The theory of continental drift describes the movement of landmasses on Earth's surface.
Which of the following shows evidence of continental drift?
(1 point)
Responses
fossil evidence
fossil evidence
glacial deposits
glacial deposits
match up of landforms, rocks, and other resources
match up of landforms, rocks, and other resources
all of the above
all of the above
none of the above
all of the above
The correct answer is "all of the above." Each of the options listed - fossil evidence, glacial deposits, and match up of landforms, rocks, and other resources - provide evidence in support of the theory of continental drift.
The correct answer is "all of the above."
To understand why, let's break down each option and see how it relates to the theory of continental drift:
1. Fossil evidence: Fossils are the preserved remains or traces of ancient organisms. The distribution of certain fossils across different continents provides evidence for continental drift. For example, similar fossils found in rocks on different continents suggest that those landmasses were once connected.
2. Glacial deposits: Glaciers are large masses of ice that move slowly across the land. The presence of glacial deposits, such as till or rocks transported by glaciers, can indicate that a certain landmass was covered by glaciers in the past. By studying the distribution of glacial deposits, scientists can reconstruct the movement of continents.
3. Match up of landforms, rocks, and other resources: Similar landforms, rock types, and geological formations can be found on different continents that were once connected. By comparing these features, scientists can identify matching patterns and reconstruct the original positions of the landmasses.
Therefore, all three options - fossil evidence, glacial deposits, and the match up of landforms, rocks, and other resources - provide strong evidence for the theory of continental drift.