Week Two we decided the creature would receive most of its nutrients through decaying matter and consuming what it needs to make up the difference.
Week Three we will decide what kind of nervous system it has.
Central Nervous system: Dominates the Galaxy's intelligent life forms. One brain that dictates the actions of the rest of the body.
Ventral Nerve Cords: to quote Wikipedia-
Basically an elongated brain or a spinal cord that also thinks.The ventral nerve cords make up the nervous system of some phyla of the invertebrates particularly within the nematodes, annelids and the arthropods. It usually consists of cerebral ganglia anteriorly with the nerve cords running down the ventral ("belly", as opposed to back) plane of the organism. This characteristic is important in qualifying the difference compared to the chordates which have a dorsal nerve cord.
Ventral nerve cords from anterior to posterior (the thoracic and abdominal tagma in the arthropods) are made up of segmented ganglia that are connected by a tract of nerve fibers passing from one side to the other of the nerve cord called commissures[1]. The complete system bears some likeness to a rope ladder. In some animals the bilateral ganglia are fused into a single large ganglion per segment. This characteristic is found mostly in the insects.
Ganglion clusters-
Basically a series of minibrains so that damage to one will affect one part of the animal's behavior and not kill it.The head segment contains the brain, also known as the supraesophageal ganglion. In the insect nervous system, the brain is anatomically divided into the protocerebrum, deutocerebrum, and tritocerebrum. Immediately behind the brain is the subesophageal ganglion, which is composed of three pairs of fused ganglia. It controls the mouthparts, the salivary glands and certain muscles.
Echinodermic
We would of course for an intelligent creature allow the possibility for better sensory organs.Echinoderms have rather complex nervous systems, but lack a true centralized brain. All echinoderms have a network of interlacing nerves called a nerve plexus which lies within as well as below the skin.[16] The esophagus is also surrounded by a number of nerve rings which send radial nerves that are often parallel with the branches of the water vascular system. The ring nerves and radial nerves coordinate the sea star's balance and directional systems. Although the echinoderms do not have many well-defined sensory inputs, they are sensitive to touch, light, temperature, orientation, and the status of water around them.[17] The tube feet, spines, and pedicellariae found on sea stars are sensitive to touch, while eyespots on the ends of the rays are light-sensitive.[18]
Vote for one thing, revoting is allowed. And someone please lock week 2's thread.