Posted on 2 Comments

DINOSAUR EGG MISSING LINK

flickr-4155003915-original-1Recently scientists discovered a clutch of 150-million-year-old fossil eggs that may be an important “missing link” in evolutionary history. The eggs are dated to be from the Late Jurassic period and contain actual fossilized embryos. This find allows paleontologists a rare insight into the early lives of a group of dinosaurs known as theropods, which include the iconic Tyrannosaurus rex and modern birds. The discovery also addresses questions of about which shells came from which particular species.

“Most of the time, you find eggs without the embryos, or the embryos without the eggs,” said said Ricardo Araújo to National Geographic. Araújo is a vertebrate paleontologist at Southern Methodist University in Dallas, Texas, and lead author of the new study.

The majority of fossilized eggs found up until now have been from the Cretaceous period—about 80 million years ago. The gap between the Cretaceous period and the Early Jurassic period (190 million years ago) has confounded scientists, leaving them without the necessary information to make concrete conclusions about the “bird like” qualities seen in the later dinosaur species. These qualities are believed to have occurred during the gap between the Late Jurassic period and Cretaceous period. The newly discovered clutch of theropod eggs and embryos are exactly what paleontologists needed to solve the evolutionary mystery.

The theropod eggs belong to a group called Trovosaurus, which are extremely porous, leading scientists to believe the eggs were at one time buried. The pores allowed gas exchange between the inside and outside of the egg while underground. The embryos found inside the theropod eggs were formed enough to have significant skeletal structure. This means that the eggs are from a very late stage of incubation, possibly the last week of development before they would have hatched—another impressive aspect of this particular scientific discovery.

Posted on

IS THE SHARK MANS’ ANCIENT ANCESTOR?

Is the shark a common ancestor of humans and fish?

Recent studies have revealed that humans may have evolved from a shark that dates back to 300 million years ago.

As research continues, more and more evidence is discovered that points our ancestral lines to a prehistoric shark that existed in a time when fish with cartilage and fish with bones (what humans are said to evolve from) were not separated into two different evolutionary lineages, yet.

Telegraph writes:

The primitive fish named Acanthodes bronni was the common ancestor of all jawed vertebrates on Earth – including mankind, according to new research.

Acanthodes, a Greek word for “spiny”, existed before the split between the earliest sharks and the first bony fishes – the lineage that would eventually include human beings.

Fossils have been found in Europe, North America and Australia.

Compared with other spiny sharks it was relatively large, measuring a foot long. It had gills instead of teeth, large eyes and lived on plankton.

Professor Michael Coates, a biologist at the University of Chicago, said: “Unexpectedly, Acanthodes turns out to be the best view we have of conditions in the last common ancestor of bony fishes and sharks.

“Our work is telling us the earliest bony fishes looked pretty much like sharks, and not vice versa. What we might think of as shark space is, in fact, general modern jawed vertebrate space.”

Read more at telegraph.co.uk/news

Posted on

OCTOPUS COMES OUT OF WATER AND WALKS!

To travel between salt-water holes, octopi will come out of the water and literally walk.

Now, this is fascinating!

This little dude just gets up and climbs out of the water, just feet away from people and a camera, to travel to another tide pool AND he’s carrying a crab the whole time!

This guy must be used to humans ’cause he doesn’t give making himself ridiculously vulnerable a second thought.

Watch the video below:

The Huffington Post writes:

Onlookers at the Fitzgerald Marine Reserve in Moss Beach, Calif. were shocked when this octopus crawled out of the water and began walking on dry land.

Apparently this type of behavior is not that uncommon, though it is rarely seen up close. Scientists have observed octopuses using their limbs to walk along the ocean floor, some even doing so using only two of their eight limbs.

In these cases, the other limbs are used “tocamouflage themselves as plant material in order to hide from lurking predators,” according to a report from MSNBC.

Read more at huffingtonpost.com