草莓污视频导航

May 28, 2020

A fossil discovery reveals the earliest relative of modern mammals

Finding sheds further light on theories of mammalian evolution, write Jason D. Pardo and colleagues in Conversation Canada
The Joggins Fossil Cliffs in Nova Scotia are a unique and rich site for preserved fossils
The Joggins Fossil Cliffs in Nova Scotia are a unique and rich site for preserved fossils (Gorob), CC BY-SA

Over 300 million years ago, our ancestors diverged from the ancestors of reptiles and began the evolutionary journey towards becoming mammals.

What were these earliest ancestors like? For one, they looked nothing like modern mammals. The group known as聽聽鈥 described as 鈥渕ammal-like reptiles鈥 鈥 looked much more like reptiles but could be distinguished by a single large opening in the cheek, likely for jaw muscles. Synapsids slowly ascended to the top of the food chain, but we still know very little about the first 10 million years of synapsid evolution.

  • Authors of this article are , 草莓污视频导航; , Carleton University; and , University of Toronto.

As PhD candidates in paleontology, we were all working on different aspects of early tetrapod 鈥 four-footed animals 鈥 evolution. The three of us led a diverse research team that revisited some fossils which had been described as an early reptile named聽Asaphestera, collected in Nova Scotia. Our study led to a number of surprising results,聽.

Joggins, a UNESCO World Heritage site

Originally named Chegoggin by the Mi鈥檏maq people, the聽, preserve the remains of a vast fossil forest that 鈥 318 million years ago 鈥 would have been situated at the equator. Among the fossilized tree stumps and trunks, many of which are preserved in upright positions, is one of the richest fossil records of early tetrapods.

Read more:聽

The significance of these expansive fossil beds was recognized centuries ago by some of the leading geologists and paleontologists of the 19th century, when Darwin鈥檚 theory of evolution was revolutionizing the field of biology. It was at the Joggins Fossil Cliffs that geologist Charles Lyell developed聽聽and where Lyell and聽聽discovered what were, at the time, the earliest known fossils of land animals.

These animal fossils have since been periodically revisited, first by聽聽and later by聽, the father of Canadian vertebrate paleontology and longtime professor at McGill University.

Photograph of an excavation team led by Hillary Maddin and Arjan Mann at the Joggins Fossil Cliffs

Photograph of an excavation team led by Hillary Maddin and Arjan Mann at the Joggins Fossil Cliffs

Alexander Prieditis, author provided

The mystery of mammalian origins

The earliest ancestors of mammals appeared more than 300 million years ago. However, just like the ancestors of other groups of living animals, like amphibians and birds, early synapsids looked nothing like modern mammals. In particular, distinguishing early synapsids from early reptiles can be a real challenge.

Photograph (A) and interpretive illustration (B) of the new Joggins synapsid, Asaphestera playtris.

Photograph (A) and interpretive illustration (B) of the new Joggins synapsid, Asaphestera playtris.

Arjan Mann

Although we thought we were studying only one animal,聽Asaphestera intermedia, one of our major findings was recognizing that what previous paleontologists had thought was a single animal was actually a composite of multiple fossils of at least three very different animals! We could only be certain of two of them: a new reptile we named聽Steenerpeton silvae聽and an early synapsid,聽Asaphestera platyris, with evidence of a single temporal opening in the skull.

The original convolution of these species highlights how subtle the differences were between early mammal ancestors and early reptiles, and the value of re-evaluating historic fossil collections to appraise their identity in light of more recent work.聽Asaphestera platyris聽provides the oldest evidence of mammal-like reptiles in the fossil record, establishing a firm date for their diversification around 315 million years ago.

Photograph (A) and interpretive drawing of the new Joggins reptile, Steenerpeton silvae. Letter abbreviations refer to different anatomical elements

Photograph (A) and interpretive drawing of the new Joggins reptile, Steenerpeton silvae. Letter abbreviations refer to different anatomical elements

Arjan Mann

Climate change and rainforest collapse

The fossil cliffs at Joggins preserve a time right before a period of drastic climate change. The period between 370 to 300 million years ago was a cold period in Earth鈥檚 history,聽. Around 307 million years ago, the Earth began a process of global warming. This culminated in the largest mass extinction in Earth鈥檚 history approximately 50 million years later.

At the time, much of the equatorial region was covered in rainforests and tropical swamps, which were later fossilized as extensive coal layers across North America and Europe. When the warming began, these habitats dried up in an event called the聽, which triggered a minor mass extinction in these biodiversity hot spots.

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The survivors were all聽, such as modern amphibians and modern reptiles, and showed adaptations for surviving in drier environments.

Joggins is unique in preserving an early glimpse of some of these modern groups before the Carboniferous rainforest collapse. What we find are animals that survived the rainforest collapse were living alongside many of the animals that went extinct, but were rarer, smaller and harder to identify, like聽Asaphestera. This flies in the face of聽, which suggest that these more advanced animals originated at higher elevations or outside the tropics.

We still have a way to go to fully understand these earliest members of our own lineage, but these important fossils from Nova Scotia are pointing the way.