This figure is from J. Z. Young’s “

This figure is from J. Z. Young’s “The Anatomy of the Nervous System of Octopus Vulgaris” (1971, which I was fortunate enough to come across recently.  If you’re familiar with looking at mammalian brains (like me,) you’ll be utterly lost.  This is a view of the octopus brain from above – imagine that the octopus is lying on a table, it’s mantle away from you and its tentacle towards you, it’s eyes looking longingly into yours.  Its brain would be oriented as shown.  The two big swellings on either side are the optic lobes, which sit just underneath the eyes.  The rest of the octopus brain is wrapped around the esophagus.  The brachial nerve (labeled “n.br.” and seen towards the bottom of this figure) travels out to innervate the arms (more precisely, we might say, to connect the nervous system of the head and the nervous system of the arms, which is hugely complex in its own right.)  See this diagram of octopus general anatomy to get an idea of the size of the brain relative to the octopus’s body, as well as the nervous system of the arms.
This is a figure from the same work showing a section of the octopus brain from the side.  In this figure, the mouth and tentacles would be off to the left, with the mantle off to the right.  The big white hole in the middle of the brain is at the level of the oesophagus, although I’m not sure if it is actually the oesophagus in this section.  The brain is thus divided into supraoesophageal and suboesophageal masses (the former being above and the latter below the oesophagus.)  This image does not include the optic lobes.

While the octopus brain is smaller than that of birds or mammals when adjusted for body weight, it is still a highly-developed, centralized brain with specialized substructures within it.  Within the next few weeks, I’ll try to cover some of the research that has been done to map the functionality of the cephalopod brain, as scant as it is in comparison to the literature on mammalian brains.  For now, though, I’ll go through it briefly.

It is misleading, actually, to focus only on the brain if we’re trying to understand the nervous system of octopus – most of the neurons in an octopus (roughly 2/3 of them, actually) lie in the nervous system of the arms, which is thought to control some aspects of movement with little input from the brain.

Young divides the octopus brain into 5 functional areas: Lower, intermediate, and higher motor centers, receptor analyzers, and memory centers.  We’ll go through them all briefly.

Lower motor centers are those which contains the neurons controlling muscles directly.  These neurons effect muscle contraction, and so make possible the movement of the animal.  These are analagous to some neurons in human motor cortex, as well as those in the spinal cord.  In the octopus, these are located in the nervous system of the arms.

Intermediate motor centers (located in the anterior suboesophageal mass in the pre- and post-brachial lobes (br.pr. and br.po.), as well as others) coordinate movements between the arms in a way that is beyond that of the lower motor centers.  These areas are comparable to some neurons in mammalian motor and premotor cortex that, when stimulate, produce complex patterns of movements, but which generally fall short of that seen when an organism is behaving freely.

Higher motor centers, located (for example) in the basal lobe (b.l.) control complex behaviors that involve the animal’s whole body.  I am not sure that these have a parallel in the mammalian brain, but my guess is that it would lie somewhere in premotor cortex, coordinating the activities of the motor units further down the chain of command.

Receptor analyzers are those parts of the brain that interpret incoming information from sensory receptors.  Notable, in the octopus, they include the optic lobes (opt.) which analyzes incoming visual information, and the buccal system (buc.s.) which analyzes information from touch receptors in the arms and bu
ccal mass (the area at the convergence of the arms, where the beak is located.)  The mammalian brain has lots of these as well, for example the inferior and superior colliculi, which analyze incoming auditory and visual information, respectively.

Last, but certainly not least, are the memory centers.  The memory system in octopus (and in cuttlefish, as I’ll post about later on) is distributed among the superior frontal (f.sup.med.), vertical (v.), and subverticle (subv.) lobes, as well as the buccal system, and the inferior frontal (fr.i.med.) lobes.  J. Z. Young has made the argument that the organizations of this system show analogy to circuits in the human hippocampus (see Computation in the Learning System of Cephalopods, 1991).  I do not know enough about the two systems to agree or disagree with him at this point, but it is an interesting idea, nonetheless.

I hope this has been as informative for you as it has for me!  You can count a few more posts on memory research in cuttlefish soon.
Categories: Uncategorized  |  Tags: Anatomy, Brain, Octopus  |  Leave a reply
4 Comments
watch porn warez says:
04/09/2013 at 23:55
I do as well. Because most of people are not belive with this situations.

Reply
is brazil ready for world cup 2014 says:
05/29/2014 at 23:10
Paul Hanagan is the primary to congratulate Silvestre de
Sousa

Johnson’s previous record in Sheffield – a ten-1 defeat to Dennis
Taylor in 1984 and a 10-8 loss to Bill Werbeniuk
in 1985 – coupled together with his poor season in 1985-86,
hardly recommended that he was about to say snooker’s biggest prize.
In all his years as knowledgeable, he only had a 1983 Grand Prix
ultimate and 1985 Mercantile Credit score Classic semi-ultimate the world cup trophy to point out for his efforts, and it appeared as if Johnson was starting to take more curiosity in his role as lead singer of Preston-primarily
based music group Made in Japan. Not many people knew all of this information at
the time in fact, however we had been to be taught a lot
more about Johnson between April 19 and Might 5,
1986.

Reply
android games says:
09/30/2014 at 18:11
6″ LCD Display and to make working an experience in itself. These websitres aare revolutionary, in that they will charge you a one off fee in order to get acdcess to their huge catalog of downloadable games. A dynamic site is highly necessary in order for every individual to compete in nowadays Internet business.

Reply
arkuat says:
04/15/2015 at 20:25
Great post. Thank you for putting this up. I was kind of hoping to learn something about the evolution of the cephalopod brain, especially the evo devo, but I can see that’s a relatively undeveloped field so far.

Reply