eyes that worked well in those color frequencies we know as “visible light” were able to find food and dodge danger better.
Those creatures lived longer and had babies who shared those traits
eyes that were more sensitive to other frequencies couldn’t work as well due to the environment they existed in, and as a result didn’t survive as well.
Not as many of them left to mate (hell, could have had a hard time even finding a mate!)
This is how natural selection optimizes life traits. It takes hundreds of thousands of generations for profound effects to emerge. You’re currently at the bleeding edge of life tech. Enjoy the details!
Eyes have evolved in several separate animal lineages. You, a bee, an octopus, and a box-jellyfish all have eyes, but their most recent common ancestors did not have eyes. Your eyes are different in many ways from those other species’, but they all have to make use of sunlight filtered through a nitrogen-oxygen atmosphere and water. So it’s unsurprising that they end up with some similar “design” features.
In other words:
This is how natural selection optimizes life traits. It takes hundreds of thousands of generations for profound effects to emerge. You’re currently at the bleeding edge of life tech. Enjoy the details!
Eyes have evolved in several separate animal lineages. You, a bee, an octopus, and a box-jellyfish all have eyes, but their most recent common ancestors did not have eyes. Your eyes are different in many ways from those other species’, but they all have to make use of sunlight filtered through a nitrogen-oxygen atmosphere and water. So it’s unsurprising that they end up with some similar “design” features.