5 Must Know Facts For Your Next Test

1. The theory was developed in the mid-20th century, building on earlier concepts like continental drift proposed by Alfred Wegener.
2. Plate boundaries can be classified into three main types: divergent (moving apart), convergent (colliding), and transform (sliding past each other).
3. The movement of tectonic plates is driven by forces such as mantle convection, slab pull, and ridge push.
4. Earthquakes are most common along tectonic plate boundaries, where stress builds up due to plate interactions and is released suddenly.
5. The theory of plate tectonics explains not only the occurrence of earthquakes and volcanoes but also the distribution of fossils and minerals across continents.

Review Questions

• How does the theory of plate tectonics explain the occurrence of earthquakes?
  • The theory of plate tectonics explains earthquakes as a result of stress accumulation at tectonic plate boundaries. As plates interact—whether they are converging, diverging, or sliding past each other—stress builds up until it exceeds the strength of rocks. This sudden release of energy results in an earthquake, often occurring along fault lines where plates meet. Thus, understanding these boundaries helps predict where earthquakes are likely to happen.
• Evaluate how the theory of plate tectonics has changed our understanding of Earth's internal structure and composition over time.
  • The theory of plate tectonics has revolutionized our understanding of Earth's internal structure by revealing that the lithosphere is divided into movable plates resting on the semi-fluid asthenosphere. Prior to this theory, many aspects of Earth's geology were poorly understood. Now we know that not only does this movement shape the surface features we see, like mountains and ocean basins, but it also influences the distribution of resources and natural hazards across the planet.
• Synthesize how the movements of tectonic plates can influence biological diversity across different regions.
  • The movements of tectonic plates significantly influence biological diversity by altering habitats over geological timescales. As continents drift apart or collide, ecosystems can become isolated or mixed, leading to speciation or extinction events. For instance, when land masses split due to divergent plate boundaries, species may evolve independently in isolated environments. Conversely, convergent boundaries can create new habitats that support diverse life forms. Understanding these processes highlights how geological activity shapes biodiversity on Earth.

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