Moraines are primarily formed by deposition, specifically by the movement and deposition of glaciers. As glaciers move, they pick up rock debris through a process of erosion and transport this material to the glacier's terminus, where it is deposited to form moraines. Weathering may contribute to the breakdown of rock material that eventually gets incorporated into the glacier, but it is not the main cause of moraine formation.
Moraines are not caused by erosion, but rather by the deposition of sediment and rocks carried and deposited by a glacier as it moves and melts. Erosion occurs as the glacier carries material away from its original location.
Terminal moraines are not formed due to erosion but rather deposition. They are ridges of glacial till that mark the farthest advance of a glacier and are deposited as the glacier retreats. Erosion by the glacier does contribute to the material found in terminal moraines, but the feature itself is primarily a result of deposition.
Stalagmites are formed by deposition, specifically of minerals like calcite that precipitate out of water dripping from the ceiling of a cave. Weathering and erosion may contribute to the breakdown of rock formations in caves, but the actual formation of stalagmites is a result of deposition.
Erosion, deposition, and weathering play significant roles in shaping the Big Sur cliffs along the central coast of California. Erosion, caused by wind, water, and waves, wears down the cliffs over time. Deposition occurs when eroded materials are transported and eventually settle or accumulate. Weathering, which includes physical and chemical processes, breaks down the rocks and contributes to the erosion and shaping of the cliffs.
The Mississippi Delta is primarily shaped by erosion caused by the river's powerful water flow and sediment deposition. Weathering can contribute to the breakdown of rocks and sediments in the delta, but erosion from the river's activities is the dominant force shaping this region.
Moraines are not caused by erosion, but rather by the deposition of sediment and rocks carried and deposited by a glacier as it moves and melts. Erosion occurs as the glacier carries material away from its original location.
Terminal moraines are not formed due to erosion but rather deposition. They are ridges of glacial till that mark the farthest advance of a glacier and are deposited as the glacier retreats. Erosion by the glacier does contribute to the material found in terminal moraines, but the feature itself is primarily a result of deposition.
D. deposition
Stalagmites are formed by deposition, specifically of minerals like calcite that precipitate out of water dripping from the ceiling of a cave. Weathering and erosion may contribute to the breakdown of rock formations in caves, but the actual formation of stalagmites is a result of deposition.
Erosion, deposition, and weathering play significant roles in shaping the Big Sur cliffs along the central coast of California. Erosion, caused by wind, water, and waves, wears down the cliffs over time. Deposition occurs when eroded materials are transported and eventually settle or accumulate. Weathering, which includes physical and chemical processes, breaks down the rocks and contributes to the erosion and shaping of the cliffs.
The Mississippi Delta is primarily shaped by erosion caused by the river's powerful water flow and sediment deposition. Weathering can contribute to the breakdown of rocks and sediments in the delta, but erosion from the river's activities is the dominant force shaping this region.
Waterfalls are formed when flowing water erodes soft rock layers faster than hard rock layers, creating a step-like structure. This erosion is often caused by a combination of factors such as weathering, erosion, transport of sediment, and deposition of material downstream. Over time, the continuous erosion of the softer rock and the downstream transportation and deposition of sediment contribute to the formation and shaping of waterfalls.
A dust devil is a phenomenon caused by rapid air circulation at the surface of the Earth, typically occurring in arid or semi-arid regions. Dust devils do not directly cause erosion, deposition, or weathering, but they can transport loose particles, such as dust or sand, over short distances.
Erosion causes more change in landforms compared to deposition and weathering. Erosion is the process of wearing away rock or soil through the action of water, wind, or ice. It can lead to significant changes in the shape and structure of landforms over time.
sand dunes are caused by deposition . some people think its caused by erosion , but erosion is the braking down of land formations. sand dunes are caused by strong winds pushing sand grains into piles.
Floodplains are typically formed by the deposition of sediments carried and deposited by rivers during floods, rather than erosion. Erosion can shape the landscape, but floodplains are mostly a result of the sediment deposition process.
Gradual changes of the Earth's surface can be caused by processes like weathering, erosion, and deposition. Weathering breaks down rock into smaller pieces, erosion transports these pieces from one place to another, and deposition deposits them in new locations. Over time, these processes can reshape the Earth's surface.