GEOGRAPHY – CLASS 11 (COURSE A)

CHAPTER 5: LANDFORMS & GEOMORPHIC PROCESSES

1. INTRODUCTION

• The Earth’s surface is not uniform; it shows mountains, plateaus, plains, valleys, canyons, dunes, beaches, deltas etc.
• These physical features are called landforms.
• Landforms are continuously shaped and reshaped by geomorphic processes.
• Geomorphic processes operate due to energy transfers within and outside the Earth.
• Broadly, they are divided into:
  • Endogenic processes → originate inside the Earth.
  • Exogenic processes → operate on the surface of the Earth.
• The balance and interaction between these processes create the dynamic nature of the Earth’s crust.

2. LANDFORMS & GEOMORPHIC PROCESSES

2.1 Landforms

• Landforms are large natural features found on the Earth’s surface.
• They are produced by:
  • Tectonic forces
  • Volcanic activities
  • Weathering
  • Erosion
  • Transportation
  • Deposition
• Landforms are classified as:
  • Primary landforms = created by internal forces (mountain ranges, rift valleys).
  • Secondary landforms = created by external forces (valleys, floodplains, deltas).
  • Tertiary landforms = modified forms of older landforms.

2.2 Geomorphic Processes

• Geomorphic processes refer to natural forces that shape the Earth’s crust.
• They involve the movement of matter (soil, rock, water, ice) through energy.
• Energy sources include:
  • Earth’s interior heat
  • Sun’s radiation
  • Gravity
  • Atmospheric forces
• Processes occur either through:
  • Degradation → wearing down of the surface.
  • Aggradation → building up of material on the surface.

3. ENDOGENIC PROCESSES

Endogenic processes originate from within the Earth, driven by internal heat, pressure, and mantle convection.

3.1 Characteristics

• Responsible for broad, large-scale landforms.
• Energy source: radioactive decay, mantle convection, gravitational pressure.
• Effects are sudden (earthquakes, volcanic eruptions) or slow (folding, faulting).
• They create mountains, plateaus, rift systems, volcanoes and uplifted crust.

3.2 Types of Endogenic Processes

1. Diastrophism (Crustal deformation)
2. Volcanism

4. DIASTROPHISM

Diastrophism includes all processes that cause the Earth’s crust to bend, fold, fracture or uplift.

4.1 Components of Diastrophism

A. Orogenic Processes (Mountain-building)

• Involves intense compression.
• Creates:
  • Fold mountains (Himalayas, Rockies)
  • Fault-block mountains
  • Thrust belts

B. Epeirogenic Processes (Continent-building)

• Slow uplift or subsidence of large crustal areas.
• Form broad warping, plateaus, coastal submergence and uplifted peneplains.

C. Folding

• Rocks bend due to compressional forces.
• Produces:
  • Anticlines (upfolds)
  • Synclines (downfolds)
  • Fold mountain chains

D. Faulting

• Rocks crack due to tension/compression.
• Produces:
  • Rift valleys
  • Block mountains
  • Fault scarps
• Important faults:
  • East African Rift
  • San Andreas Fault

4.2 Effects of Diastrophism

• Formation of mountain arcs
• Uplift of plateaus
• Creation of basins
• Earthquakes
• Volcanic pathways

5. VOLCANISM

Volcanism includes all processes through which magma rises to the Earth’s surface.

5.1 Types of Volcanic Materials

1. Lava → molten rock
2. Pyroclasts → ash, cinders, bombs
3. Gases → CO₂, SO₂, water vapor

5.2 Intrusive Volcanic Forms

When magma cools inside the crust:

• Batholith
• Laccolith
• Lopolith
• Dykes
• Sills

5.3 Extrusive Volcanic Forms

When magma reaches the surface:

• Lava plateaus
• Shield volcanoes
• Composite cones
• Caldera
• Flood basalts

5.4 Importance of Volcanism

• Fertile soils
• Mineral deposits
• Creation of new land (Hawaii)
• Formation of volcanic mountains
• Geothermal energy

6. EXOGENIC PROCESSES

Exogenic processes originate at the Earth’s surface, driven by:

• Solar radiation
• Atmospheric motion
• Gravity
• Hydrological cycle

6.1 Main Exogenic Processes

1. Weathering
2. Mass movement
3. Erosion
4. Deposition

These processes work together to sculpt the Earth’s surface.

7. MASS MOVEMENTS

Mass movement involves downslope movement of rock, soil and debris under gravity.

7.1 Characteristics

• No external agent (river, glacier, wind) is involved.
• Operates on slopes due to gravitational pull.
• Influenced by weathering, water content, slope angle, and vegetation.

7.2 Types of Mass Movements

A. Rapid Mass Movements

1. Landslides
2. Rockfalls
3. Debris avalanches

B. Slow Mass Movements

1. Soil creep
2. Solifluction (in permafrost zones)

8. LANDSLIDES

8.1 Causes

• Steep slopes
• Heavy rainfall
• Earthquakes
• Deforestation
• Construction activities
• Weathering of rocks

8.2 Types

• Translational slides
• Rotational slides
• Debris flows
• Rock avalanches

8.3 Effects

• Destruction of life and property
• Blocking of rivers
• Soil loss
• Slope instability

8.4 Prevention and Control

• Afforestation
• Drainage management
• Slope terracing
• Retaining walls
• Land-use planning

9. EROSION AND DEPOSITION

Erosion is the removal of soil and rock by natural agents; deposition is the laying down of sediments.

9.1 Agents of Erosion

• Rivers
• Winds
• Glaciers
• Waves & currents

9.2 River Erosion Landforms

• V-shaped valleys
• Waterfalls
• Gorges
• Meanders
• Floodplains
• Deltas

9.3 Wind Erosion Landforms

• Deflation hollows
• Yardangs
• Mushroom rocks

9.4 Glacial Erosion Landforms

• U-shaped valleys
• Cirques
• Aretes
• Moraines

9.5 Marine Erosion Landforms

• Cliffs
• Sea arches
• Stacks
• Beaches

9.6 Deposition Landforms

• River → levees, deltas
• Wind → dunes, loess
• Glacier → moraine deposits
• Sea → beaches, spits, bars

10. SOIL-FORMING FACTORS

Soil formation is influenced by five major factors:

10.1 Climate

• Temperature and rainfall regulate weathering and organic activity.

10.2 Organisms

• Plants, animals, micro-organisms help in humus formation.

10.3 Parent Material

• Determines soil’s mineral composition, texture and color.

10.4 Topography

• Steep slopes → thin soil
• Gentle slopes → thick soil

10.5 Time

• Soil formation is slow; mature soils require thousands of years.

11. SOIL FORMATION (Pedogenesis)

Soil formation involves a combination of weathering, organic matter addition, and chemical processes.

11.1 Key Processes of Soil Formation

A. Weathering

• Breaks parent rock into small particles.

B. Humification

• Formation of humus from organic matter.

C. Leaching

• Washing away of nutrients downward by water.

D. Illuviation

• Deposition of materials in lower layers.

E. Eluviation

• Removal of materials from upper layers.

11.2 Soil Profile

Typical soil horizons:

• O-horizon → organic layer
• A-horizon (Topsoil) → minerals + humus
• B-horizon (Subsoil) → accumulation zone
• C-horizon → weathered parent rock
• R-horizon → hard bedrock

11.3 Types of Soils (General Classification)

• Alluvial soil
• Black soil
• Red soil
• Laterite soil
• Desert soil
• Mountain soil

12. CONCLUSION

• Earth’s landscape is continuously shaped by internal (endogenic) and external (exogenic) forces.
• Endogenic processes create large-scale structural features like mountains, rift valleys and plateaus.
• Exogenic processes such as weathering, mass movement, erosion and deposition constantly modify these features.
• Soil formation is also the result of long-term geomorphic processes combined with climatic and biological factors.
• The interaction of these processes makes the Earth’s surface dynamic, ever-changing and diverse.
• Understanding geomorphic processes helps in managing natural hazards (landslides, erosion), conserving soil, and planning sustainable development.