Scientists have traced the evolutionary origin of humans' outer ears to the gills of ancient fish through a series of ...

Tens of millions of years ago, our primate ancestors responded to noises in much the same way many other mammals do, pricking their ears and deftly turning them towards the sound's source.

Physicists have discovered a sophisticated, previously unknown set of 'modes' within the human ear that put important constraints on how the ear amplifies faint sounds, tolerates noisy blasts, and ...

Andreas Schroer, the lead researcher from Saarland University in Germany, explained that it's thought our ancestors lost the ...

New research has highlighted a fascinating link between human outer ears and the gills of ancient fish. Gene-editing ...

Recent research conducted at Saarland University in Germany revealed that humans also move their ears in response to sound — at least to some degree. When we strain to catch what someone is ...

To test whether enhancer activity — and therefore gene regulation — is similar in fish gills and human outer ears, Crump and his colleagues inserted human outer ear enhancers into zebrafish ...

The muscles that enable modern humans to wiggle their ears likely had a more important job in our evolutionary ancestors. . | Credit: Khmelyuk/Getty Images The little muscles that enable people to ...

The scientists were able to incorporate enhancers that help form the elastic cartilage of the human outer ear into the genomes of zebrafish . Remarkably, the human outer ear enhancers were active ...

Get Instant Summarized Text (Gist) The mammalian outer ear has been traced back to ancient fish gills, revealing its evolutionary origin. Both structures share a rare tissue type, elastic ...