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

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Presentation on theme: "Glaciers. V. Glacial Erosion A.Mechanisms 1.Glacial Quarrying Masses of (fractured) bedrock are lifted from the bed and incorporated into the ice Melt."— Presentation transcript:

1 Glaciers

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3 V. Glacial Erosion A.Mechanisms 1.Glacial Quarrying Masses of (fractured) bedrock are lifted from the bed and incorporated into the ice Melt water penetrates the cracks  frost wedging 2. Glacial Abrasion Sediment carried along at the base of a glacier scrapes along the underlying bed Fine sediment  polishes bedrock  glacial flour, streams have milky grayish color Bedrock  striations

4 V. Glacial Erosion A. Mechanisms 1.Glacial Quarrying Masses of (fractured) bedrock are lifted from the bed and incorporated into the ice Melt water penetrates the cracks  frost wedging Ice freezes to the rock and as the glacier flows down slope boulders are plucked free and incorporated into the ice.

5 V. Glacial Erosion B. Landforms 1. Cirques Horseshoe shaped basin at or above snow line Lack of sunlight & accumulation of wind-blown snow  growth of persistent snowfields Frost wedging will erode basin High snow accumulation produces cirque glacier

6 V. Glacial Erosion B. Landforms 2. Arête (French for “fishbone”) Two cirques on opposite sides erode backwards A sharp ridge of rock 3. Col: Continued headward erosion of cirques. A pass through an arête 4. Horn: Three or more cirques erode back to form a steep peak

7 V. Glacial Erosion B. Landforms 2. Arête (French for “fishbone”) Two cirques on opposite sides erode backwards Sharp ridge of rock 3. Col: Continued headward erosion of cirques A pass through an arête 4. Horn: Three or more cirques erode back to form a steep peak

8 V. Glacial Erosion B. Landforms 5. U-shaped Valley As glaciers advance down river valleys they carve them into U-shaped valleys. Contrast to V-shaped valley formed by lateral stream erosion.

9 V. Glacial Erosion B. Landforms 5. U-shaped Valley As glaciers advance down river valleys they carve V-shaped valley into U-shaped valleys

10 V. Glacial Erosion B. Landforms 6. Hanging Valley Formed by tributary glaciers that feed a larger glacier Glacier does not down-cut as quickly After the ice melts, a “hanging” valley is perched above the main valley

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13 V. Glacial Erosion B. Landforms 7. Fjord When ocean water floods into a U- shaped valley after glacial retreat

14 7. Fjord When ocean water floods into a U-shaped valley after glacial retreat

15 VI. Glacial Deposits A. Moraine Landform at the margin of a glacier Accumulation of till 1.Terminal Moraine: marks furthest advance of the ice 2. Recessional Moraine: up-glacier from and usually parallel to the terminal moraine, marks a stationary point

16 VI. Glacial Deposits A. Moraine Landform at the margin of a glacier consisting of glacial till 1.Terminal Moraine: marks furthest advance of the ice

17 VI. Glacial Deposits A. Moraine

18 VI. Glacial Deposits A. Moraine Landform at the margin of a glacier Accumulation of till 3. Lateral Moraine: at the side of a glacier 4. Medial Moraine: when two glaciers merge, there’s a moraine between them

19 VI. Glacial Deposits B. Outwash Material below a glacier Deposited by melt water not the glacier itself Transported by braided streams

20 VI. Glacial Deposits

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24 Pacific Northwest: >12,000 yrs BP

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