HSC Geography · Teaching presentation

12.2 Land Cover Change at a Global Scale

Deforestation · desertification · retreating ice · the global response
Laptops down · copy the ✍️ notebook boxes as we go

What we're doing today ✍️ Copy into your notebook

12.1 covered the drivers of change. Today we map the three big changes to Earth's land surface — and how the world is responding.

By the end you can:

  • define land cover change & its three global forms;
  • explain deforestation's double blow (biodiversity + carbon);
  • describe the desertification cycle (the Sahel);
  • account for retreating ice & why it matters;
  • evaluate the 2022 “30×30” agreement.
Deforestation — the tropics
Desertification — the drylands

Three global changes ✍️ Copy into your notebook

Land cover change — alteration of Earth's land surface, largely by humans — big consequences for biodiversity, the carbon cycle and climate.

Each clusters by climate zone:

  • Deforestation — the humid tropics.
  • Desertification — the dry subtropics (e.g. the Sahel).
  • Retreating ice — the poles & high mountains.

All three are driven or accelerated by people, and all three feed back into the climate — so they're studied together as one focus area.

Different landscapes, one story: humans reshaping the land surface at a global scale.
Ice loss — poles & peaks
Drylands under pressure
📘 Syllabus: Human–Environment Interactions · land cover change🧭 Skill: Describing spatial patterns
Change 1

Deforestation

Deforestation: a double blow ✍️ Copy into your notebook

DEFORESTATION forest cleared & burned Biodiversity loss • Habitats destroyed • Species to extinction • Ecosystems destabilised Carbon released • Stored carbon → air • A carbon sink destroyed • Warming accelerates

Forests are cleared for cattle, soy, palm oil, logging, mining and roads, and the rate has accelerated in the tropics. The scale is tracked live by Global Forest Watch and audited every five years in the FAO Forest Resources Assessment.

Both effects at once: biodiversity falls AND carbon rises.
The forest numbers
  • Forests cover ~31% of Earth's land area (FAO).
  • Tropical rainforests hold over half of land species.
  • ~10 million hectares of forest cleared each year.
  • Deforestation ≈ 10% of human CO₂ emissions.
  • The Amazon: ~17–20% already cleared.
📘 Syllabus: Human–Environment Interactions · land cover change🧭 Skill: Cause & consequence

Case study: the Amazon ✍️ Copy into your notebook

More than half the world's remaining tropical rainforest

Roughly 17–20% of the Amazon has been cleared, mainly for cattle pasture and soy, plus logging, mining and roads. It is a vast carbon store and holds enormous biodiversity.

Scientists warn of a dieback tipping point: if too much is cleared, parts of the rainforest could dry out and flip permanently to savanna — releasing its stored carbon and worsening global warming. You can watch the clearing fronts advance in near real time on Global Forest Watch.

🤔 Reflect & discuss

Why is losing the Amazon a global problem, not just a Brazilian one?

The Amazon from space
Restoration & alternatives
📘 Syllabus: Human–Environment Interactions · land cover change🧭 Skill: Environment · interconnection

Watch: deforestation, in three minutes ✍️ Copy into your notebook

Before we turn to the global response, watch this short explainer from National Geographic. It ties the whole causal chain together — why forests are cleared, what is lost, and how that loss feeds back into the climate. Treat it as a model of how to link cause to consequence in a single paragraph, and pair it with the live data on Global Forest Watch.

▶ Watch: Climate 101: Deforestation — National Geographic (click → opens on YouTube)

As you watch, note: (1) the main drivers of clearing named; (2) two consequences — one for biodiversity, one for carbon; (3) one solution the film puts forward.

📘 Syllabus: Human–Environment Interactions · land cover change🧭 Skill: Synthesising evidence
The response

Protecting land & oceans

“30×30” — the 2022 agreement ✍️ Copy into your notebook

Kunming–Montreal Global Biodiversity Framework (COP15, Dec 2022)

Land cover change is a global problem, so the response is international. At the UN Biodiversity Conference in Montreal, December 2022, roughly 196 governments (parties to the UN Convention on Biological Diversity) adopted the Kunming–Montreal Global Biodiversity Framework — a package of 23 targets.

Its flagship target — “30×30” — is to protect 30% of the planet's land and oceans by 2030. It also commits nations to restore degraded ecosystems, cut harmful subsidies, and respect Indigenous rights. Australia is a party and has adopted the 30×30 goal.

Evaluate it: near-universal & measurable, but voluntary — funding & enforcement are the real test.
Evaluate the response
  • Strength — near-universal participation (~196 nations).
  • Strength — a single, clear, measurable target (30%).
  • Strength — covers restoration, not just protection.
  • Limit — targets are voluntary & self-set.
  • Limit — weak enforcement; the earlier Aichi targets were missed.
  • Limit — funding gaps & “paper parks” (protected only on paper).
📘 Syllabus: Human–Environment Interactions · land cover change🧭 Skill: Evaluating a management strategy
Change 2

Desertification

The desertification cycle ✍️ Copy into your notebook

Desertification — land degradation in dry areas, from human activity + climate variation, causing a persistent loss of productivity.
Overgrazing / clearing& drought Vegetation lostsoil exposed Soil erosionless water held Lower fertilitycrops fail

It affects over 100 countries: clearing/overgrazing plus drought strip vegetation → soil erodes → fertility falls → more pressure on what's left.

The dryland numbers
  • Desertification affects over 100 countries.
  • Drylands cover ~40% of Earth's land surface.
  • Home to roughly 2 billion people.
  • Both human (overgrazing, clearing) & climatic (drought) drivers.
  • A positive feedback: erosion → lower fertility → more pressure.
📘 Syllabus: Human–Environment Interactions · land cover change🧭 Skill: Reading a systems diagram

Case study: the Sahel ✍️ Copy into your notebook

The semi-arid belt south of the Sahara

The Sahel faces desertification from a mix of drought, overgrazing, fuel-wood collection and rapid population growth. As vegetation is stripped, soils erode and lose fertility, forcing communities onto ever-poorer land.

The impacts are severe: falling crop yields, food and water insecurity, and displacement. The main response is the Great Green Wall — an ambitious pan-African effort to restore a band of vegetation right across the continent, planned as an 8,000 km belt aiming to restore 100 million hectares of degraded land by 2030.

Causes + human impacts + a named response = a complete place study.
Sahel drylands under pressure
Degraded, eroded soil
📘 Syllabus: Human–Environment Interactions · land cover change🧭 Skill: Environment · sustainability
Change 3

Retreating glaciers & ice

Ice in retreat ✍️ Copy into your notebook

Ice is both a freshwater store and a driver of sea-level rise — so its loss hits water supply and coasts.

  • Kilimanjaro — over 80% of its ice lost since 1912.
  • Himalayas (“Third Pole”) — feed rivers for ~2 billion people.
  • Greenland — losing mass, raising seas.
Retreating mountain glacier
Greenland ice sheet melt
📘 Syllabus: Human–Environment Interactions · land cover change🧭 Skill: Describing change over time

Watching from space ✍️ Copy into your notebook

Satellite monitoring of Greenland's glaciers (2000–2020)

Polar and mountain regions are remote and vast, so measuring ice change on the ground is impractical. Instead, scientists use satellite imagery and remote sensing to track glaciers consistently over wide areas and long periods.

Studies of Greenland's marine-terminating glaciers map exactly where ice is being lost fastest. This data feeds directly into sea-level-rise projections and government policy — a live example of spatial technologies as a geographical tool.

Remote sensing turns an inaccessible problem into measurable, mappable data.
Marine-terminating glaciers
Shrinking sea ice
📘 Syllabus: Human–Environment Interactions · land cover change🧭 Skill: Spatial technologies
Big picture

The Anthropocene

A human-shaped planet ✍️ Copy into your notebook

Anthropocene — a proposed geological epoch defined by humans being the dominant influence on Earth's systems — visible in land cover, climate, biodiversity and even sediment layers.

Taken together, deforestation, desertification and ice loss are so widespread that many scientists argue human activity is now a planetary geological force — comparable to the natural processes that shaped past epochs.

This raises a big question for geographers: if every environment now bears a human fingerprint, can any system still be studied as if it were “natural”?

🤔 Reflect & discuss

“There is no longer such a thing as a purely natural system.” Argue for and against.

Land reshaped by people
Even the ice bears our fingerprint
📘 Syllabus: Human–Environment Interactions · land cover change🧭 Skill: Change · scale

Extended response ✍️ Copy into your notebook

“Explain the causes and impacts of land cover change, and evaluate ONE response.”
Intro — define land cover change; name its three forms.
Body 1 — causes (deforestation, desertification, ice loss) with a place study each.
Body 2 — impacts: biodiversity, carbon, water, people.
Body 3 — evaluate ONE response (30×30 or the Great Green Wall) — strengths & limits.
Conclusion — a clear judgement on the response's effectiveness.
What lifts a response
  • Evaluate = a weighed judgement, not a description.
  • Use specific place studies (Amazon, Sahel, Greenland).
  • Link causes to impacts (carbon, biodiversity, water).
  • Weigh a response's strengths vs limits.
  • Use the concepts: sustainability, scale, interconnection.
📘 Syllabus: Human–Environment Interactions · land cover change🧭 Skill: Extended response

Sources & explore further ✍️ Copy into your notebook

Every claim in this lesson traces back to a primary source — a monitoring platform, a global assessment or an official agreement. Use these to check the data yourself and to build a research task. Being able to name and cite a source is exactly what lifts a Band 5–6 response above a Band 3–4 one.

Primary source — original data or an official document, not someone's summary of it. Cite these, not a random blog.
📘 Syllabus: Human–Environment Interactions · land cover change🧭 Skill: Referencing sources

Glossary recap ✍️ Copy into your notebook

Land cover change — alteration of Earth's land surface, largely by human activity.
Deforestation — permanent clearing of forest for other land uses.
Desertification — land degradation in dry areas — a persistent loss of productivity.
Carbon sink — a store that absorbs more carbon than it releases (forests, oceans).
30×30 — the 2022 goal to protect 30% of land & oceans by 2030.
Anthropocene — the proposed epoch of human dominance over Earth's systems.
Spatial technologies — tools such as satellite imagery & GIS used to monitor change.
Great Green Wall — an African effort to restore a band of vegetation across the Sahel.
Biodiversity — the variety of living things in an area — lost fastest through deforestation.
Next chapter

13. Climate Change

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