Weathering, Erosion, and Deposition: Shaping the Land, Study notes of Topography

Download Weathering, Erosion, and Deposition: Shaping the Land and more Study notes Topography in PDF only on Docsity! 1 Weather ing and Erosion Have you ever looked at the land around you and wondered how it was shaped? The geologic features that help define the world are still being shaped by the natural processes of weathering, erosion, and deposition. These processes affect land differently, depending on the types of soil, rocks, and vegetation found in an ecoregion. These processes can also be affected by other natural features, such as climate and topography. Later in this companion, you will learn how human activities can also affect how weathering, erosion, and deposition shape the land. Weathering Weathering is the process by which rocks are broken down into sediments slowly over time. There are two major types of weathering: mechanical (or physical) and chemical. Mechanical weathering breaks down rocks into smaller pieces—called sediments—through physical processes. Mechanical weathering changes the shape and size of a rock, but it doesn’t change the rock’s chemical composition. Wind and water are two of the main agents that cause mechanical weathering. Other agents include living things and changing temperatures. (An agent is something that causes something else.) For example, winds can pick up small particles and blast them against rock, slowly scraping away at the rock over time. Moving water can weather rocks in a similar way; water often carries larger particles that scrape away at the rock more quickly. Millions of years ago, the Colorado River flowed over relatively flat land in what would become the southwestern United States. Slowly, over time, the river carved away the rocks and carried the sediments downstream. This process created a depression in the flat land that gradually became a deep, wide canyon that we call the Grand Canyon today. climate: a region’s typical weather conditions over a long period of time topography: the surface features of a region, including how the land rises to form mountains and falls to form valleys Like many canyons, the Grand Canyon was created through mechanical weathering by water flowing in the Colorado River. 2 Weather ing and Erosion Water can also weather rocks by getting into cracks and freezing. When water freezes, it expands. When the water freezes in the cracks, it pushes the rocks apart. Plants growing in the cracks of a rock can also push apart the rock in a similar manner. Drastic changes in temperature, from fires or volcanic activity, can also cause rocks to crack and break down as they expand and contract from heating and cooling. Chemical weathering breaks down rocks through chemical processes that change the rocks’ chemical composition. For example, when carbon dioxide in air dissolves in rain water, carbonic acid is formed. This can dissolve some rocks, including limestone. Oxygen can also cause chemical reactions that weather rocks. Many rocks contain minerals that are composed of the element iron. Oxygen in the air or dissolved in water can cause the iron in these minerals to rust or oxidize. Rusting changes the iron (Fe) into iron oxide (Fe2O3), a different kind of chemical. Some rocks are better able to withstand weathering agents than others. Rocks made of quartz, a very hard mineral, are highly resistant to mechanical weathering. Limestone, made of the mineral calcite, is the opposite of quartz. It is very easy to dissolve through chemical weathering. When a region contains many rock types, those that are more resistant to weathering will take longer to break down. This is called differential weathering. Differential weathering can shape the landscape by leaving peaks of highly resistant rocks and holes or depressions where less-resistant rocks have been broken down. Differential weathering can create unique landforms like the one shown above. Weathering by wind created this rock formation. The less resistant rock weathered away, while the more resistant rock remained. Many caves are formed as a result of chemical weathering, when large areas of limestone are dissolved by acidic water. 5 Weather ing and Erosion Pollution from cars, factories, and other human activities can also put more chemicals in the air and water. This makes it easier for chemical weathering to occur. For example, pollution can mix with water vapor in the atmosphere and fall as acid rain. Acid rain can easily dissolve limestone, as you can see in the photograph to the right. slowed down, depositing larger, heavier sediment further inland, and smaller, fine-grained sediment further into the ocean. This process continued until the glaciers had finished retreating (leading to a rise in sea level) and the piles of sediment were high enough to rise above sea level, creating a barrier island. Today, many people have built homes and other structures on barrier islands. People enjoy living near the beach, so barrier islands are popular places for resorts and summer homes; however, this is not always safe. Barrier islands are exposed to ocean waves and erode easily. This is especially dangerous during violent storms like hurricanes, which cause powerful winds and waves that sweep sediments from the island into the ocean. This can damage or collapse buildings along the shoreline, as well as increase the risk of flooding as the ground is washed away. In 2008, Hurricane Ike made landfall over Galveston, killing 17 people and causing billions of dollars worth of damage. Residents of Galveston, Texas, reenter the city two weeks after Hurricane Ike made landfall. Discover Science: Galveston Barrier Island System Galveston, Texas lies on a special type of island called a barrier island. A barrier island is a long, narrow island that stretches along a coastline. A typical barrier island is separated from the mainland by a small, shallow stretch of water such as a bay or lagoon. Barrier islands help protect the shoreline from weathering and erosion by waves and storms. Barrier islands are made of small, fine-grained sediments. Scientists are not entirely certain how barrier islands formed. One hypothesis is that barrier islands formed through erosion and deposition caused by flooding after the last Ice Age. Thousands of years ago, glaciers on land began to melt. As water from the melting glaciers flowed downhill to the sea, they weathered and eroded sediment. As the water flowed into the ocean, it 6 Weather ing and Erosion What Do You Know? Several processes can cause changes to the land. Read some characteristics of these processes in the box below. Then, study the photographs on the next page. Decide which characteristics in the box describe what you see in each photograph, and then write each characteristic in the appropriate space below. Some characteristics will describe more than one photograph. Characteristics of Processes •  Grains have been eroded a great distance •  Grains have been eroded a short distance •  Differential weathering •  Sediments deposited in horizontal layers •  Likely deposited after being eroded by flowing water •  Well-sorted sediment 7 Weather ing and Erosion Grooves in a Cliff Layers of Different-Sized Grains Outcrop with Ridges Rounded Pebbles Angular Pebbles