Glaciers and Glacial Landforms

Slides:

Advertisements

Similar presentations

Glaciers and Long Island

Advertisements

Glaciers, Desert, and Wind

GLACIAL LANDFORMS SHAPE MOUNTAINS

Chapter 13: Glacial Processes, Patterns and Associated Landforms

Glaciation of Canada.

The movement of sediments by wind, water, ice, or gravity.

Erosion: Deposition: AIM: Erosional and Depositional systems

DYNAMIC PLANET Glaciers

  Glacier: thick mass of ice, forms over land  Compaction and recrystallization of snow  Glacier Types: Glacier Types:  Valley (alpine) glaciers –

Form in high mountains where snow accumulates to sufficient depths so that it is compressed, compacted and recrystallized. For this reason glacial.

What is a Glacier? REVIEW = An accumulation of compacted snow & ice

Charity I. Mulig.

 As glaciers travel over land, glacial ice can erode the underlying bedrock.  This erosion can happen by:  Plucking  Abrasion.

Glaciers, Deserts, and Wind Chapter 6

Glaciers. A GLACIER forms when yearly snowfall in a region far exceeds the amount of snow and ice that melts during the summer months. Most of the world's.

GLACIERS CHAPTER 5 HONORS EARTH SCIENCE. What is a glacier? a thick mass of moving ice

Chapter 5: Section 2 Surface Processes and Landscapes

Ch. 5 Glaciers & Ice Ages p guided notes.

Charity I. Mulig.

‘S‘S. VOCABULARY GLACIER - LARGE MOVING MASS OF ICE THAT FORMS NEAR EARTH’S POLES AND IN MOUNTAINOUS REGIONS AT HIGH ELEVATIONS. GLACIER - LARGE MOVING.

Aim: What are Glaciers? I. Glacier – found at high altitudes and high latitudes. These are locations where more snow falls during the winter than melts.

Nature’s Bulldozers CGF3M Wed. Nov. 6, Glacial Erosion As glaciers move, they erode the land in two ways: plucking and abrasion. - Plucking occurs.

Chapter 3 Section 4 Glaciers. Moving mass of ice and snow Form when more snow falls than melts Agent of erosion.

Glacial Landforms 1.Alpine erosional landforms 2.Alpine depositional landforms 3.Continental glacial landforms (erosional and depositional.

Unit 1: Land and Water Forms Glaciers as Agents of Erosion

What is erosion? -Erosion is the removal of rock particles and soil from an area -Erosion requires energy (usually supplied by gravity)

Ch 15: p  Enormous masses of moving ice created by the accumulation and compaction of snow.  Powerful agents of erosion ~ have carved some.

World Geography Unit 1: Land and Water Forms Glaciers as Agents of Erosion.

Glaciers Glaciers formed much of the landscape that exists presently in the northern United States and elsewhere in the world. Glaciers Today, scientists.

GLACIERS AND GLACIATION. GLACIER A body of ice Formed on land Recrystallization of snow=> Firn => Ice Evidence of movement Alpine (valley) glaciation.

glaciers & glaciation Types of glaciers How do glaciers move?

GLACIATION About 15 million square kilometres of the earth’s surface are currently covered with glaciers.

An introduction to where, how, and why glaciers form

Glacial Erosion and Deposition. Erosion Glaciers have the capacity to carry huge rocks and piles of debris over large distances They grind out parallel.

How do Glaciers Effect the Land? By erosion & deposition.

Glaciers. V. Glacial Erosion A.Mechanisms 1.Glacial Quarrying Masses of (fractured) bedrock are lifted from the bed and incorporated into the ice Melt.

Geologic Features of Glaciation

Glacial Landscapes Glacier = large moving mass of ice. Glacier = large moving mass of ice. Glaciers erode, transport and deposit massive amount of sediment.

Glaciers. Geologists define a glacier as any large mass of ice that moves slowly over land. There are two types of glaciers: Continental glaciers Valley.

Mysterious rock formations…….. What could have caused these formations? GLACIERS!!!!!

GLACIERS AND GLACIATION. GLACIER A body of ice Formed on land Recrystallization of snow=> Firn => Ice Evidence of movement Alpine (valley) glaciation.

Erosion & Deposition Notes…Part 2…Glaciers! M. Manzo

Study Guide Chapter What is a glacier? 2.Distinguish between alpine and continental glaciation. 3.Explain how a glacier moves. Explain how a crevass.

Glaciers & Glaciation. Glaciers Glacier: a large, long-lasting mass of ice, formed on land that moves under the influence of gravity and its own weightGlacier:

UNIT 5WEATHERING: (B) GLACIERS Glacier-large long-lasting mass of snow compacted & recrystallized, first into firn then glacial ice. Glaciers part of hydrosphere.

Glacier: Any large mass of ice that moves slowly over land.

Glaciers. “ RIVERS OF ICE ” Mass movement of frozen ice on land Mass movement of frozen ice on land Form at high elevations or high altitude Form at high.

D. Evan Stribling  a larger mass of compacted snow and ice that moves under the force of its own gravity (weight)  They erode in some places deposit.

Geology Chapter 22 Glaciers We will cover: 1.Formation and Glacier Types 2.Glacier Movement 3.Glacial features 4.Ice Ages.

Chapter 7.1b Glaciers.

Ice, Ice, Baby! Glaciers and Glacial Features Photo Source:

Glacier Review.

Erosion and Deposition by Ice

Erosion and Depistion BY GLACIERS!.

4 – Glacial Erosion.

Glaciation of Canada.

GLACIERS A LARGE MASS OF ICE ON LAND THAT FLOWS UNDER THE PRESSURE OF ITS OWN WEIGHT – DOWNHILL OR OUTWARD DUE TO GRAVITY.

Wind, Ice, and Gravity Erosion

Erosion and Depistion BY GLACIERS!.

Earth Science Chapter 8 Section 3

Mass Movements, Wind, and Glaciers

Glaciers Glaciers are a part of both the hydrologic cycle and rock cycle Glacier – a thick mass of ice that forms over land from the compaction and recrystallization.

Presentation transcript:

Glaciers and Glacial Landforms

Glacier - Mass of ice that persists throughout the year. Accumulation and compaction of snow into ice. Ice deforms and flows outward responding to gravity. Flow generally from high to low altitude or high to low latitude. Ice advance stops where melting equilibrates with flow. Retreat by melting. Alpine glaciers - ice fills and flows down valleys. Ice caps - ice covers mountain peaks. Ice sheets - ice covers most of continent.

Ice movement in a glacier Snow falls Ice melts eroded boulders Zone of accumulation Zone of wasting

Ice movement in a glacier Snow falls compacts to ice Ice melts Zone of accumulation Zone of wasting

Ice movement in a glacier If rate of accumulation is greater than melting, glacier will advance. Snow falls Glacier advances compacts to ice Ice melts Ice flows Flowing ice carves the landscape Zone of accumulation Zone of wasting

Ice movement in a glacier When rate of melting equals rate of accumulation, glacier stops advancing. Equilibrium Snow falls Glacier stops advancing. Ice melts Ice flows Zone of accumulation Zone of wasting

Ice movement in a glacier in equilibrium, glacier does not appear to change position. ice is always in motion. ice accumulation equals ice melting. Glacier acts like a conveyor belt, eroding and carrying rock, sediments, and soil to its terminus. Snow falls terminus Zone of accumulation Zone of wasting

Ice movement in a glacier If melting increases, glacier will retreat, even though ice is still flowing. Rate of melting is greater than rate of accumulation. Melting ice deposits rock and sediment. Glacial deposits create distinctive landforms. Snow falls Glacier retreats moraine Ice flows Zone of accumulation Zone of wasting

Ice movement in a glacier If melting increases, glacier will retreat, even though ice is still flowing. Rate of melting is greater than rate of accumulation. Melting ice deposits rock and sediment. Glacial deposits create distinctive landforms. Snow falls Glacier retreats moraine Ice flows Zone of accumulation Zone of wasting

Zone of ablation (wastage) (more melting than snowfall) Zone of accumulation (more snow falls then melts per year)

Glaciers - agents of erosion Glaciers are highly effective agents of erosion. Abrasion - rock debris embedded in base of ice. Polishing, grooves and striations. Plucking / Quarrying - removal of large chunks of rock debris. Bedrock surface polished by glacial ice.

Glaciers - Erosional Landforms Cirque - semicircular hollow with steep headwall carved by glaciers into an alpine valley head.

Glaciers - Erosional Landforms Arete - steep, knife-edge ridge between glacial valleys. Col - gap in an arete where two cirques meet. Horn - steep peak carved out by cirques.

Glaciers - Erosional Landforms Glacial trough - wide, parabolic valley carved by ice flow (also called a “U-shaped” valley).

Mountains during glaciation

Mountains after glaciation

Fjiord - glacially carved valley flooded by the sea. Norway Hudson River

Glacial Striations - linear glacial scratch marks on bedrock.

Glaciers - Agents of Deposition Glaciers are highly effective agents of deposition. Drift - rock debris deposited by glaciers. Glacial Lake Deposits - pebble, sand, clay and silt sediments accumulated in meltwater lakes. Loess - very fine, wind-blown rock flour.

Till - Nonstratified, poorly sorted drift deposited directly from glacial ice.

Stratified drift - sorted, layered sediments deposited by glacial meltwater - outwash.

Glaciers - Depositional Landforms Ice contact deposits - sediments melted directly out from the ice. Outwash deposits - sediments deposited by meltwater flowing from the ice.

Kame - mound of till released by melting ice.

Esker - serpentine ridge of stratified drift deposited inside of ice meltwater tunnel. Esker - Manitoba

Drumlin - tear-drop-shaped hill created by ice flow over and around till deposit.

Drumlins - Manitoba

Moraine - linear ridge of till deposited at ice margin.

Glaciers - Depositional Landforms Outwash features - deposition by meltwater in the outwash plain (region in front of ice receiving flow of meltwater). Erratics - boulder size and larger blocks of rock deposited by melting glacial ice.

Landscape during glaciation Kettles - depressions formed as stranded ice blocks melt in outwash.

Landscape after glaciation Kettles - depressions formed as stranded ice blocks melt in outwash. moraines Outwash plain in front of moraine.

Features of a glacial moraine kame kettle outwash

Ice Caps and Ice Sheets - unconfined by topography. Ice Cap - less than 50,000 km2. Ice Sheet - cover major portion of a continent. Ice thicker than topography. Ice flows in direction of slope of the glacier. Greenland and Antarctica - 3000 to 4000 m thick (10 - 13 thousand feet or 1.5 to 2 miles!)

Alpine Glaciers - developed on mountain peaks and valleys. Cirque glacier - small glacier occupying valley head. Valley glacier - river-like glacial occupying valley. Piedmont glacier - valley glacier that flows out onto the flatlands. Fjord glacier - valley glacier with base below sea level. Ice field - region of interconnected alpine glaciers.

Piedmont Glaciers - lobate lowland glacier fed by alpine glaciers .