beach at low tide on the Pacific coast of Mexico Sand dollars can be found in
temperate and
tropical zones along all continents. Sand dollars live in waters below the mean
low tide line, on or just beneath the surface of
sandy and
muddy areas. The common sand dollar,
Echinarachnius parma, can be found in the
Northern Hemisphere from the
intertidal zone to the depths of the ocean, while the
keyhole sand dollars (three species of the genus
Mellita) can be found on many a wide range of coasts in and around the
Caribbean Sea. The spines on the somewhat flattened topside and underside of the animal allow it to burrow or creep through the sediment when looking for shelter or food. Fine, hair-like cilia cover these tiny spines. Sand dollars usually eat algae and organic matter found along the ocean floor, though some species will tip on their side to catch organic matter floating in ocean currents. The larvae of these sand dollars clone themselves when they sense dissolved mucus from a predatory fish. The larvae exposed to this mucus from the predatory fish respond to the threat by cloning themselves. This process doubles their population and halves their size which allows them to better escape detection by the predatory fish but may make them more vulnerable to attacks from smaller predators like crustaceans. Sand dollars will also clone themselves during normal asexual reproduction. Larvae will undergo this process when food is plentiful or temperature conditions are optimal. Cloning may also occur to make use of the tissues that are normally lost during metamorphosis. The flattened test of the sand dollar allows it to burrow into the sand and remain hidden from sight from potential predators. During the month of August, the sand dollar will have had its highest gonad index, and in November and December is the time when sand dollars will spawn. Broadcast spawning is how sand dollars reproduce. For animals like the sand dollar (an
echinoderm) their main mode of reproduction is
broadcast spawning. An adult sand dollar's sex cannot be determined directly by just looking at it. The only way to determine the sex of the animal is by the color of its gamete exudate. The gamete exudate is the fluid released into the water during the spawning of sand dollars. Yellow exudate will contain eggs and white exudate will contain sperm. By completing reproduction through spawning, sand dollars will reproduce in groups which increases the chances of fertilization. Male sand dollars start spawning by releasing sperm through the accessory papillae or the
gonopores. After roughly 10 minutes, spawning stops, and the sand dollar will cover itself with sand. After the male spawns, the sperm enters the female's egg, beginning fertilization. After roughly 80 minutes of fertilization, cell division will begin to occur, also known as
cleavage. After cleavage, the cells become
blastulae and then
gastrula. During the gastrula stage, the embryo's height decreases and the width slightly increases. After the gastrula stage, the larvae will begin the pluteus stage. At this point in a sand dollar's early stages of life, it will want to feed but cannot. The sand dollar
larvae will have mouths that are able to open but cannot eat. Along with wanting to feed, the larvae will have three identifiable body parts: an esophagus, stomach, and intestine. Though at the beginning of the pluteus stage, the larvae cannot feed, it will feed towards the end of the stage just before
metamorphosis. The larvae will push out the forming juvenile sand dollar and begin metamorphosis. For sand dollars, this stage takes about an hour and thirty minutes for the larval tissues to regress. Since the larval tissues are in regress, the sand dollar will then start to undergo resorption of these tissues. After metamorphosis, the sand dollar will start to become a juvenile, developing a skeleton, teeth, and will begin to be able to feed themselves. ==References==