Chapter 5: Section 2 Surface Processes and Landscapes Earth Science Chapter 5: Section 2 Surface Processes and Landscapes

Introduction to Oceans Currents are made by wind & density diffs. Currents distribute Earth’s solar energy. Carry heat energy from lower latitudes to higher latitudes & cold water to lower latitudes Erosion and deposition by wave action cause changes in shoreline features like beaches, sandbars, and barrier islands. Wave action rounds sediments by abrasion.

Ocean Currents

Erosion and Deposition by Wave Action http://www.utexas.edu/depts/grg/hudson/grg301c/hudson_grg_301c/schedule/4_water_geomorph_images/17_coastal/1.htm

Ocean Currents Tsunamis – large waves caused by submarine landslides or volcanic eruptions Wavelengths can be 100 miles long Heights can reach 100 feet Indonesian Tsunami of December 26, 2004 Ruptured over a length of at least 250 miles Traveled at about 1.2 miles per second Wave heights greater than 30 feet

Ocean Currents

Ocean Currents

Ocean Currents

Ocean Currents

Glaciers Two types of glaciers: Valley (alpine) glaciers - confined to a valley and flows from higher to lower elevations. Most present day glaciers are valley glaciers. Continental ice sheets - thick mass of ice that covers over 50,000 square kilometers of land. Only two exist today Antarctica and Greenland

Glaciers

Glacial Erosion Glaciers move down slope under the influence of gravity and their own weight. Steeper the slope the faster the movement. When a glacier melts faster than it moves downslope it moves backward (recedes) When a glacier slides over rock, the rock beneath the glacier is abraded. Sharp corners of rocks dragged along make long parallel scratches (striations).

Glaciers

Glacial Erosion Glaciers carve U-shaped valleys Cirque Horn Arete Hanging valleys form from tributaries Cirque Bowl shaped erosional scar Horn Sharp peak remaining from 3 or more cirques Arete Ridge remaining from 2 cirques

Glacial Erosion

Glacial Erosion

Glacial Deposition Till Outwash Erratic Unsorted rock deposited directly by a glacier. Outwash Rock material deposited directly from the meltwater of the glacier. Erratic Large rock that is different from rock beneath

Glacial Deposition Moraine Mass of glacial till left behind after a glacier has melted. Terminal moraine – farthest advance of glaciers Recessional moraine – built up where the glacier recedes for a while, then becomes stationary Lateral moraine – pile of till along sides

Glacial Deposition Drumlin – elongated hills formed from a glacier passing over old ground moraine Outwash plain – sorted deposits carried by meltwater of glacier Kames – short, steep-sided hills of outwash Kettle hole – formed from ice block that melts Many are filled with water creating deep lakes Esker – sinuous deposits from rivers of meltwater

Glacial Deposition

Glacial Deposition

Glacial Deposition

Glacial Deposition

Wind Action A dune is a mound or ridge of sand deposited by the wind. As the wind rises up the long side of the dune, the wind speed increases, therefore its carrying power increases (erosion increases). As the wind moves over the top of the dune and spreads out, its wind speed and carrying power decreases (deposition increases).

Wind Action

Landscape Development and Environmental Change

Landscape Development Forces that raise Earth’s surface are called uplifting forces Forces that lower the elevation of Earth’s surface are called leveling forces Climatic changes effect landscapes The drier the climate the more angular the landscape Bedrock patterns influence landscape

Stream Drainage Patterns

Time Landscapes pass through stages over time Young Mature Old Erosion is beginning Steep fast-moving streams & v-shaped valleys Mature Low rounded hills and broad flat valleys Streams stop eroding downward & start sidecutting Old Uplands have been eroded almost to sea level Poor drainage, small gradient, many meanders