Fossils of similar plants and animals found on continents that are now widely separated suggest that these landmasses were once connected. The distribution of these fossils across different continents supports the theory of Pangaea, which posits that all current continents were once joined together in a supercontinent. This evidence helps explain how species were able to migrate and evolve across different landmasses before continental drift separated them.
Fossils provide evidence for continental drift by showing that similar species or species that were once connected are now found on separate continents. For example, identical fossils have been found on continents that are now widely separated, supporting the idea that these land masses were once part of the same larger landmass. Additionally, the distribution of fossils of ancient organisms can also suggest how certain species were able to migrate across continents when they were closer together.
By boook
Fossils found on different continents suggested that they were once connected due to similar species being found far apart. Mountain belts on different continents lined up when the continents were pieced together, indicating a shared geological history. These pieces of evidence helped in understanding continental drift and the movement of continents over time.
Because, similar fossils could be found on different continents, in rocks of the same age.
Fossils of the reptile Mesosaurus have been found in South America and Africa. It probably couldn't swim between the continents. Scientists theorized that this reptile lived on both continents when they were joined. All continents were once part of a large landmass, called Pangea, that broke apart 250-million years ago.
Fossils can be clues to continental drift because certain plant and animal species are found only in specific regions, and when the continents were connected these species could migrate between them. Matching fossils found on different continents can suggest that these landmasses were once joined together before drifting apart. Additionally, identical or related fossils found on separate continents can indicate a common ancestry when the continents were once together and later separated.
Fossils found in different regions can provide evidence of past geographic connections by showing similar species distributed across separate continents. By studying fossils, scientists can piece together the history of land formations and the movement of continents, helping to support the theory of supercontinents like Pangaea.
Yes, fossils are evidence of continental drift because similar fossils have been found on different continents that are now far apart. This suggests that these continents were once connected, supporting the theory of continental drift.
Fossils found on different continents with similar characteristics suggest that these landmasses were once connected millions of years ago. As continents drift apart, similar fossils can only be explained by the movement of landmasses over time, supporting the theory of continental drift. This provides evidence that different continents were once part of a single supercontinent, such as Pangaea.
Index fossils are used to correlate rocks of similar age in different locations. By studying index fossils found in rock layers from different continents, scientists can determine which layers are of similar age and potentially infer how these continents were once connected. This information helps in reconstructing past continental configurations, such as during the time of Pangea.
Fossils of the same species can be found on continents that are now today separated by oceans. btw continental drift is a fact.