Window to the past: New microfossils suggest earlier rise in complex life

Date:

Share post:

Microfossils from Western Australia may capture a jump in the complexity of life that coincided with the rise of oxygen in Earth’s atmosphere and oceans, according to an international team of scientists.

The findings, published in the journal Geobiologyprovide a rare window into the Great Oxidation Event, a time roughly 2.4 billion years ago when the oxygen concentration increased on Earth, fundamentally changing the planet’s surface. The event is thought to have triggered a mass extinction and opened the door for the development of more complex life, but little direct evidence had existed in the fossil record before the discovery of the new microfossils, the scientists said.

“What we show is the first direct evidence linking the changing environment during the Great Oxidation Event with an increase in the complexity of life,” said corresponding author Erica Barlow, an affiliate research professor in the Department of Geosciences at Penn State. “This is something that’s been hypothesized, but there’s just such little fossil record that we haven’t been able to test it.”

When compared to modern organisms, the microfossils more closely resembled a type of algae than simpler prokaryotic life — organisms like bacteria, for example — that existed prior to the Great Oxidation Event, the scientists said. Algae, along with all other plants and animals, are eukaryotes, more complex life whose cells have a membrane-bound nucleus.

Microfossils are contained within black chert like the ones seen here [Credit: Provided by Erica Barlow. All Rights Reserved]

More work is required to determine if the microfossils were left behind by eukaryotic organisms, but the possibility would have significant implications, the scientists said. It would push back the known eukaryotic microfossil record by 750 million years.

“The microfossils have a remarkable similarity to a modern family called Volvocaceae,” Barlow said. “This hints at the fossil being possibly an early eukaryotic fossil. That’s a big claim, and something that needs more work, but it raises an exciting question that the community can build on and test.”

Barlow discovered the rock containing the fossils while conducting her undergraduate research at the University of New South Wales (USNW) in Australia, and she conducted the current work as part of her doctoral work at UNSW and then while a postdoctoral researcher at Penn State.

“These specific fossils are remarkably well preserved, which allowed for the combined study of their morphology, composition, and complexity,” said Christopher House, professor of geosciences at Penn State and a co-author of the study. “The results provide a great window into a changing biosphere billions of years ago.”

The Hamersley Range, a mountainous region of Western Australia, where researchers conducted their work [Credit: Provided by Erica Barlow . All Rights Reserved]

The scientists analyzed the chemical makeup and carbon isotopic composition of the microfossils and determined the carbon was created by living organisms, confirming that the structures were indeed biologic fossils. They also uncovered insights into the habitat, reproduction and metabolism of the microorganisms.

Barlow compared the samples to microfossils from before the Great Oxidation Event and could not find comparable organisms. The microfossils she found were larger and featured more complex cellular arrangements, she said.

“The record seems to reveal a burst of life — there’s an increase in diversity and complexity of this fossilized life that we are finding,” Barlow said.

Compared to modern organisms, Barlow said, the microfossils have explicit similarities with algal colonies, including in the shape, size and distribution of both the colony and individual cells and membranes around both cell and colony.

Nodules of microfossilierous black chert are scattered throughout a rock outcrop [Credit: Provided by Erica Barlow . All Rights Reserved]

“They have a remarkable similarity and so, by that way of comparison, we could say these fossils were relatively complex,” Barlow said. “There is nothing like them in the fossil record, and yet, they have quite striking similarities to modern algae.”

The findings have implications for both how long it took complex life to form on early Earth — the earliest, uncontroversial evidence of life is 3.5 billion years old — and what the search for life elsewhere in the solar system may reveal, the scientists said.

“I think finding a fossil that is this relatively large and complex, relatively early on in the history of life on Earth, kind of makes you question — if we do find life elsewhere, it might not just be bacterial prokaryotic life,” Barlow said. “Maybe there’s a chance there could be something more complex preserved — even if it’s still microscopic, it could be something of a slightly higher order.”

Author: Matthew Carroll | Source: Penn State University [November 07, 2023]

ADVERTISEMENT

spot_img

Related articles

Bird-like dinosaur is oldest unearthed in North America

A team of palaeontologists from the UK and US have identified a one of a kind 150 million...

Fossils cast doubt on climate-change projections on habitats

Leave it to long-dead short-tailed shrew and flying squirrels to outfox climate-modelers trying to predict future habitats. Maps show...

Fossils reveal diverse Mesozoic pollinating lacewings

Insect pollination played an important role in the evolution of angiosperms. Little is known, however, about ancient pollination...

Perfectly preserved Ice Age cave bear unearthed on Siberian island

The body of an Ice Age cave bear has been discovered in exceptional condition on Bolshoy Lyakhovsky Island...

Soil erosion and wildfire another nail in coffin for Triassic era

Curtin research has revealed that soil erosion and wildfires contributed to a mass extinction event 201 million years...

Deadliest period in Earth’s history was also the stinkiest

Tiny microbes belching toxic gas helped cause -- and prolong -- the biggest mass extinction in Earth's history,...

Holocene temperature in the Iberian Peninsula reconstructed studying insect subfossils

Remains of chironomid subfossils, a type of insects similar to mosquitoes, were used in a study by researchers...