Chlorophyll Discovered in Billion-year-old Algal Microfossil

  Seagriculture 2022 EU

Microphotograph of the fossil Arctacellularia tetragonala, one of the first unambiguous fossils of photosynthetic eukaryotes.

Researchers have discovered the first in situ evidence of chlorophyll remnants in a billion-year-old multicellular algal microfossil preserved in shales from the Congo Basin. This discovery, which is the subject of a paper published in the journal Nature Communications, has made it possible to identify one of the first phototrophic eukaryotic organisms in the fossil record opening new perspectives in the study of the diversification of eukaryotes within the first ecosystems.

The emergence of photosynthesis is a fundamental step in the evolution of eukaryotes and therefore of life, as it profoundly modified terrestrial ecosystems. Although molecular clocks (a technique used by biologists to date the temporal distance between two species from their common ancestor) predict this emergence during the Proterozoic (third Precambrian eon from -2.5 billion to -541 million years ago), scientists have found very few unambiguous microfossils of photosynthetic eukaryotes. The detection of metabolic by-products in situ in individual microfossils is the key to the direct identification of their metabolisms, but until now it has remained elusive.

The new study by Marie Catherine Sforna, a postdoctoral researcher at the Early Traces of Life Laboratory (Astrobiology/Faculty of Science) of the ULiège University, directed by Prof. Emmanuelle Javaux, has provided a new methodology using fluorescence and synchrotron X-ray absorption to identify the phototrophic metabolism of the first eukaryotes in the fossil record. The fossils were preserved as carbonaceous compressions in shales from the Congo Basin in the Democratic Republic of Congo.

With collaborators from the Australian National University, the Commission for the Geological map of the world (France), the Swiss Light Source (Switzerland), the Synchrotron Soleil (France), the University of Lille (France), the UR FOCUS (Liège) and the Royal Museum for Central Africa (Belgium) researchers from the University of Liège identified nickel-geoporphyrins, preserved in situ in the cells of a multicellular eukaryote that is about one billion years old: Arctacellularia tetragonala.

“We identified these fragments as chlorophyll derivatives, indicating that Arctacellularia tetragonala was a phototrophic eukaryote, one of the first unambiguous algae,” said Dr. Sforna.

All rights reserved. Permission required to reprint articles in their entirety. Must include copyright statement and live hyperlinks. Contact david@algaeplanet.com. Algae Planet accepts unsolicited manuscripts for consideration, and takes no responsibility for the validity of claims made in submitted editorial.

Seagriculture USA 2022
Algametrics Ad

Women of Algae

Subscribe

Seaweed Industry Job Board

Archives

A Beginner’s Guide

Subscribe to Algae Planet

Join our subscriber list to receive the latest news and updates from Algae Planet.

You have Successfully Subscribed!