Author Topic: Incredible Fossil Discovery Shows an Entire School of Fish From 50 M Years Ago  (Read 669 times)

Offline Vetus Ordo

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Incredible Fossil Discovery Shows an Entire School of Fish From 50 Million Years Ago

In Science Alert.

For a species as young and puny as humans, every ancient fossil is a most extraordinary gift from our planet's vast history. Even so, this 50-million-year-old bunch of dead fish might just be the coolest fossil we've ever seen. An unassuming slab of limestone from the Green River Formation in North America became the final resting place of not one, not two, but a whopping 259 fish of the extinct Erismatopterus levatus species. We don't know how they all got flattened so suddenly, but researchers from Arizona State University and Mizuta Memorial Museum in Japan hypothesise that a sand dune in shallow water could have collapsed right on top of the tiny creatures.

These fish used to live in the Green River region's mountain lakes during the Eocene, which occurred 56 to 34 million years ago. An adult E. levatus should be roughly 6.5 cm long (2.5 in), but these were babies - many of the pipsqueaks barely exceed 20 millimetres. No matter how tiny the fish are, though, for scientists the finding is still huge. Fossils are a beautiful glimpse into Earth's living past, but they rarely give us a sense of how ancient animals behaved, or how their behaviours may have changed over time. In this case, it's one thing to assume fish have been banding together into shoals for a long time but it's a different thing altogether to see proof of this ancient behaviour, perfectly frozen in stone.

Jumping on this rare opportunity to examine the schooling movements of a long-lost species, the team measured each and every tiny fish, mapped their positions, and ran 1,000 different simulations of the shoal's movement. The discovery reveals that fish really have schooled together for at least 50 million years. What's even more fascinating is that the species that do it today are evolutionarily distinct from these Eocene fish. Still, much like many fish living in the world now, these tiny swimmers were probably trying to reduce their chances of being swallowed by a predator - until a sudden tragedy swallowed them all at once.

The finding was published in Proceedings of the Royal Society B.


Collective motion by animal groups can emerge from simple rules that govern each individual's interactions with its neighbours. Studies of extant species have shown how such rules yield coordinated group behaviour, but little is known of their evolutionary origins or whether extinct group-living organisms used similar rules. Here, we report evidence consistent with coordinated collective motion in a fossilized group of the extinct fish Erismatopterus levatus, and we infer possible behavioural rules that underlie it. We found traces of two rules for social interaction similar to those used by extant fishes: repulsion from close individuals and attraction towards neighbours at a distance. Moreover, the fossilized fish showed group-level structures in the form of oblong shape and high polarization, both of which we successfully reproduced in simulations incorporating the inferred behavioural rules. Although it remains unclear how the fish shoal's structure was preserved in the fossil, these findings suggest that fishes have been forming shoals by combining sets of simple behavioural rules since at least the Eocene. Our study highlights the possibility of exploring the social communication of extinct animals, which has been thought to leave no fossil record.