Sample locations relative to a palaeogeographic reconstruction of the continental configuration during the Givetian stage (around 387–382 Ma) of the Devonian period (around 419–359 Ma). Credit: Nature (2024). DOI: 10.1038/s41586-024-08101-9
The symbiotic relationship between corals and their photosynthetic algal partners (photosymbionts) goes back at least to the Devonian (385 million years ago), a Nature suggests. This is important for our understanding of earlier coral reef ecosystems.
All modern corals belong to a group called the scleractinians, which evolved in the Triassic Period (around 250 million years ago). These corals can be home to symbiotic organisms (for example, photosymbionts) that have a role in nutrient recycling, which can be particularly beneficial in nutrient-poor waters. However, it is not clear whether earlier, extinct forms of coral had photosymbionts or not.
Jonathan Jung, Alfredo MartÃnez-GarcÃa and colleagues study fossils of two extinct groups of coral—tabulate and rugose—from Devonian reefs and present proof of the presence of photosymbionts.
They do this by measuring coral-bound nitrogen isotopes, which can be used to distinguish whether corals derive their energy from photosynthetic symbionts or not. The results suggest that the tabulate coral they studied did have symbionts, but most rugose coral did not.
"These findings provide conclusive geochemical evidence of the earliest known example of symbiosis in corals," say the authors.
One of the tabulate corals called Thamnopora sp. which was one of the most important reef-building corals in the Devonian. Credit: Simon F. Zoppe.
More information: Jonathan Jung, Coral photosymbiosis on Mid-Devonian reefs, Nature (2024). .
Journal information: Nature
Provided by Nature Publishing Group
