Back to Discover

Why are vertebrate eyes so different from those of other animals?

March 7, 2026
Ars technica
Why are vertebrate eyes so different from those of other animals?

Here’s something that might just turn your view of evolution upside down — our eyes might have started as a single, cyclops-like light sensor. Federica Sgorbissa reports that, according to a new study from the University of Sussex and Lund University, vertebrate eyes didn't simply evolve from the paired eyes of early animals. Instead, they could be a ‘reinvention’ — a reshaping of one original eye that survived a strange detour. Now, here’s where it gets fascinating: Dan-Eric Nilsson, a leading expert in eye evolution, explains that vertebrate eyes are totally different from those of other animals like insects or mollusks. The big difference? The main light sensors in vertebrates are of ciliary origin, while in other groups, they’re rhabdomeric — think of it as two different building blocks. So what does this actually mean for us? Our complex eyes might be a clever evolutionary reboot, not just a simple step from primitive eyes. And honestly, it’s a game-changer in understanding how we see the world — thanks to insights from Federica Sgorbissa and her colleagues.

After losing its original eyes, one of our distant ancestors may have done what evolution does best: tinkered with what was available, reshaping a single central visual organ into two new eyes.

That's the idea behind a new theoretical synthesis published in Current Biology. According to the data considered by its authors—a team from the University of Sussex (UK) and Lund University (Sweden)—vertebrate eyes, ours included, may not descend directly from the paired eyes of early bilaterian animals. Instead, they may have been “reinvented” from what was once a single light-sensitive organ that survived an evolutionary detour.

Strange eyes

“Vertebrate eyes are so fundamentally different from the lateral eyes of other animal groups,” explains Dan-Eric Nilsson, senior author of the study from Lund University and a leading expert in eye evolution. “The key difference is the identity of the main photoreceptor, which is of ciliary nature in the vertebrate eye but rhabdomeric in other animal groups, such as arthropods and cephalopods,” he adds.

Read full article

Comments

Audio Transcript

After losing its original eyes, one of our distant ancestors may have done what evolution does best: tinkered with what was available, reshaping a single central visual organ into two new eyes.

That's the idea behind a new theoretical synthesis published in Current Biology. According to the data considered by its authors—a team from the University of Sussex (UK) and Lund University (Sweden)—vertebrate eyes, ours included, may not descend directly from the paired eyes of early bilaterian animals. Instead, they may have been “reinvented” from what was once a single light-sensitive organ that survived an evolutionary detour.

Strange eyes

“Vertebrate eyes are so fundamentally different from the lateral eyes of other animal groups,” explains Dan-Eric Nilsson, senior author of the study from Lund University and a leading expert in eye evolution. “The key difference is the identity of the main photoreceptor, which is of ciliary nature in the vertebrate eye but rhabdomeric in other animal groups, such as arthropods and cephalopods,” he adds.

Read full article

Comments

View original article
0:00/0:00
Why are vertebrate eyes so different from those of other animals? | Speasy