s. Horseshoe crabs have three main parts to the body: the head region, known as the "
prosoma", the
abdominal region or "
opisthosoma", and the spine-like tail or "
telson". The smooth shell or
carapace is shaped like a horseshoe, and is greenish grey to dark brown in colour. The sexes are similar in appearance, but females are typically 25 to 30% larger than the male in length and width, and can reach more than twice the weight. Females can grow up to in length, including tail, and in weight. In Delaware Bay, females and males have an average carapace width of about and , respectively. In
Florida, females average about and males . A wide range of marine species become attached to the carapace, including
algae,
flat worms,
mollusks,
barnacles, and
bryozoans, and horseshoe crabs have been described as 'walking museums' due to the number of organisms they can support. In areas where
Limulus is common, the shells,
exoskeletons or
exuviae (molted shells) of horseshoe crabs frequently wash up on beaches, either as whole shells, or as disarticulated pieces. The
brain and the
heart are located in the prosoma. On the underside of the prosoma, six pairs of appendages occur, the first of which (the small
pincers or
chelicerae) are used to pass food into the mouth, which is located in the middle of the underside of the
cephalothorax, between the chelicerae. Although most
arthropods have mandibles, the horseshoe crab is jawless. The second pair of appendages, the pedipalps, are used as walking legs; in males they are tipped with 'claspers', which are used during mating to hold onto the female's carapace. The remaining four pairs of appendages are the 'pusher legs', also used in locomotion. The first four pairs of legs have claws, the last pair has a leaf-like structure used for pushing. The opisthosoma bears a further six pairs of appendages; the first pair houses the genital pores, while the remaining five pairs are modified into flattened plates, known as
book gills, that allow them to breathe underwater, and can also allow them to breathe on land for short periods of time, provided the gills remain moist. The telson (i.e., tail or caudal spine) is used to steer in the water and also to flip itself over if stuck upside down.The telson is not used as a weapon, instead it functions to help the animal fix itself if overturned and to maintain stability while moving along the seafloor.This is an important structure because horseshoe crabs are often flipped over by currents, and without the ability to flip themselves over, they become vulnerable to suffocation. Among other senses, they have a small
chemoreceptor organ that senses smells on the triangular area formed by the exoskeleton beneath the body near the ventral eyes.
Vision Limulus has been extensively used in research into the physiology of
vision. The
Nobel Prize in Medicine was awarded in 1967 in part for research performed on the horseshoe crab eye. A large
compound eye with monochromatic vision is found on each side of the prosoma; In addition, the tail bears a series of light-sensing organs along its length. Each compound eye is composed of about 1000 receptors called
ommatidia, The ommatidia are somewhat messily arranged, not falling into the ordered hexagonal pattern seen in more derived arthropods.
Blood The blood of horseshoe crabs (as well as that of most
mollusks, including
cephalopods and
gastropods) contains the
copper-containing
protein hemocyanin at concentrations of about 50 g per liter. The resulting
coagulation is thought to contain
bacterial infections in the animal's semiclosed
circulatory system. ==Distribution and habitat==