Evidence such as matching Coastlines, similar rock formations and fossils, and the distribution of certain plants and animals on different continents suggest that continents were once joined in a supercontinent called Pangaea. Geologic features like mountain ranges and rift valleys also support the theory of continental drift.
Fossil evidence such as the presence of identical plant and animal species on continents separated by oceans. This suggests that these continents were once connected and later drifted apart.
Yes, the theory of continental drift suggests that the Earth's continents were once joined together in a single landmass called Pangaea. This theory is supported by evidence such as the matching shapes of continents, distribution of fossils, and geological similarities across continents.
Evidence for Pangaea's existence includes the matching shapes of continents along their coastlines, similarities in rock formations, fossils of the same species found on different continents, and the alignment of mountain ranges and geological features when continents are pieced back together. Additionally, the distribution of certain plant and animal species suggests that they were once connected on a single landmass.
matching geological features, such as similar rock formations and mountain ranges, on different continents. This suggests that the continents were once connected and have since drifted apart.
The theory that suggests the Earth once had a supercontinent is called Pangaea. It proposes that all current continents were once connected as one large landmass before breaking apart and moving to their current positions. The evidence for this theory includes the matching shapes of continents, similar geologic formations across different continents, and the distribution of fossils.
Glossopteris is a plant fossil that was found in multiple continents that were once part of the supercontinent Gondwana. The widespread distribution of Glossopteris across these continents suggests that they were once connected, providing evidence for the existence of Gondwana.
smiliar fossils and plants, matching of the continents as a jig-saw puzzle, remaining of tropical plants
Fossil evidence such as the presence of identical plant and animal species on continents separated by oceans. This suggests that these continents were once connected and later drifted apart.
Yes, the theory of continental drift suggests that the Earth's continents were once joined together in a single landmass called Pangaea. This theory is supported by evidence such as the matching shapes of continents, distribution of fossils, and geological similarities across continents.
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.
The theory is called continental drift, proposed by Alfred Wegener. It suggests that continents were once part of a supercontinent called Pangaea and have since drifted to their current positions. This theory is supported by evidence such as matching coastlines and similar geological features on different continents.
Evidence for Pangaea's existence includes the matching shapes of continents along their coastlines, similarities in rock formations, fossils of the same species found on different continents, and the alignment of mountain ranges and geological features when continents are pieced back together. Additionally, the distribution of certain plant and animal species suggests that they were once connected on a single landmass.
One piece of evidence supporting the theory of continental drift is the fit of continents, such as the matching coastlines of South America and Africa. Another piece of evidence is the distribution of similar fossils and rock formations on different continents, suggesting they were once connected. Additionally, the alignment of mountain ranges and geological structures across continents supports the idea of past continental unity.
One piece of evidence that indicates the continents were once connected is the shape of the continents. Many of the continents look as if they fit together like a puzzle.
matching geological features, such as similar rock formations and mountain ranges, on different continents. This suggests that the continents were once connected and have since drifted apart.
The theory that suggests the Earth once had a supercontinent is called Pangaea. It proposes that all current continents were once connected as one large landmass before breaking apart and moving to their current positions. The evidence for this theory includes the matching shapes of continents, similar geologic formations across different continents, and the distribution of fossils.
Fossil evidence showing similar plant and animal species in regions that are now widely separated provides support for Wegner's hypothesis of continental drift. This suggests that the continents were once connected in a single landmass.