This species is found in the Caribbean Sea and along the Atlantic coast, ranging fron North Carolina to the east coast of central America to Rio de Janeiro, Brazil (Hendler, et al 1995).
Clypeaster subdepressus lives in the sand fields or the shelly sediment in the warm waters of the Caribbean and Atlantic, where there is no or little grass (Hendler, et al 1995).
Clypeasteroids are considered radially symmetrical. However, they show slight bilateral symmetry because they tend to be slightly elongated, an adaption to facilitate movement through sediment. The bony ossicles of this species fuse together, forming a calcareous, disk-shaped shell or test. The test is covered with short, movable, densely-distributed spines that aid in movement though sand while feeding. The aboral surface bears five conspicuous flower petal-like structures, called petalloids. These are actually the ambulacral grooves. Each petalliod is equal in size and consists of two double rows of paired pores used in respiration. Petalloids also contain tube feet that function in respiration. Unlike tube feet seen elsewhere, they lack suckers at the ends and do not function in locomotion (Fox 1994). Clypeaster subdepressus is large, up to 300 millimeters in length. The oral surface is quite flat, with a slight concavity at the mouth. The test color ranges yellow to dark tan (Hendler, et al 1995).
The sexes of this species are separate. The gametes are released into the water from five small gonopores located around the madreporite (Fox 1994). (The madreporite is part of the water vascular system and is located on the center of aboral side of the sand dollar. Egg and sperm fuse to form a zygote, which mitotically divides to form a free-swimming bilaterally symmetrical larva. These larva are planktonic, and actively feed within the water column until they metamorphasize into their juvenile form and fall to the sea floor (Lerman 1986). In an average temperature of twenty-seven degrees Celsius, the larva completed metamorphoses in sixteen to twenty-eight days (Hendler, et al 1995). The larva resembles an artist easel turned upside down. It has fragile arms formed by lobes of ciliated bands and is supported fragile rods of calcite (Encyclopedia Britannica). Clypeaster subdepressus is capable of producing gametes throughout the year. At least sixty percent of individuals examined at any given time were capable of spawning.
Burying behavior of these animals is interesting. The sand dollar pushes the anterior margin of their body through the substrate at a slight angle, and plows forward and upward beneath the upper surface using the spines on the aboral surface (Banister and Campbell 1985). When excavated, they can rebury themselves in six to twelve minutes. When large individuals are turned upside down, they right themselves in approximately one hour.
The helmet crab Cassis tuberosa is a major predator of C. subdepressus. At least five species of the pinnotherid crabs of the genus Dissodactylus are associated with this echinoid. The polychaete Ophiodromus obscurus is another common commensal (Hendler, et al 1995).
This species is most often found with other individuals for reproduction and because of their preference for the same sandy bottoms without grass (Banister and Campbell 1985).
Clypeaster subdepressus feeds upon the organic material, including diatoms, found in the coarse biogenic sands in which it is buried. This species selects the larger grains to ingest using oral surface accessory podia endowed with sensory cells (Hendler, et al 1995). It filters through the substrate and the food-bearing material is translocated to the ambulacral grooves where it is covered in mucus and conducted by the podia and spines toward the mouth (Banister and Campbell 1985). The Aristotle's lantern is the name for the strong jaws of this animal that grind the sand particles for digestion. The five bird-shaped ossicles (sometimes called "doves") found in dry sand dollars are actually the five pyramids that bear their five slender teeth. This species has a complete digestive system, including a esophagus, stomach and intestine. The anus is located just posterior to the mouth on the oral surface of the test (Fox 1994). Sand grains chosen for digestion are cleaned by the digestive system, then "clean" substrate (without any organic material) is passed out through the anus. There is a great quanitity of sand that passes through their digestive system each day (Lerman 1986).
C. sudepressus is part of a very delicate ecosystem in the Caribbean Sea. Therefore, if it were disturbed then the ecosystem would be effected as well. Many fish that are consumed by humans are in the same ecosystem and would suffer at the loss of this species (Fox 1994).
Sand dollars when dried and bleached can be sold at shell shops, and this species plays such a role in the economy of Caribbean Islands and the coastal cities of South America.
Research has been done on the Aristotle's Lantern, specifically the dental ligaments (collogen strands that attach the teeth to the jaw) of these echinoderms, that periodically changes stiffness in different ionic concentrations. These ligaments are similar to the periodontal ligaments found in humans (Steinberg 1996).
Fossils of this echinoid have been reported from the late Tertiary deposites in Florida (Hendler, et al 1995).
The respiration of these animals is quite interesting. The respiratory podia are long low sheets that lie in the ambulacral groove (petalloid) extending from one pore to the other. Their long axes are parallel, and are close to, the surface of the test. The respiratory current generated by epidermal cilia flows over the surface of the podium from the center of the petalloid toward its periphery. The ciliated peritoneum of the water vascular system inside the podium moves a current in the opposite direction, from the periphery toward the center of the petalloid. Oxygen, following its gradient, moves into the podium from the sea water along the entire area of contact between tube food and sea water. Once inside the water vascular system, oxygen is then transferred to the fluid of the perivisceral coelom by another countercurrent mechanism, this one is between the water vascular system and the perivisceral coelom (Fox 1994).
Catherine Chappell (author), Southwestern University, Stephanie Fabritius (editor), Southwestern University.
living in the Nearctic biogeographic province, the northern part of the New World. This includes Greenland, the Canadian Arctic islands, and all of the North American as far south as the highlands of central Mexico.
living in the southern part of the New World. In other words, Central and South America.
the nearshore aquatic habitats near a coast, or shoreline.
animals which must use heat acquired from the environment and behavioral adaptations to regulate body temperature
the area in which the animal is naturally found, the region in which it is endemic.
"Encyclopedia Britannica On-line" (On-line). Accessed February 17, 1999 at http://www.eb.com:180/bol/topic?eu=118973&sctn=8.
Banister, , Campbell. 1985. The Encyclopedia of Aquatic Life. Oxford: Equinox.
Fox, .. 1994. "Invertebrate Anatomy" (On-line). Accessed February 17, 1999 at http://www.science.lander.edu/rsfox/clypeast.html.
George, .., .. George. 1979. Marine Life: An Illustrated Encylopedia of Invertebrates in the Sea. New York: John Wiley & Sons.
Hendler, G., J. Miller, D. Pawson, P. Kier. 1995. Sea Stars, Sea Urchins, and Allies: Echinoderms of the Caribbean. Washington and London: Smithsonian Institution Press.
Lerman, .. 1986. Marine Biology: Environment, Diversity and Ecology. Menlo Park, CA: The Benjamin/Cummings Publishing Company Inc..
Steinberg, .. 1996. The Muscle and Gristle Behind the Sand Dollar Bite. Journal of the NIH Research, July: 29-31.