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Carbon Cycle

Carbon cycle shows the movement of carbon in elemental and combined states on earth. Diamond and graphite are the elemental forms of carbon and in combined state, it is found as carbonates in minerals and as carbon dioxide gas in the atmosphere.

Table of Contents

Read on to explore the definition and the steps involved in the carbon cycle.  Also learn the various elements of the carbon cycle diagram.

Carbon Cycle Definition

Carbon cycle is the process where carbon compounds are interchanged among the biosphere, geosphere, pedosphere, hydrosphere, and atmosphere of the earth.

Carbon Cycle Steps

Following are the major steps involved in the process of the carbon cycle:

  1. Carbon present in the atmosphere is absorbed by plants for photosynthesis.
  2. These plants are then consumed by animals and carbon gets bioaccumulated into their bodies.
  3. These animals and plants eventually die, and upon decomposing, carbon is released back into the atmosphere.
  4. Some of the carbon that is not released back into the atmosphere eventually become fossil fuels.
  5. These fossil fuels are then used for man-made activities, which pumps more carbon back into the atmosphere.

Also Read: Biogeochemical Cycles

Carbon Cycle Diagram

The carbon cycle diagram below elaborates the flow of carbon along different paths.

Carbon Cycle

Carbon Cycle diagram showing the flow of carbon, its sources and paths.

Carbon Cycle on Land

Carbon in the atmosphere is present in the form of carbon dioxide. Carbon enters the atmosphere through natural processes such as respiration and industrial applications such as burning fossil fuels. The process of photosynthesis involves the absorption of CO2 by plants to produce carbohydrates. The equation is as follows:

CO2 + H2O + energy \(\rightarrow\) (CH2O)n +O2

Carbon compounds are passed along the food chain from the producers to consumers. The majority of the carbon exists in the body in the form of carbon dioxide through respiration. The role of decomposers is to eat the dead organism and return the carbon from their body back into the atmosphere. The equation for this process is:

(CH2O)n +O2 \(\rightarrow\) CO2 + H2O

Oceanic Carbon Cycle

This is essentially a carbon cycle but in the sea. Ecologically, oceans take in more carbon than it gives out. Hence, it is called a “carbon sink.” Marine animals convert carbon to calcium carbonate and this forms the raw building materials require to create hard shells, similar to the ones found in clams and oysters.

When organisms with calcium carbonate shells die, their body decomposes, leaving behind their hard shells. These accumulate on the seafloor and are eventually broken down by the waves and compacted under enormous pressure, forming limestone.

When these limestone rocks are exposed to air, they get weathered and the carbon is released back into the atmosphere as carbon dioxide.

Importance of Carbon Cycle

Even though carbon dioxide is found in small traces in the atmosphere, it plays a vital role in balancing the energy and traps the long-wave radiations from the sun. Therefore, it acts like a blanket over the planet. If the carbon cycle is disturbed it will result in serious consequences such as climatic changes and global warming.

Carbon is an integral component of every life form on earth. From proteins and lipids to even our DNA. Furthermore, all known life on earth is based on carbon. Hence, the carbon cycle, along with the nitrogen cycle and oxygen cycle, plays a vital role in the existence of life on earth.

Key Points on Carbon Cycle

  • Carbon cycle explains the movement of carbon between the earth’s biosphere, geosphere, hydrosphere and atmosphere.
  • Carbon is an important element of life.
  • Carbon dioxide in the atmosphere is taken up by the green plants and other photosynthetic organisms and is converted into organic molecules that travel through the food chain. Carbon atoms are then released as carbon dioxide when organisms respire.
  • The formation of fossil fuels and sedimentary rocks contribute to the carbon cycle for very long periods.
  • The carbon cycle is associated with the availability of other compounds as well.

Further Reading: Nitrogen Cycle – An Elemental Cycle

Explore more information about the carbon cycle, its definition, process, carbon cycle diagram, or any other related topics by registering at CoolGyan’S.

Frequently Asked Questions

What is the carbon cycle? Explain.

Carbon Cycle is a biogeochemical cycle where various carbon compounds are interchanged among the various layers of the earth, namely, the biosphere, geosphere, pedosphere, hydrosphere and atmosphere.

What are the 4 steps of the carbon cycle?

  • Carbon enters the atmosphere as CO2
  • CO2 is absorbed by autotrophs such as green plants
  • Animals consume plants, thereby, incorporating carbon into their system
  • Animals and plants die, their bodies decompose and carbon is reabsorbed back into the atmosphere.

What are the types of the carbon cycle?

Carbon Cycle can be classified into two types based on the duration of the process into two types:

  • Short term – This type occurs within a relatively short period of time. It is named as such because it takes just days, months or years for carbon to flow across the various carbon reservoirs.
  • Long term – This type takes thousands of years to occur. The excess carbon from the short-term cycle is stored for a long time before they are released.

Why is the carbon cycle important?

Carbon Cycle is an important aspect of the survival of all life on earth. From an environmental perspective, carbon provides insulation by trapping the sun’s heat. From a biological perspective, carbon is the building block of life and forms stable bonds with other elements necessary for life.