The Ordovician Era (485.4 to 443.4 million years ago)

The Ordovician is a geologic period and system, the second of six of the Paleozoic Era, and covers the time between 485.4 to 443.4  million years ago. It follows the Cambrian Period and is followed by the Silurian Period.  While recognition of the distinct Ordovician Period was slow in the United Kingdom, other areas of the world accepted it quickly.

During the Ordovician, the southern continents were collected into a single continent called Gondwana. Gondwana started the period in equatorial latitudes and, as the period progressed, drifted toward the South Pole. Early in the Ordovician, the continents Laurentia (present-day North America), Siberia, and Baltica (present-day northern Europe) were still independent continents (since the break-up of the supercontinent Pannotia earlier), but Baltica began to move towards Laurentia later in the period, causing the Iapetus Ocean to shrink between them. The small continent Avalonia separated from Gondwana and began to head north towards Baltica and Laurentia. The Rheic Ocean between Gondwana and Avalonia was formed as a result.

A major mountain-building episode was the Taconic orogeny that was well under way in Cambrian times. In the beginning of the Late Ordovician, volcanoes along the margin of the Iapetus Ocean spewed massive amounts of carbon dioxide into the atmosphere, turning the planet into a hothouse. These volcanic island arcs eventually collided with proto North America to form the Appalachian mountains. By the end of the Late Ordovician these volcanic emissions had stopped. Gondwana had by that time neared or approached the pole and was largely glaciated.

Life continued to flourish during the Ordovician as it did in the Cambrian, although the end of the period was marked by a significant mass extinction. Invertebrates, namely mollusks and arthropods, dominated the oceans. Fish, the world's first true vertebrates, continued to evolve, and those with jaws may have first appeared late in the period. Life had yet to diversify on land.......

The Rise of The Cephalopods- New animal forms developed, too. The cephalopods became the dominant predators of this period. Cephalopods are a group of mollusks that are related to octopus and squid.The orthoceras was a straight-shelled cephalopod that lived in the largest open end of its shell. Its feet came out of its head! They could rise and fall in the ocean water like a submarine. The siphuncle was a tube in the center of the animal. When filled with air, the animal’s body floated upward. A burst of air out the back end of the siphuncle pushed the animal forward.

Other Invertebrates

Brachiopods were also new in the Ordovician period. Brachiopods look like clams, but they do not belong to the same family. A brachiopod’s shells do not match. If you look closely, one shell is slightly larger at the hinge. The shells themselves each have bilateral symmetry. Clam shells have identical hinges so their shells are not symmetrical.

Crinoids were an echinoderm that looked like a feathery plant. They grew long “stems” and attached themselves to the ocean floor. The tentacles floated in the water. They caught the crinoid’s food.

Sponges, corals and even primitive fish lived in Ordovician waters. The plant life in the water was red and green algae. On the very bottom of the oceans were the first animals with primitive backbones. They did not move very well, but they would grow to become the most important new animal group in the sea. The seas of the Ordovician Period were full of many diverse species. 

References : http://en.wikipedia.org/wiki/Ordovician

                   http://www.fossils-facts-and-finds.com/ordovician_period.html

Cambrian Earth- 500-400-million years ago

                                       Earth, 500-400 million years ago.

The Cambrian is the first geological period of the Paleozoic Era, lasting from 541.0 ± 1.0 to 485.4 ± 1.9 million years ago (mya) and is succeeded by the Ordovician. Its subdivisions, and indeed its base, are somewhat in flux. 

The Cambrian is unique in its unusually high proportion of lagerstätten. These are sites of exceptional preservation, where 'soft' parts of organisms are preserved as well as their more resistant shells. This means that our understanding of the Cambrian biology surpasses that of some later periods. 

The Cambrian Period marked a profound change in life on Earth; prior to the Cambrian, living organisms on the whole were small, unicellular and simple. Complex, multicellular organisms gradually became more common in the millions of years immediately preceding the Cambrian, but it was not until this period that mineralized – hence readily fossilized – organisms became common. 

                                                  Trilobites were very common during this time

The rapid diversification of lifeforms in the Cambrian, known as the Cambrian explosion, produced the first representatives of many modern phyla, representing the evolutionary stems of modern groups of species, such as the molluscs and arthropods.

          Anomalocaris was an early marine predator, among the various arthropods of the time.

The Earth was generally cold during the early Cambrian, probably due to the ancient continent of Gondwana covering the South Pole and cutting off polar ocean currents. There were likely polar ice caps and a series of glaciations, as the planet was still recovering from an earlier Snowball Earth. It became warmer towards the end of the period; the glaciers receded and eventually disappeared, and sea levels rose dramatically. This trend would continue into the Ordovician period...

Snow Ball Earth

                                                                          

Snowball Earth

                                     

Daemonosaurus- -The Prominent Toothed

Let me begin my first post with the description of the dinosaur namely "Daemonosaurus" which inspired me to create this blog and ID. After I read about it, I understood how distinct this species were compared to other dinosaurs. Enjoy reading!

Daemonosaurus (pron.:"DAY-mow-no-SORE-us") is an extinct genus of theropod dinosaur from the Late Triassic of New Mexico. Fossils have been found from deposits in the Chinle Formation, which is latest Triassic in age. While theropods had diversified into several specialized groups by this time, Daemonosaurus is a basal theropod that lies outside the clade Neotheropoda. Daemonosaurus is unusual among early theropods in that it had a short skull and long protruding teeth.

The specific name, derived from Greek word "chauliodus" (χαυλιόδους) meaning "prominent toothed," which is in reference to its procumbent front teeth

Daemonosaurus is known from a single holotype CM 76821, which consists of a skull, mandibles, an atlas bone, an axis bone, neck vertebrae, and rib fragments discovered at Ghost Ranch.

Daemonosaurus is unique among Triassic theropods because it has an unusually short snout, and all other early theropods had long heads and jaws.

Hello Dear Readers, Let me welcome you to one of the few blogs that hopefully will entertain and enlighten you with information's and facts about "the World We Never Saw". I deeply believe that there are people around the world who gets goosebumps all over their body when they read about the earth's past and to KNOW that all this happened in our world million years ago, and we are living on that same land....Its a great feeling... 

This is my first ever Blog Post I hope it goes well and I would like all your support.:)