A landscape contrasting a steaming volcano with industrial smokestacks
Two kinds of cause — natural (volcanoes) and human (industry). Illustrative (AI-generated).
How to use this page

13.1 showed what the data reveals. This lesson explains why — separating natural causes (ice-age cycles, volcanoes) from human causes (disrupting the carbon cycle, the enhanced greenhouse effect). The key exam skill is showing why natural causes can't explain the recent, rapid change.

1 · Two kinds of cause

Climate has always changed — so the real question is what is driving the recent, rapid change.

Earth's climate has fluctuated over tens of thousands to millions of years, driven by natural forces. But the rate and magnitude of the change since ~1950 is unlike anything in the natural record — and it coincides exactly with industrialisation.

NATURAL CAUSES • Earth's orbit & tilt (ice-age cycles) • Solar output • Volcanic eruptions • Ocean circulation slow — thousands of years HUMAN CAUSES • Disrupting the carbon cycle • Burning fossil fuels (CO₂) • Deforestation (lost sink) • Enhanced greenhouse effect fast — ~250 years, rapid since 1950
Figure 13.2a — Natural causes operate slowly over millennia; human causes have driven a rapid change in ~250 years. The speed is the tell.

2 · Natural cause: ice-age cycles

The biggest natural climate driver — and why it doesn't fit today's warming.

Key term
Milankovitch cycles

Slow, regular changes in Earth's orbit and axial tilt that alter how much solar radiation reaches the surface, pacing the ice ages over tens of thousands to 100,000+ years.

There have been at least five major ice ages, with glaciation and warming phases set by these orbital cycles. When more solar radiation reaches Earth, glaciation ends and a warming phase begins. These cycles are slow — the current warming is far too fast, and out of step with the orbital timing, to be one of them.

Exam tip — rule it out

To argue humans are the cause, you must rule out the natural ones. Ice-age cycles are ruled out by timing and speed: today's warming is orders of magnitude faster and doesn't match the orbital schedule.

3 · Natural cause: volcanic activity

Volcanoes can shift the climate — but the wrong way, and by too little.

Large eruptions inject sulphur dioxide and ash high into the atmosphere, reflecting sunlight and causing short-term cooling. They also release CO₂ — but far less than humans do.

Case study · Natural forcing
Mount Pinatubo eruption, 1991

Pinatubo (Philippines) released about 20 million tonnes of sulphur dioxide, which cooled global temperatures by roughly 0.5 °C for about one to two years. Yet the annual CO₂ released by all the world's volcanoes is far less than human emissions.

Shows volcanoes cause short-term cooling (not warming) and are dwarfed by human CO₂ — so they can't explain sustained warming. Concepts: environment, change, interconnection.

EnvironmentChange
Accuracy note

The Pinatubo cooling is commonly cited as about 0.5 °C (some sources 0.4–0.6 °C). Use “about 0.5 °C” and attribute to a reputable source (e.g. NASA/USGS).

4 · Human cause: disrupting the carbon cycle

The single biggest driver of the crisis — humans breaking a balanced cycle.

Key term
The carbon cycle

The natural movement of carbon between the atmosphere, land (plants, soil) and oceans. Photosynthesis and ocean uptake normally keep atmospheric CO₂ roughly in balance.

ATMOSPHERE (CO₂) Plants & soil photosynthesis (sink) Oceans absorb CO₂ (sink) HUMANS: fossil fuels + deforestation (removes sinks) extra CO₂ in
Figure 13.2b — The carbon cycle. Green arrows are the balanced natural exchange (plants and oceans as sinks). The red arrow is the human disruption: fossil fuels add carbon faster than the sinks can remove it — and deforestation removes sinks.

Fossil-fuel burning releases carbon that was locked underground for millions of years, while deforestation removes the plants that would absorb it. The result is a net rise in atmospheric CO₂ — the single biggest cause of current climate change.

5 · Human cause: the enhanced greenhouse effect

More greenhouse gas traps more heat — the mechanism that turns CO₂ into warming.

The greenhouse effect is natural and essential — it keeps Earth warm enough to live on. The problem is the enhanced greenhouse effect: extra greenhouse gases (CO₂, methane, nitrous oxide) trap more outgoing heat, raising surface temperatures.

Natural greenhouse Enhanced (human) greenhouse some heat escapes thicker greenhouse-gas layer more heat trapped → warming
Figure 13.2c — Natural vs enhanced greenhouse effect. Adding greenhouse gases thickens the “blanket,” so more outgoing heat is trapped and the surface warms.
Reflect & discuss
If the greenhouse effect is natural and necessary, why is it a problem now?
The natural greenhouse effect keeps Earth ~33 °C warmer than it would otherwise be — essential for life. The problem is that human emissions have enhanced it, trapping extra heat and pushing the climate beyond the range life and societies are adapted to. It's not the effect itself, but the human-caused increase.

6 · The clincher: 800,000 years of CO₂

The single most persuasive piece of evidence for a human cause.

Ice cores let scientists read atmospheric CO₂ back 800,000 years. Across that whole span, CO₂ never rose above about 300 ppm — until the industrial era. It then shot past 300, reached about 410 ppm by 2019, and is now over 420 ppm.

300 ppm — never exceeded for 800,000 years 300220420 800,000 yrs agotoday CO₂ (ppm) >420 ppm
Figure 13.2d — CO₂ over 800,000 years (schematic, based on ice-core records). It oscillated well below 300 ppm through every natural ice-age cycle, then spiked far above it in the industrial era — the human fingerprint.
Exam tip — the killer argument

This graph is the strongest single line of evidence: today's CO₂ is outside the entire natural range of the last 800,000 years, and the spike lines up exactly with industrialisation. Natural cycles cannot produce it.

7 · Checkpoint

Check you can do these before moving to 13.3 (Impacts).

You should now be able to…

  • Separate natural causes (ice-age cycles, volcanoes) from human causes.
  • Explain why ice-age cycles and volcanoes can't explain the recent warming (timing/speed; cooling; small CO₂).
  • Explain how humans disrupt the carbon cycle (fossil fuels + deforestation).
  • Distinguish the natural from the enhanced greenhouse effect.
  • Use the 800,000-year CO₂ record as the clinching evidence.
Where this is heading

13.2 established the causes. 13.3 Impacts examines the consequences (environmental and human), then 13.4 Responses looks at challenges, opportunities and responses — with Costa Rica as a case study.

8 · Resources, news & skills

Everything in this chapter traces to a source you can check. Watch the explainer, read the primary sources, follow the news, and practise the geographical skills this chapter uses.

▶ Watch

Authoritative sources

Recent news & reading

Skills applied — practise with the tool-skills suite

  • Standard graphs — read the Keeling Curve and CO2 line graphs used throughout this chapter.
  • Statistics — work with long-record data and distinguish correlation from causation.