Shell All chitons bear a protective
dorsal shell that is divided into eight articulating
aragonite valves embedded in the tough muscular girdle that surrounds the chiton's body. Compared with the single or two-piece shells of other molluscs, this arrangement allows chitons to roll into a protective ball when dislodged and to cling tightly to irregular surfaces. In some species the valves are reduced or covered by the
girdle tissue. The valves are variously colored, patterned, smooth, or sculptured. '' from the beachdrift on
Nevis,
West Indies, head plates at the top, tail plates at the bottom The most anterior plate is crescent-shaped, and is known as the cephalic plate (sometimes called a head plate, despite the absence of a complete head). The most posterior plate is known as the anal plate (sometimes called the tail plate, although chitons do not have tails.) The inner layer of each of the six intermediate plates is produced anteriorly as an articulating flange, called the articulamentum. This inner layer may also be produced laterally in the form of notched insertion plates. These function as an attachment of the valve plates to the soft body. A similar series of insertion plates may be attached to the convex anterior border of the cephalic plate or the convex posterior border of the anal plate. The sculpture of the valves is one of the taxonomic characteristics, along with the granulation or spinulation of the girdle. Spicules are secreted by cells that do not express
engrailed, but these cells are surrounded by engrailed-expressing cells. These neighbouring cells secrete an organic pellicle on the outside of the developing spicule, whose aragonite is deposited by the central cell; subsequent division of this central cell allows larger spines to be secreted in certain taxa. The organic pellicule is found in most polyplacophora (but not basal chitons, such as
Hanleya) Developmentally, sclerite-secreting cells arise from pretrochal and postrochal cells: the 1a, 1d, 2a, 2c, 3c and 3d cells. Multiple
gills hang down into the mantle cavity along part or all of the lateral pallial groove, each consisting of a central axis with a number of flattened filaments through which oxygen can be absorbed. The three-chambered heart is located towards the animal's hind end. Each of the two
auricles collects blood from the gills on one side, while the muscular
ventricle pumps blood through the
aorta and round the body. The excretory system consists of two
nephridia, which connect to the
pericardial cavity around the heart, and remove excreta through a pore that opens near the rear of the mantle cavity. The single
gonad is located in front of the heart, and releases gametes through a pair of pores just in front of those used for excretion.
Senses The primary sense organs of chitons are the
subradular organ and a large number of unique organs called
aesthetes. The aesthetes consist of light-sensitive cells just below the surface of the shell, although they are not capable of true vision. In some cases, however, they are modified to form
ocelli, with a cluster of individual photoreceptor cells lying beneath a small
aragonite-based
lens. Each lens can form clear images, and is composed of relatively large, highly crystallographically aligned grains to minimize light scattering. An individual chiton may have thousands of such ocelli. make them capable of true vision, though research continues as to the extent of their visual acuity. It is known that they can differentiate between a predator's shadow and changes in light caused by clouds. An evolutionary trade-off has led to a compromise between the eyes and the shell; as the size and complexity of the eyes increase, the mechanical performance of their shells decrease, and vice versa. A relatively good fossil record of chiton shells exists, but ocelli are only present in those dating to or younger; this would make the ocelli, whose precise function is unclear, likely the most recent eyes to evolve. Although chitons lack
osphradia,
statocysts, and other sensory organs common to other molluscs, they do have numerous tactile nerve endings, especially on the girdle and within the mantle cavity. The order Lepidopleurida also have a pigmented sensory organ called the Schwabe organ. Its function remains largely unknown, and has been suggested to be related to that of a larval eye. However, chitons lack a cerebral ganglion. ==Homing ability==