Scientists have a passion for categorizing things, especially when it comes to life on Earth. The common categories are animals, plants, fungi, protists (like algae and amoeba), bacteria, and archaea (microscopic single-celled organisms).
However, recent studies have hinted that there might be more to the tree of life than we previously thought. This is due to a prehistoric cylindrical life form that some British scientists believe belongs to a unique branch of life.
The mysterious creature is known as Prototaxite and existed around 44-360 million years ago.
Professor Benjamin J.W. Mills, an expert in the evolution of the Earth system at Leeds University, mentioned that these creatures evolved during a time when Earth was becoming more habitable for organisms like them. The spread of plants and fungi on land increased oxygen levels in the atmosphere, leading to a surge in global photosynthesis.
These Prototaxite towers could reach heights of up to 8 meters and were often mistaken for massive tree trunks, despite only being a few inches wide.
Initially thought to be a type of fungus, recent research on Prototaxite suggests otherwise. By analyzing the fossilized bodies of Prototaxites Taiti found in Scotland, scientists concluded that it was a distinct life form rather than a fungus.
Unlike true fungi, the cells of P. Taiti contained lignin instead of chitin. This difference in molecular composition confirmed that it was not a fungus but rather a member of an extinct lineage.
The implications of these findings raise questions about the evolution of life and its impact on Earth’s atmosphere. The study of P. Taiti sheds light on the intricate relationship between organisms and their environment over time.
Experts like Professor Neil Gow from the University of Exeter emphasize the significance of such discoveries in understanding our planet’s history and potential habitability of other worlds.
To learn more about the experts involved in this research:
About our experts
Benjamin JW Mills is a biogeochemist and professor of the evolution of the Earth System at Leeds University. His work focuses on understanding the environmental changes that shaped Earth’s habitability and whether similar conditions could exist on other planets.
Neil Gow is a former professor of microbiology at the University of Exeter. His research on fungal diseases and cell wall structure has contributed to our understanding of life-threatening infections.
Source: www.sciencefocus.com