Yosemite truly is an incomparable valley. Bridalveil Falls, on the right, is a hanging valley; its small glacier did not cut downward as rapidly as the.

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Presentation transcript:

Yosemite truly is an incomparable valley. Bridalveil Falls, on the right, is a hanging valley; its small glacier did not cut downward as rapidly as the main glacier. Tracking the Great Glaciers from Yosemite to Greenland and Alaska All photos by R. Alley

Unit 7 – Yosemite Closer view of Bridalveil Falls, right. The U-shape of the valley of Bridalveil Creek shows that it was glaciated

Unit 7 – Yosemite Bridalveil Falls, Yosemite National Park. Bridalveil Creek has just started to cut a notch into the U-shaped cross section of the former glacial valley. The rapids at the bottom of the waterfall is running on rocks dumped there by the creek; eventually, the waterfall will be completely transformed into a rapids unless another ice age brings glaciers to re-form the waterfall.

Unit 7 – Yosemite Lower Yosemite Falls, Yosemite National Park. The numerous waterfalls of the park exist because the ice-age glaciers eroded the tremendous cliffs of the valley.

Unit 7 – Yosemite Half Dome above Yosemite Valley. A glacier flowing to the lower right deepened and widened the valley; see the next slide for a modern example.

Unit 7 – Yosemite Glacier draining Greenland Ice Sheet into head of Scoresby Sund, NE Greenland National Park. The scale is similar to that in the previous picture. Yosemite’s glaciers ended on land; this one calves icebergs into the fjord.

Unit 7 – Yosemite Near ice-sheet edge, NE Greenland National Park. The folds show that ice flows. Blue at top is a meltwater lake; such lakes may drain to the bed.

Unit 7 – Yosemite Corridoren Glacier, Greenland. The stripes are medial moraines, rock debris picked up from ridges where two tributary glaciers join.

Unit 7 – Yosemite Several tributary glaciers joining; flow is to right. NE Greenland National Park. Accumulation area in cirque (red arrow), lakes in ablation zone (green arrow) and medial moraine (blue arrow) are visible.

Unit 7 – Yosemite Accumulation zone in cirques (top), ablation zone (bottom), 150-year-old moraine (red), subtle, 11,500-year-old moraines (blue), NE Greenland Natl. Park.

Unit 7 – Yosemite Debris-bearing basal ice (red arrow) of a glacier in south Greenland. Rocks in such ice sandpaper, or abrade, the bedrock beneath as the ice moves.

Unit 7 – Yosemite The granite behind George the marmot has been abraded by debris-bearing glaciers, in the highlands of Yosemite National Park.

Unit 7 – Yosemite Rock ptarmigan on glacially striated granite (striae are faint lines on rock; a few of many are shown by blue arrows), east Greenland.

Unit 7 – Yosemite Glacially striated and polished bedrock, east Greenland. Ice flowed up the cliff from the lower right.

Unit 7 – Yosemite Glacially abraded and plucked rock in fjord wall, S. Greenland. The ice came from the left, as indicated by the arrow, scratching/abrading (S) some places and plucking (P) others. Picture is about 10 feet across. S S P P

Unit 7 – Yosemite Small snow avalanches into a cirque, east Greenland. The layered rocks are flood basalts from opening of the Atlantic Ocean.

Unit 7 – Yosemite Horn, Stauning Alps, NE Greenland National Park. Several cirques have intersected to leave this towering peak.

Unit 7 – Yosemite U-shaped valley from glacial erosion, Tracy Arm Wilderness Area, Alaska.

Unit 7 – Yosemite Moraines around retreating glaciers, Alpe Fjord, NE Greenland Natl. Park.

Unit 7 – Yosemite Moraines around retreating glaciers, NE Greenland Natl. Park.

Unit 7 – Yosemite Deposits of Bjornbo Glacier, NE Greenland Natl. Park. Ice was here about Glaciers carry pieces of different sizes, which make till when deposited.