The Carbon Cycle | Biology

📖 In-Depth Theory

Why Carbon Must Be Recycled

Carbon is the backbone of ALL organic molecules — carbohydrates, proteins, fats, DNA. Life as we know it is CARBON-BASED.

The total amount of carbon on Earth is fixed — it cannot be created or destroyed.

Carbon must be RECYCLED — continuously moving between living organisms, the atmosphere, oceans, soil and rocks.

The CARBON CYCLE describes how carbon atoms move through these different stores (also called reservoirs or sinks).

Main carbon stores:

ATMOSPHERE — as CO₂ and methane (CH₄).

LIVING ORGANISMS — carbon in organic molecules (glucose, proteins, fats, DNA).

SOIL — carbon in decomposing organic matter (humus).

OCEANS — dissolved CO₂ and carbonate in shells.

FOSSIL FUELS — coal, oil, gas (ancient organic carbon locked underground).

ROCKS — limestone (CaCO₃) formed from shells of ancient marine organisms.

Processes in the Carbon Cycle

REMOVING CO₂ FROM THE ATMOSPHERE:

PHOTOSYNTHESIS — plants and algae absorb CO₂ and convert it to glucose. Carbon is incorporated into the plant's biomass.

DISSOLUTION IN OCEANS — CO₂ dissolves in seawater to form carbonic acid. Marine organisms use dissolved carbon to make calcium carbonate (CaCO₃) shells.

RETURNING CO₂ TO THE ATMOSPHERE:

RESPIRATION — ALL living organisms (plants, animals, fungi, bacteria) respire, releasing CO₂ as glucose is broken down.

DECOMPOSITION — microorganisms (bacteria and fungi) break down dead organic matter, releasing CO₂ and returning carbon to the atmosphere and soil.

COMBUSTION — burning of organic material (wood, coal, oil, gas) releases CO₂ rapidly into the atmosphere.

VOLCANIC ACTIVITY — releases CO₂ from underground carbon stores (lava, volcanic gases).

LONG-TERM CARBON STORAGE:

FOSSILISATION — over millions of years, the remains of organisms become compressed into fossil fuels (coal from ancient forests, oil and gas from marine organisms).

Burning fossil fuels releases this long-term stored carbon rapidly — adding CO₂ to the atmosphere FASTER than natural processes can remove it → CLIMATE CHANGE.

Human Impact on the Carbon Cycle

Human activities are disrupting the carbon cycle by adding CO₂ to the atmosphere faster than it can be removed.

BURNING FOSSIL FUELS — coal, oil and natural gas burn to release CO₂ that has been stored underground for millions of years.

DEFORESTATION:

Felling trees removes photosynthesising plants → less CO₂ absorbed.

Burning or rotting felled trees releases CO₂.

Double negative impact on atmospheric CO₂.

CEMENT PRODUCTION — manufacturing cement releases CO₂ from limestone (CaCO₃ → CaO + CO₂).

RICE PADDY AGRICULTURE and LIVESTOCK — produce methane (CH₄), another greenhouse gas.

CONSEQUENCES OF RISING CO₂:

Enhanced greenhouse effect → global warming → climate change.

Ocean acidification — more CO₂ dissolves → more carbonic acid → threatens marine ecosystems (especially coral reefs and shell-forming organisms).

⚠️ Common Mistake

PLANTS also respire — they release CO₂ just like animals. The difference is that during the DAY, photosynthesis removes MORE CO₂ than respiration releases — so there is net CO₂ uptake. At night, only respiration occurs. Students often say 'plants absorb CO₂, they don't release it' — this is wrong.

📌 Key Note

CO₂ removed by: photosynthesis, dissolution in oceans. CO₂ returned by: respiration (all organisms), decomposition, combustion, volcanic activity. Fossil fuels = long-term carbon store. Burning them releases ancient carbon rapidly → climate change.

🎯 Matching Activity — Carbon Cycle — Removes or Returns CO₂?

Sort each process into removing CO₂ from or returning CO₂ to the atmosphere. — drag the symbols on the right to match the component names on the left.

Removes CO₂

Drop here

Returns CO₂

Drop here

Returns CO₂

Drop here

Removes CO₂

Drop here

Returns CO₂

Drop here

Returns CO₂

Drop here

Combustion — burning wood or fossil fuels releases CO₂

Decomposition — bacteria and fungi release CO₂ from dead organic matter

Dissolution in oceans — CO₂ absorbed into seawater

Volcanic activity — releases CO₂ from underground carbon stores

Photosynthesis — plants convert CO₂ into glucose using light energy

Respiration — all living organisms release CO₂ as they break down glucose

⭐ Higher Tier Only

Human impacts on the carbon cycle: burning fossil fuels releases ancient sequestered carbon rapidly; deforestation removes carbon sinks AND releases stored carbon. Rising atmospheric CO₂ enhances the greenhouse effect causing global warming and climate change. Ocean acidification — CO₂ dissolves in seawater forming carbonic acid — threatens coral reefs and shell-forming organisms. Students should understand the distinction between the short-term carbon cycle and the long-term geological cycle.

🎯 Test Yourself

Question 1 of 2

1. Why does burning fossil fuels increase atmospheric CO₂ more than burning wood?

2. How does deforestation affect atmospheric CO₂ levels?

⭐ How Well Do You Understand This Topic?

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🌿 The Carbon Cycle

Why Carbon Must Be Recycled

Processes in the Carbon Cycle

Human Impact on the Carbon Cycle

Mr. Badmus AI