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Chapter 15-1 Glaciers

Chapter 15-1 Glaciers. Pages 318-337. What is a Glacier?. ¾ of earth’s fresh water is frozen in glaciers. A Glacier is – A large mass of compacted snow and ice that moves under the force of gravity. Where glaciers form. Form in areas always covered by snow Snow builds up from year to year

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Chapter 15-1 Glaciers

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  1. Chapter 15-1 Glaciers Pages 318-337

  2. What is a Glacier? • ¾ of earth’s fresh water is frozen in glaciers. • A Glacier is – • A large mass of compacted snow and ice that moves under the force of gravity

  3. Where glaciers form • Form in areas always covered by snow • Snow builds up from year to year • Glaciers may occur in any part of the world • Closer to the equator, the higher the elevation • The lowest elevation at which a layer of permanent snow occurs in summer is called the SNOW LINE

  4. How Glaciers form • Mountain basins above the snow line are filled with snow year round. • In these snowfields, buried snow becomes compressed and recrystallizes into a rough, granular material called FIRN or NEVE.

  5. Firn • Resembles the ice of a packed snowball • Weight of the firn may turn the lower layers into solid ice. This ice may begin to move outward or downward due to the overlying weight of the firn above – this now is a glacier.

  6. Types of glaciers • Valley glacier • Moves within valley walls • Continental glacier • Covers a large portion of a continent

  7. Valley glaciers • Forms in the upper valleys of the world’s mountain ranges where snowfall exceeds snowmelt • Under the snow, the firn changes into ice • The ice stays in the valley and slowly begins to move downhill due to gravity

  8. Valley glaciers are also known as alpine glaciers • Valley glaciers occur on all continents except for Australia

  9. Valley glaciers may very small (2km) to very large (100km) and hundreds of meters thick • Large valley glaciers are found in Alaska and Himalayas • Glacier National Park has many remnant valley glaciers

  10. Continental Glaciers • In polar regions, large areas are covered in thick masses of ice • Only mountain peaks are visible called nunataks • Are circular or oval in shape • Greenland = 1.7 million km2 and 3 km thick • Antartica = 13.7 million km2 and 4 km thick • Largest C. G. is found in Antartica

  11. A glacier less than 50,000 km2 is sometimes called an icecap • Iceland, Baffin Island, Spitsbergen Ice cap in 1979 and 2003

  12. Glacial Movement and Erosion Ch 15-2 Pages 321-325

  13. How do glaciers move? • Some glaciers move a few centimeters a day, while some move several meters in a week or month? • Move faster after snowy winter, in summer and on steep slopes • Friction differences exist between valley floor and valley walls – why?

  14. A typical glacier will move more rapidly at its surface and center than at its sides. • The heavy weight of the ice above can melt the ice at the base. • This water or slushy layer reduces the friction and may increase the movement of the glacier. This is called basal slip.

  15. Basal slip occurs at the base of the glacier, but does not account for the rest of the glacier’s movement. • Basal slip does not occur in extreme cold

  16. Plastic flow • In the interior of a glacier, the grains of ice may deform, or change shape, due to the pressure of the snow and ice above. • Near the bottom of the glacier, the grains are almost flat and can allow grains to slip past one another to create forward movement.

  17. crevasses • When glaciers move over a steep downward change of slope, the ice is rigid and crevasses or deep surface cracks form. • Are rarely larger than 50 meters deep

  18. How do we study glacial movement? • Scientists will study glacial movement by placing a row of stakes across a glacier to study its movement. • Also use satellite data to track glacial movement and positioning over time.

  19. Ice front • The ice front occurs where the glacier’s ice melts as fast as it moves. • A glacier continually is moving forward due to gravity

  20. Icebergs • Where the snow line is close to sea level, glaciers meet the sea. • As the glacier moves into the sea, large blocks of ice break off - this is called calving • Occurs in Antartica, northern Alaska, Siberia

  21. How Glaciers Cause Erosion • Glaciers are very powerful agents of erosion. • Remove loose rock from valley walls (from fine powder to house-size boulders) and transport this material until it is deposited. • Some material may fall on top of glacier, become apart of the glacier, or be dragged beneath the glacier.

  22. When this unsorted and unstratified rock material is deposited by a retreating, or melting glacier, it is called TILL • The accumulation of till is called a MORAINE

  23. With Valley glaciers, material may be deposited on the sides of the glacier – forming a lateral moraine • If two valley glaciers meet to form a single glacier, the lateral moraines may combine to form a medial (middle) moraine.

  24. When clay and silt particles are mixed by a glacier by the crushing of rock below the glacier, it forms ROCK FLOUR • When this rock flour mixes with water, it takes on a milky white appearance and this meltwater is called GLACIAL MILK

  25. When rocks pieces frozen into the glacier cut away at existing bedrock on the valley floor and walls, it may leave behind long parallel scratches called STRIATIONS • Striations show the general direction of the glacier

  26. Glaciers may also remove large sections of softer bedrock material from the valley walls through process called PLUCKING • This is caused by melting and refreezing if the glacier along this material, and it tends to pluck the softer bedrock from the valley wall.

  27. Effects of Erosion • Glaciers may leave behind characteristic formations: • Roches Moutonnees – is an outcropping of bedrock that looks like a flock of sheep from a distance

  28. 2. Valley glaciers often erode a river valley from a typical V-shaped valley into the classic U-shaped glacial valley.

  29. 3. Main valley glaciers are larger than their tributary glaciers, and erode the valley more as well. • Forms a deeper u-shaped main glacial valley than the tributary valleys, this is called HANGING VALLEYS

  30. When a stream is present in the tributary valley, and it now falls into the deeper main valley, this is called a HANGING VALLEY WATERFALL

  31. At the head of a former valley glacier is a semi-circular basin called a CIRQUE • THIS CIRQUE MAY FILL UP WITH WATER AND FORM A SMALL LAKE CALLED A CIRQUE LAKE

  32. When two cirques are formed next to each other, the divide between the two may be narrow and sharp. This divide is called an ARETE

  33. If three or more cirques meet, they will form a pyramid-shaped peak called a HORN

  34. Valley glaciers tend to make mountain peaks more jagged and pronounced, while continental glaciers tend to smooth off mountain peaks and leave them polished and rounded.

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