5 Must Know Facts For Your Next Test

1. Oceanic crust is typically about 5-10 kilometers thick, much thinner than continental crust, which can exceed 30 kilometers in thickness.
2. The average age of oceanic crust is relatively young compared to continental crust, with most being less than 200 million years old due to continuous formation and recycling processes.
3. Oceanic crust is primarily composed of basalt, a volcanic rock that is rich in iron and magnesium, giving it a higher density compared to granitic continental crust.
4. As new oceanic crust is formed at mid-ocean ridges, older crust is pushed away from the ridge and may eventually be consumed at subduction zones, contributing to plate tectonics.
5. The interaction between oceanic crust and continental crust can lead to significant geological features such as ocean trenches and volcanic arcs.

Review Questions

• How does oceanic crust differ from continental crust in terms of composition and thickness?
  • Oceanic crust is generally much thinner than continental crust, averaging between 5-10 kilometers thick, while continental crust can reach over 30 kilometers. In terms of composition, oceanic crust is primarily made up of basalt, which is denser and richer in iron and magnesium. In contrast, continental crust is mainly composed of granitic rocks that are lighter and less dense. These differences affect not only the physical characteristics of the Earth's surface but also its geological processes.
• Discuss the process of seafloor spreading and its significance for the formation of oceanic crust.
  • Seafloor spreading occurs at mid-ocean ridges where tectonic plates diverge. As these plates separate, magma rises from the mantle to fill the gap, solidifying to create new oceanic crust. This process is crucial because it continuously generates new material that shapes the ocean basins while pushing older crust away from the ridge. The significance lies in its role in plate tectonics and how it contributes to our understanding of Earth's geological history and features such as underwater mountain ranges.
• Evaluate the impact of subduction zones on oceanic crust dynamics and global tectonics.
  • Subduction zones play a vital role in the recycling of oceanic crust back into the mantle. When an oceanic plate collides with a less dense continental plate or another oceanic plate, it sinks beneath it into the mantle. This process leads to various geological phenomena such as volcanic activity, earthquakes, and the formation of deep ocean trenches. Evaluating this impact reveals how subduction zones not only contribute to the life cycle of oceanic crust but also drive many aspects of global tectonics and landscape changes.

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