Two studies published in the latest issue of Science have revealed that birds, reptiles, and mammals have developed complex ...

New research has revealed that birds, reptiles, and mammals have developed complex brain circuits independently, despite sharing a common ancestor. These findings challenge the traditional view of ...

The pallium has traditionally been considered a comparable structure among mammals, birds, and reptiles, varying only in complexity levels. It was assumed that this region housed similar neuronal ...

The pallium has traditionally been considered a comparable structure among mammals, birds, and reptiles, varying only in complexity levels. It was assumed that this region housed similar neuronal ...

Animals are not just inhabitants of the natural world—they are its architects. A new study led by Professor Gemma Harvey from ...

A similar phenomenon has occurred in the brains of birds, reptiles, and mammals. According to three studies published in Science, their grey matter has evolved to perform complex functions, using ...

Traditionally, experts believed the pallium was a shared structure among mammals, birds, and reptiles, varying only in complexity. They assumed that this brain region contained similar neuronal types ...

The study found that birds, mammals, and reptiles develop their sensory processing circuits through different developmental sequences. While the resulting circuits perform similar functions, they ...

The pallium has traditionally been considered a comparable structure among mammals, birds, and reptiles, varying only in complexity levels. It was assumed that this region housed similar neuronal ...