Ant Fossils from Europe Resemble Modern Asian Ants

The 20 million years old ant preserved in amber on the left is a species of turtle ant from the genus Cephalotes which was found in the Dominican Republic. The living ant on the right is a related species, Cephalotes cf. laminatus, from Venezuela. Photos by Benoit Guénard.


Professor Evan Economo of the Okinawa Institute of Science and Technology Graduate University and his team have compared a database of modern ants with a database of fossil ants. The analysis has shown in which locations fossilized ants are more related to the ants now living in the same area of the world. Interestingly, ants which lived in Europe 45 to 10 million years ago were more similar to modern ants now living in South East Asia than their European counterparts.

“Imagine I could send an ecologist to Europe back tens of millions of years ago. Then, ask them to look at the ants and to tell me where they think they have landed … They would say South East Asia,” he said. The study has been published in the Journal of Biogeography.

The team is studying why we encounter certain groups of ants in specific regions on Earth, and how their distribution has changed over time. Understanding the worldwide distribution of biodiversity is one of the biggest challenges for biogeographers and ecologists.

“Many biologists tend to perceive biodiversity as a fixed image, while in fact it is a very long movie and we don’t understand the full story yet. Getting more snapshots of this movie will help us to reconstruct the teaser trailer of life,” said co-author Benoit Guénard.

Today’s biodiversity evolved over millions of years and although invertebrates count for two-thirds of life on Earth, large scale analyses are still scarce.

“To understand the present, we need to consider history” said Dr. Economo.

The three biologists combined a fossil ant database with a modern ant database including 1,060 publications, over 4,000 worldwide sites, and several fossil deposits to compare the geographical distribution of modern ants with their ancestors.

“Until recently, scientists were able to talk about the characteristics of ants fossils, but it is only thanks to new informatics tools that we are able to combine and quantify a huge amount of data,” Economo said.

The integration of these two databases shows interesting differences and similarities between the geographical distribution of ancient and modern ants. For example, fossil ants which once lived in Europe were more comparable with modern South East Asian, Indian, or even Australian ants, rather than with the ants currently populating Europe or Africa. During most of the Cenozoic era, especially at its earliest period around 60 to 5 million years ago, the Earth was much warmer. Tropical forests covered most of the globe, including Europe, and even Antarctica was covered with vegetation. In those days Europe was a tropical rainforest with a completely different ecosystem from the one we see today. Then climate shifts, continent re-arrangements, and ecological variations caused large-scale extinctions in some parts of the world. Ants adapted to warm climate were not able to survive in cooler temperatures. The data also showed evidence of continent-wide extinctions. For example, ants that were once globally widespread are now restricted only to Sri Lanka.

These results help scientists to go a step closer into the interpretation of the “tree of life”, the network of the relationships between living and extinct organisms across the globe.

“If we can get a better understanding of the climate in the past, of the consequences of climate change and of how it shaped communities, then we might be able to interpret the future of biodiversity under the current climate change scenario,” said Guénard.

Read more at:

Integration of global fossil and modern biodiversity data reveals dynamism and stasis in ant macroecological patterns

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