New research into the evolutionary history and prehistoric migrations of hyenas reveals surprising similarities between hyenas and prehistoric humans. 
University of Copenhagen


© CC0 Public Domain | Prehistoric hyenas and humans share migration patterns
The results from the University of Copenhagen and the University of Potsdam also indicate that humans had a detrimental effect on hyena populations about 100,000 years ago.
Prehistoric humans left Africa for the first time about 2 million years ago. The research community has been aware of this for some time. Now, novel research reveals that  apparently did the same thing.
"Our new study shows that  and hyenas left Africa at approximately the same time. And like humans, spotted hyenas have had extensive and complex migration between continents. We can observe repeated gene flow events between Africa and Eurasia," says Michael Westbury, corresponding author, and postdoc at GLOBE Institute at the University of Copenhagen.
The researchers collaborated with researchers at the University of Potsdam and sequenced complete genomes from both modern spotted hyenas in Africa and subfossils of the extinct cave hyena from Europe and Asia.
Separate lineages
The two kinds of hyena spotted and the cave was previously believed to form a closely related evolutionary lineage. DNA analyses published 15 years ago showed that the two types of hyena were genetically intermingled. Today, however, thanks to technological advances, the researchers have been able to obtain a lot more  and show that this genetic intermingling is limited. The new study thus reveals an ancient separation.
"The results nicely illustrate the power of Palaeogene analyses. The relationship of spotted and cave hyenas could not be resolved using morphological or short mitochondrial DNA sequence data and was actually discussed quite controversially for decades," says Michael Hofreiter Professor at the University of Potsdam.
While prehistoric hyenas show some similarities with humans in their trans-continental migration patterns, the researchers also found signs that modern humans of the species Homo sapiens had a detrimental impact on hyenas.
"Historical population sizes of spotted hyenas seem to correlate negatively with that of humans after about 100,000 years ago, echoing similar results we found for herbivores," says Rasmus Heller, Assistant Professor at the Department of Biology at the University of Copenhagen.
In addition, he explains that humans are believed to have played a role in the extinction of cave hyenas around the end of the last ice age.
That means that coexistence between humans and hyenas like that between humans and other large mammals may have changed from being relatively benign to detrimental as humans became more advanced.
The researchers argue that their study reveals new aspects of when and how animals moved across continents in prehistory.
"Our results conform with the hypothesis that animal migration may have occurred in pulses during which several species migrated more or less at the same time, possibly as a response to climate change. More comparative work is needed to confirm this hypothesis," says postdoc Michael Westbury, a postdoc at GLOBE Institute.

This article was originally published by the University of Copenhagen.
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