide from the
atmosphere and use it to make food –—
photosynthesis.
The carbon becomes part of the plant
(stored food).
Animals Eat Plants
When organisms eat plants, they take in
the carbon and some of it becomes part
of their own bodies.
When organisms eat plants, they take in
the carbon and some of it becomes part
of their own bodies.
Plants and Animal Die
When plants and animals die, most of
their bodies are decomposed and
carbon atoms are returned to the
atmosphere.
Some are not decomposed fully and end
up in deposits underground (oil, coal,
etc.).
When plants and animals die, most of
their bodies are decomposed and
carbon atoms are returned to the
atmosphere.
Some are not decomposed fully and end
up in deposits underground (oil, coal,
etc.).
Carbon Slowly Returns to Atmosphere
Carbon in rocks and underground
deposits is released very slowly into the
atmosphere.
This process takes many years.
Carbon in rocks and underground
deposits is released very slowly into the
atmosphere.
This process takes many years.
Cycle – Repeats Over and
Over and Over and Over …
Over and Over and Over …
Carbon Cycle Diagram
Carbon in Atmosphere
Plants use
carbon to make
food
Animals eat
plants and
take in
carbon
Plants and
animals die
Decomposers
break down dead
things, releasing
carbon to
atmosphere and
soil
Bodies not
decomposed —
after many
years, become
part of oil or
coal deposits
Fossil fuels are
burned; carbon
is returned to
atmosphere
Carbon slowly
released from
these substances
returns to
atmosphere
Carbon in Atmosphere
Plants use
carbon to make
food
Animals eat
plants and
take in
carbon
Plants and
animals die
Decomposers
break down dead
things, releasing
carbon to
atmosphere and
soil
Bodies not
decomposed —
after many
years, become
part of oil or
coal deposits
Fossil fuels are
burned; carbon
is returned to
atmosphere
Carbon slowly
released from
these substances
returns to
atmosphere
Carbon in Oceans
Additional carbon is stored in the ocean.
Many animals pull carbon from water to use in
shells, etc.
Animals die and carbon substances are
deposited at the bottom of the ocean.
Oceans contain earth’s largest store of carbon.
Additional carbon is stored in the ocean.
Many animals pull carbon from water to use in
shells, etc.
Animals die and carbon substances are
deposited at the bottom of the ocean.
Oceans contain earth’s largest store of carbon.
The Carbon Cycle
Human Impact
Fossil fuels release carbon stores very
slowly
Burning anything releases more carbon
into atmosphere — especially fossil fuels
Increased carbon dioxide in atmosphere
increases global warming
Fewer plants mean less CO
2
removed
from atmosphere
Fossil fuels release carbon stores very
slowly
Burning anything releases more carbon
into atmosphere — especially fossil fuels
Increased carbon dioxide in atmosphere
increases global warming
Fewer plants mean less CO
2
removed
from atmosphere
What We Need to Do
Burn less, especially fossil fuels
Promote plant life, especially trees
Burn less, especially fossil fuels
Promote plant life, especially trees
Carbon reservoirs
Carbon Cycle
Carbon is released into the
atmosphere in several ways
Respiration by plants and animals.
Decay of animal and plant matter.
Combustion of organic material
Production of cement.
The ocean releases CO2 into the atmosphere.
Volcanic eruptions and metamorphism
atmosphere in several ways
Respiration by plants and animals.
Decay of animal and plant matter.
Combustion of organic material
Production of cement.
The ocean releases CO2 into the atmosphere.
Volcanic eruptions and metamorphism
Carbon is taken from the
atmosphere in several ways
Photosynthesis.
The oceans when the seawater becomes
cooler, more CO
2
dissolve and become
carbonic acid.
In the upper ocean areas organisms
convert reduced carbon to tissues, or
carbonates.
atmosphere in several ways
Photosynthesis.
The oceans when the seawater becomes
cooler, more CO
2
dissolve and become
carbonic acid.
In the upper ocean areas organisms
convert reduced carbon to tissues, or
carbonates.
Photosynthesis
CO
2
+ H
2
O + sunlight CH
2
O + O
2
CO
2
+ H
2
O + sunlight CH
2
O + O
2
Respiration
CH
2
O + O
2
CO
2
+ H
2
O + energy
CH
2
O + O
2
CO
2
+ H
2
O + energy
Combustion or Oxidization of
hydrocarbon
CH
4
+ 2 O
2
CO
2
+ 2 H
2
O + energy
hydrocarbon
CH
4
+ 2 O
2
CO
2
+ 2 H
2
O + energy
Human Impacts on the Carbon
Cycle
Burning fossil fuels have serious impact
on the carbon cycle.
Cycle
Burning fossil fuels have serious impact
on the carbon cycle.
Fossil Fuel
86% of global primary energy
consumption is fossil fuels.
86% of global primary energy
consumption is fossil fuels.
Fossil Fuels
•Petroleum
•Natural
Gas
•Coal
•Petroleum
•Natural
Gas
•Coal
CO2
Concentration
Pre-Industrial value: 280 ppm (600 billion tons)
Current value: 380 ppm (800 billion tons)
Critical value: 560 ppm (1200 billion tons)
Concentration
Pre-Industrial value: 280 ppm (600 billion tons)
Current value: 380 ppm (800 billion tons)
Critical value: 560 ppm (1200 billion tons)
Organic Carbon
Hydrocarbons: CH
4
Carbohydrate: CH
2
O
Hydrocarbons: CH
4
Carbohydrate: CH
2
O
Inorganic carbon
Carbon Dioxide: CO
2
Calcium Carbonate: CaCO
3
Mandale Limestone Quarry
Carbon Dioxide: CO
2
Calcium Carbonate: CaCO
3
Mandale Limestone Quarry
Carbon reservoirs
•The atmosphere.
•The biosphere (include fresh water systems and non-living
organic material, such as soil carbon).
•The oceans ( including dissolved inorganic carbon and
living and non-living marine biota).
•The lithosphere (sediments, Earth core including fossil fuels).
•The atmosphere.
•The biosphere (include fresh water systems and non-living
organic material, such as soil carbon).
•The oceans ( including dissolved inorganic carbon and
living and non-living marine biota).
•The lithosphere (sediments, Earth core including fossil fuels).
Carbon
Carbon exists in the nonliving
environment as:
Carbon dioxide (CO2)
Carbonic acid ( HCO
3
−
)
Carbonate rocks (limestone and coral =
CaCO
3
)
Deposits of Fossil fuels
Dead organic matter
Carbon exists in the nonliving
environment as:
Carbon dioxide (CO2)
Carbonic acid ( HCO
3
−
)
Carbonate rocks (limestone and coral =
CaCO
3
)
Deposits of Fossil fuels
Dead organic matter
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