One of the most significant events in the history of life was when fish evolved into tetrapods, crawling out of the water and eventually conquering land. The term tetrapod refers to four-limbed vertebrates, including humans.

To complete this transition, several anatomical changes were necessary. One of the most important was the evolution of hands and feet.

Working with researchers from the University of Quebec, in 2010 we discovered the first complete specimen of Elpistostege watsoni. This tetrapod-like fish lived more than 380-million-years ago, and belonged to a group called elpistostegalians.

Our research based on this specimen, published in Nature, suggests human hands likely evolved from the fins of this fish, which we'll refer to by its genus name, Elpistostege.

Elpistostegalians are an extinct group that displayed features of both lobe-finned fish and early tetrapods. They were likely involved in bridging the gap between prehistoric fish and animals capable of living on land.

Thus, our latest finding offers valuable insight into the evolution of the vertebrate hand.

The best specimen we've ever found
To understand how fish fins became limbs (arms and legs with digits) through evolution, we studied the fossils of extinct lobe-finned fishes and early tetrapods.

Lobe-fins include bony fishes (Osteichthyes) with robust fins, such as lungfishes and coelacanths.

Elpistostegalians lived between 393-359 million years ago, during the Middle and Upper Devonian times. Our finding of a complete 1.57m Elpistostege - uncovered from Miguasha National Park in Quebec, Canada - is the first instance of a complete skeleton of any elpistostegalian fish fossil.

Prior to this, the most complete elpistostegalian specimen was a Tiktaalik roseae skeleton found in the Canadian Arctic in 2004, but it was missing the extreme-end part of its fin.

When fins became limbs
The origin of digits in land vertebrates is hotly debated.

The tiny bones in the tip of the pectoral fins of fishes such as Elpistostege are called "radial" bones. When radials form a series of rows, like digits, they are essentially the same as fingers in tetrapods.

The only difference is that, in these advanced fishes, the digits are still locked within the fin, and not yet free moving like human fingers.

Our recently uncovered Elpistostege specimen reveals the presence of a humerus (arm), radius and ulna (forearm), rows of carpal bones (wrist) and smaller bones organised in discrete rows.

We believe this is the first evidence of digit bones found in a fish fin with fin-rays (the bony rays that support the fin). This suggests the fingers of vertebrates, including of human hands, first evolved as rows of digit bones in the fins of Elpistostegalian fishes.

What's the evolutionary advantage?
From an evolutionary perspective, rows of digit bones in prehistoric fish fins would have provided flexibility for the fin to more effectively bear weight.

This could have been useful when Elpistostege was either plodding along in the shallows, or trying to move out of water onto land. Eventually, the increased use of such fins would have lead to the loss of fin-rays and the emergence of digits in rows, forming a larger surface area for the limb to grip the land surface.

Our specimen shows many features not known before, and will form the basis of a series of future papers describing in detail its skull, and other aspects of its body skeleton.

Elpistostege blurs the line between fish and vertebrates capable of living on land. It's not necessarily our ancestor, but it's now the closest example we have of a "transitional fossil", closing the gap between fish and tetrapods.

The full picture
The first Elpistostege fossil, a skull fragment, was found in the late 1930s. It was thought to belong to an early amphibian. In the mid 1980s the front half of the skull was found, and was confirmed to be an advanced lobe-finned fish.

Our new, complete specimen was discovered in the fossil-rich cliffs of the Miguasha National Park, a UNESCO World Heritage site in Eastern Canada. Miguasha is considered one of the best sites to study fish fossils from the Devonian period (known as the "Age of Fish"), as it contains a very large number of lobe-finned fish fossils, in an exceptional state of preservation.

Related Links
Flinders University
Explore The Early Earth at TerraDaily.com

Tweet

Thanks for being here; We need your help. The Space Media Network continues to grow but revenues have never been harder to maintain. With the rise of Ad Blockers, and Facebook - our traditional revenue sources via quality network advertising continues to decline. And unlike so many other news sites, we don't have a paywall - with those annoying usernames and passwords. Our news coverage takes time and effort to publish 365 days a year. If you find our news sites informative and useful then please consider becoming a regular supporter or for now make a one off contribution.
SpaceMediaNetwork Contributor $5 Billed Once credit card or paypal		SpaceMediaNetwork Monthly Supporter $5 Billed Monthly paypal only

Earth's mantle, not its core, may have generated planet's Early magnetic field
San Diego CA (SPX) Mar 17, 2020
New research lends credence to an unorthodox retelling of the story of early Earth first proposed by a geophysicist at Scripps Institution of Oceanography at UC San Diego. In a study appearing March 15 in the journal Earth and Planetary Science Letters, Scripps Oceanography researchers Dave Stegman, Leah Ziegler, and Nicolas Blanc provide new estimates for the thermodynamics of magnetic field generation within the liquid portion of the early Earth's mantle and show how long that field was availabl ... read more