>The hole in the retina is sizeable (~9 full moons in the sky), but we don’t notice it because [...] (2) our brain automatically fills in gaps in our visual field by interpolation
I still remember this bit from school and various pop-sci book, but is it actually true? Is there really some group of neurons in the brain somewhere that actively tries to restore the "raw" visual information that was blocked by the blind spot?
Thinking of ANNs, I felt it was more realistic that higher layers in the visual cortex are mostly only using the visual information to find patterns anyway, and that they're robust enough they can still find those patterns without the data from the blind spot locations. (As long as a pattern isn't fully contained within the blind spot regions of course)
An analogy would be a QR code reader that can still parse the encoded information if a part of the QR code is missing - but it won't actually "reconstruct" the missing sections to do this.
I read this does have a functional reason: Sperm cells have to be kept at slightly lower temperature than the body temperature, so if the testicles were inside the body, the sperm wouldn't survive.
Of course you could ask why sperm is so temperature sensitive in the first place...
It would be nice to refactor some of these. Vas deferens and laryngeal nerve look like easy pickings. Leave me my ear-wiggling. Any last bit of expression matters.
I'm dreading the horror of genetic manipulation it would open. The gene editing craze feels like it is right around the corner.
This is how future codebases will be analysed. Don't let perfect be the enemy of good. Evolution been doing Agile for aeons. Responding to change over following a plan ...
Ah; but how annoying it is to discover something like the inverted retina bug, only to figure out it is effectively unsolvable now due to all the follow-up architecture decisions built on it?
Not humans specifically but one of my favorite quirks of vertebrate evolution is the recurrent laryngeal nerve that loops around the aorta and goes back up to the larynx[1].
I still remember this bit from school and various pop-sci book, but is it actually true? Is there really some group of neurons in the brain somewhere that actively tries to restore the "raw" visual information that was blocked by the blind spot?
Thinking of ANNs, I felt it was more realistic that higher layers in the visual cortex are mostly only using the visual information to find patterns anyway, and that they're robust enough they can still find those patterns without the data from the blind spot locations. (As long as a pattern isn't fully contained within the blind spot regions of course)
An analogy would be a QR code reader that can still parse the encoded information if a part of the QR code is missing - but it won't actually "reconstruct" the missing sections to do this.
But I don't know if it really works like this.
Of course you could ask why sperm is so temperature sensitive in the first place...
I'm dreading the horror of genetic manipulation it would open. The gene editing craze feels like it is right around the corner.
In giraffes that nerve is several meters long.
[1] https://en.wikipedia.org/wiki/Recurrent_laryngeal_nerve
Another interesting one is the auricular tubercle[1], where the genetic trait of a "pointy" ear found in other mammals reappears in some humans.
[1] https://en.wikipedia.org/wiki/Darwin%27s_tubercle