‘We need to rethink evolution’: Animal kingdom is OLDER than previously thought and scientists need to look further back in time to understand the diversity of species on Earth
- Scientists say the older ideas on early animal evolution may need to be revised
- Research suggests the animal kingdom is much older than previously thought
- It was diversifying well before the Cambrian explosion 541 million years ago
- Dr Jennifer Hoyal Cuthill explains why animals on Earth are being re-examined
English naturalist Charles Darwin published the ‘Origin Of Species’ more than 150 years ago.
Darwinian evolution is a prominent scientific theory which describes how lifeforms develop through a process known as natural selection.
However, the latest research suggests some of the widely-accepted ideas around how animal species evolved on Earth need to be revised.
The latest findings suggest the animal kingdom we occupy is much older than previously thought and was diversifying well before previous estimates, which placed the arrival of most animal species during the Cambrian explosion 541 million years ago.
Writing for The Conversation, Dr Jennifer Hoyal Cuthill, a visiting researcher in palaeobiology from the University of Cambridge, explains why ancient fossils are being re-examined and what the research could mean for the timeline of life on Earth.
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The English naturalist Charles Darwin published the Origin of Species more than 150 years ago. Darwinian evolution is a powerful scientific theory describing how life forms develop through natural selection
When did animals originate?
In research published in the journal Palaeontology, we show that this question is answered by Cambrian period fossils of a frond-like sea creature called Stromatoveris psygmoglena.
The Ediacaran Period lasted from 635 to 542m years ago.
This era is key to understanding animal origins because it occurred just before the ‘Cambrian explosion’ of 541m years ago, when many of the animal groups living today first appeared in the fossil record.
Yet when large fossils from the Ediacaran Period were first identified during the 20th century they included unique frond-like forms, which were not quite like any living animal.
This prompted one of the greatest debates still raging in evolution. What exactly were these enigmatic fossils, often called the Ediacaran biota?
Linking Ediacaran and Cambrian fossils
By comparing members of the Ediacaran biota to a range of other groups in a computer analysis of evolutionary relationships, we found that Stromatoveris psygmoglena provides a crucial link between the older period and the animals which appeared in startling number and diversity during the Cambrian period.
Fossils of Stromatoveris psygmoglena are found in only one place in the world: Chengjiang county, China. This region is known for exceptionally well-preserved Cambrian fossils from 518m years ago.
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While the fossil record most often preserves only hard shells or bones, some special sites like Chengjiang preserve the remains of soft-bodied animals, such as Stromatoveris psygmoglena.
Originally described in 2006 from eight known specimens, we examined over 200 new fossils of the organism that have since been discovered by researchers from Northwest University, China, and dated to the Cambrian period.
The way in which fossils of the Ediacaran Period were preserved has been another of their mysteries. These fossils often show signs of bending, twisting and tearing, suggesting that they preserve soft-bodied organisms without hard parts.
However, there is rarely anything left of the soft tissues themselves.
Instead, they left moulds in the surrounding sediment, a little like a footprint on the beach.
When large fossils from the Ediacaran Period were first identified during the 20th century they included unique frond-like forms, which were not quite like any living animal. Pictured is an Ediacaran fossil from the National Earth Science Museum, Namibia
In contrast, the newly examined Cambrian fossils of Stromatoveris psygmoglena retain carbon-based tissue, allowing us to see the detailed and internal anatomy of the body itself.
During a research fellowship at the Tokyo Institute of Technology and the University of Cambridge, the new Cambrian period fossils of Stromatoveris psygmoglena were compared to earlier Ediacaran fossils in a computer analysis of anatomy and evolutionary relationships.
This was also the first analysis to test the relationships between the Ediacaran biota and a range of other organisms, covering single-celled creatures called protozoans, algae, fungi, and nine types of animals, including Stromatoveris psygmoglena.
This analysis used over 80 photographs of individual fossil specimens to compare anatomical features across these groups.
The analysis showed that Stromatoveris psygmoglena and seven key members of the Ediacaran biota share very similar anatomies, including multiple, branched fronds which radiate outwards like seaweed, uniting them all in a new group of early animals called Petalonamae.
The name means ‘Nama Petals’ and was chosen to honour biologist Hans Pflug and his work on the Ediacaran biota in Namibia, a reference to the petal-like fronds which, Pflug noted, distinguish these unusual animals.
Rethinking animal evolution
Uniting these members of the Ediacaran biota and Stromatoveris psygmoglena in a single group of animals has major implications for animal origins. In light of this new evidence, some older ideas on early animal evolution may need to be revised.
Pictured is a Cambrian fossil of Stromatoveris from Northwest University, China. The ‘Cambrian explosion’ of 541m years ago is when many of the animal groups living today first appeared in the fossil record
WHAT WAS THE ‘CAMBRIAN EXPLOSION’?
Scientists have long speculated that a large oxygen spike during the ‘Cambrian Explosion’ was key to the development of many animal species.
The Cambrian Explosion, around 541 million years ago, was a period when a wide variety of animals burst onto the evolutionary scene.
Before about 580 million years ago, most organisms were simple, composed of individual cells occasionally organised into colonies.
Over the following 70 or 80 million years, the rate of evolution accelerated and the diversity of life began to resemble that of today.
It ended with the Cambrian-Ordovician extinction event, approximately 488 million years ago.
A recent study linked the historic rise in oxygen responsible for the formation of animal life on Earth to fossil fuels. Pictured: This black shale, formed 450 million years ago, contains fossils of trilobites and organic material that helped support these in oxygen
Because members of the Ediacaran biota can now be classed as animals, we can date the origin of the animal kingdom to at least the time when these fossils appeared.
The oldest members of these groups are known as ‘rangeomorphs’ and appear in the fossil record approximately 571m years ago, in the late Ediacaran Period.
This means that animal species were diversifying well before the Cambrian explosion.
It may also mean that the search for animal origins should now focus on the time before this, in the early Ediacaran and even more ancient geological periods.
Based on this, animals may have originated much earlier than the traditional reading of the fossil record had suggested.
This study also has key implications for the ecology and eventual extinction of the petalonamids.
Many Ediacaran species have not been found in later rocks leading some researchers to think that they were a ‘failed experiment’ in evolution, disappearing by the beginning of the Cambrian.
Indeed, this was my own view until I saw the remarkable new fossils of Stromatoveris psygmoglena.
‘Rangeomorphs’ appear in the fossil record approximately 571m years ago, in the late Ediacaran Period. Pictured is the front view of a rangeomorph fossil, the oldest of the Ediacaran biota
HOW HAS THE SHAPE OF OUR BRAINS EVOLVED OVER TIME?
New research suggests key evolutionary changes in our brain shape occurred 100,000-35,000 years ago. Stock image
Researchers at Germany’s Max Planck Institute for Evolutionary Anthropology discovered that key evolutionary changes in our brain shape occurred roughly 100,000 to 35,000 years ago
The Homo sapiens brain took on a globe-like shape that’s ’rounder and less overhanging’
By contrast, our Neanderthal ancestors’ brains had a more elongated shape
The evolution of our brain shape coincided with major developments in behavior, as Homo sapiens began to:
- Build tools
- Develop a working and long-term memory
- Possess self-awareness
- Use language
- Plan activities
- Understand numbers
- Pay attention to their surroundings
- Develop emotions
The brain began to look more like a globe as a result of bulging in the parietal area and the cerebellum
The inclusion of this Cambrian animal among the petalonamids changes the picture of the Ediacaran biota.
Stromatoveris psygmoglena shows that the petalonamids were alive and well over 20m years into the Cambrian period and did not go extinct at its outset, as had been thought.
Even more intriguing, more than 200 fossils of Stromatoveris psygmoglena have now been found, despite the fact that it lacked hard parts which are usually most easily preserved.
This indicates that this species was an important member of its shallow marine ecosystem rather than a rare or marginal survivor.
This could mean that the petalonamids adapted more successfully to the changes of the Cambrian period than had been thought, or that the Ediacaran period and its animals were less alien and more advanced than previously realised.
We can be confident, however, that the animal kingdom we occupy is much older than we once thought.
Dr Jennifer Hoyal Cuthill is a visiting researcher in palaeobiology at the University of Cambridge.
This article was originally published in The Conversation.
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