With the break up of the supercontinenent, Rodinia, there were of course many smaller continents which led to more rainfall and consequently less carbon dioxide in the atmosphere (since rain "washes" the carbon dioxide out of the atmosphere). As a result of less carbon dioxide in the atmosphere, temperatures dropped and ice began to form in polar regions.
After Rodinia broke up, the Earth experienced a warming trend known as the Sturtian glaciation due to increased volcanic activity releasing carbon dioxide into the atmosphere. This was followed by a cooling period during the Marinoan glaciation as weathering of exposed rocks removed carbon dioxide from the atmosphere, leading to the Snowball Earth hypothesis.
Rodinia was a supercontinent that existed between 1.3 billion and 750 million years ago. It is believed to have formed when earlier supercontinents broke apart and eventually came together to form Rodinia. Rodinia's breakup played a significant role in shaping the continents and oceans as we know them today.
The first supercontinent that formed during the Proterozoic Eon was called Rodinia. It existed over a billion years ago and was comprised of most of Earth's continental landmasses at the time. Rodinia eventually broke apart and its fragments drifted to form the continents we know today.
Rodinia and Pangaea were both supercontinents that existed in Earth's past. They formed through the process of continental drift, where tectonic plates moved and collided to create a single landmass. Both supercontinents later broke apart due to the movement of tectonic plates, leading to the formation of the continents we have today.
AnswerGondwana and Rodinia.Actually, Rodinia was before Pangea, but Gondwana and Laurasia were after Pangea. Gondwana to the south to make the southern continents, and Laurasia to the north to make the northern continents.
When Pangaea broke apart, the continents began drifting away from each other due to tectonic plate movements. This led to the formation of separate landmasses that eventually evolved into the continents we see today. The movement of the continents also had a significant impact on Earth's climate, ocean currents, and biodiversity.
According to geologists, a rodinia are segmented landmasses that come together and form a supercontinent. Studies indicate that rodinia existed between 1100 and 750 million years ago during the Neoproterozoic period when earths crust had broke.
Rodinia was a supercontinent that existed between 1.3 billion and 750 million years ago. It is believed to have formed when earlier supercontinents broke apart and eventually came together to form Rodinia. Rodinia's breakup played a significant role in shaping the continents and oceans as we know them today.
The first supercontinent that formed during the Proterozoic Eon was called Rodinia. It existed over a billion years ago and was comprised of most of Earth's continental landmasses at the time. Rodinia eventually broke apart and its fragments drifted to form the continents we know today.
The first super continent scientists know about is Rodinia, which formed and broke up about 1,1 billion to 750 million years ago. Then came Pannotia, which formed and broke up around 600 million to 540 million years ago. The last was Pangaea, which formed and broke up 250 million to 200 million years ago.This is believed to have happened several times in the Earth's history.
Rodinia and Pangaea were both supercontinents that existed in Earth's past. They formed through the process of continental drift, where tectonic plates moved and collided to create a single landmass. Both supercontinents later broke apart due to the movement of tectonic plates, leading to the formation of the continents we have today.
I assume you mean "Meteor" and "Meteorites"
it broke
it broke
it broke
They broke up.
The two main ancient supercontinents are called Rodinia and Pannotia. Rodinia existed around 1.3 billion years ago and is believed to have broken up around 750 million years ago, while Pannotia existed around 600 million years ago and eventually broke apart around 540 million years ago.
AnswerGondwana and Rodinia.Actually, Rodinia was before Pangea, but Gondwana and Laurasia were after Pangea. Gondwana to the south to make the southern continents, and Laurasia to the north to make the northern continents.