Starfish

Starfish or sea stars are a class of marine invertebrates generally shaped like a star polygon. Starfish are also known as asteroids because they form the taxonomic class Asteroidea. About 1,900 species of starfish live on the seabed, and are found in all the world's oceans, from warm, tropical zones to frigid, polar regions. They can occur from the intertidal zone down to abyssal depths, at below the surface.
Starfish are echinoderms and typically have a central disc and usually five arms, though some species have a larger number of arms. The aboral or upper surface may be smooth, granular or spiny, and is covered with overlapping plates. Many species are brightly coloured in various shades of red or orange, while others are blue, grey or brown. Starfish have tube feet operated by a hydraulic system and a mouth at the centre of the oral or lower surface. They are opportunistic feeders and are mostly predators on benthic invertebrates. Several species have specialized feeding behaviours including eversion of their stomachs and suspension feeding. They have complex life cycles and can reproduce both sexually and asexually. Most can regenerate damaged parts or lost arms and they can shed arms as a means of defense.
The Asteroidea occupy several significant ecological roles. Some, such as the ochre sea star and the reef sea star, serve as keystone species, with an outsize impact on their environment. The tropical crown-of-thorns starfish is a voracious predator of coral throughout the Indo-Pacific region, and the Northern Pacific seastar is on a list of the Worst Invasive Alien Species.
The fossil record for starfish is ancient, dating back to the Ordovician period around 450 million years ago, but it is rather sparse, as starfish tend to disintegrate after death. Only the ossicles and spines of the animal are likely to be preserved, making remains hard to locate. With their appealing symmetrical shape, starfish have played a part in literature and legend. They are sometimes collected as curios, used in design or as logos, and in some cultures they are eaten.

Anatomy

Most starfish have five arms that radiate from a central disc, but the number varies with the group. Some species have six or seven arms and others have 10–15 arms. In Antarctic Labidiaster annulatus, the number of arms can exceed fifty. Evidence from gene expression finds that the starfish body corresponds to a head externally and a torso internally. Starfish possess two vascular systems, one for transport of water to support locomotion and other functions, and another for circulation of blood.

Body wall

The body wall layers include a thin cuticle, an epidermis consisting of a single layer of cells, a thick dermis formed of connective tissue, a thin coelomic myoepithelial layer for the muscles, and a peritoneum. The dermis contains an endoskeleton of calcium carbonate components known as ossicles. These are honeycomb-like structures composed of calcite microcrystals arranged in a lattice. They vary in form, from flat plates to granules to spines, and cover the aboral surface. Some are specialised structures such as the madreporite, pedicellariae, and paxillae. Paxillae are umbrella-like structures found on starfish that live buried in substrate. The edges of adjacent paxillae meet to form a false cuticle with a water cavity beneath in which the madreporite and delicate gill structures are protected. The ossicles are located under the epidermal layer, even those emerging externally.
Several groups of starfish, including Valvatida and Forcipulatida, possess pedicellariae. These are scissor-like ossicles at the tip of the spine which displace organisms from resting on the starfish's surface. Some species like Labidiaster annulatus and Novodinia antillensis use their pedicellariae to catch prey. There may also be papulae, thin-walled protrusions of the body cavity that reach through the body wall into the surrounding water. These serve a respiratory function. The structures are supported by collagen fibres set at right angles to each other and arranged in a three-dimensional web with the ossicles and papulae in the interstices. This arrangement enables both easy flexion of the arms and the rapid onset of stiffness and rigidity required for some actions performed under stress.

Water vascular system

The water vascular system of the starfish is a hydraulic system made up of a network of fluid-filled canals and is concerned with locomotion, adhesion, food manipulation and gas exchange. Water enters the system through the madreporite, a porous, often conspicuous, sieve-like ossicle on the aboral surface. It is linked through a calcareous-lined canal called the stone canal, to a ring canal around the mouth opening. A set of radial canals branch off from the ring canal; one radial canal runs along the ambulacral groove in each arm. There are short lateral canals branching off alternately to either side of the radial canal, each ending in an ampulla. These bulb-shaped organs are joined to tube feet on the exterior of the animal by short linking canals that pass through ossicles in the ambulacral groove. There are usually two rows of tube feet but in some species, the lateral canals are alternately long and short and there appear to be four rows. The interior of the whole canal system is lined with cilia.
Water is pushed into the tube face when longitudinal muscles in the ampullae contract, and shut the valves in the lateral canals. This causes the tube feet to stretch and touch the substrate. Although the tube feet resemble suction cups in appearance, the gripping action is a function of adhesive chemicals rather than suction. Other chemicals and relaxation of the ampullae allow for release from the substrate. The tube feet latch on to surfaces and move in a wave, with one arm section attaching to the surface as another releases. To expose the sensory tube feet and the eyespot to external stimuli, some starfish turn up the tips of their arms while moving.
Having descended from bilateral organisms, starfish may move in a bilateral fashion, particularly when hunting or threatened. When crawling, certain arms act as the leading arms, while others trail behind. When a starfish finds itself upside down, two adjacent arms and an opposite arm press against the ground to lift up the two remaining arms; the opposite arm leaves the ground as the starfish turns over and recovers its normal stance.
Apart from their function in locomotion, the tube feet act as accessory gills. The water vascular system serves to transport oxygen from, and carbon dioxide to, the tube feet and nutrients from the gut to the muscles involved in locomotion. Fluid movement is bidirectional and initiated by cilia.

Digestive system and excretion

The gut of a starfish fills most of the central disc and extends into the arms. The mouth occupies the centre of the oral surface, where it is surrounded by a tough peristomial membrane and closed with a sphincter. A short oesophagus connects the mouth to a stomach, which consists of an eversible cardial portion and a smaller pyloric portion. The cardial stomach is glandular and pouched, and is supported by ligaments attached to ossicles in the arms so it can be pulled back into position after it has been everted. The pyloric stomach has two extensions into each arm: the pyloric caeca. These are long, hollow tubes lined by a series of glands which secrete digestive enzymes and absorb nutrients from the food. A short intestine and rectum run from the pyloric stomach to the anus at the apex of the aboral surface of the disc.
Primitive starfish, such as Astropecten and Luidia, swallow their prey whole, and start to digest it in their cardial stomachs, spitting out hard material like shells. The semi-digested fluid flows into the caeca for more digestion as well as absorption. In more advanced species of starfish, the cardial stomach can be everted from the organism's body to engulf and digest food, which is passed to the pyloric stomach. The retraction and contraction of the cardial stomach is activated by a neuropeptide known as NGFFYamide.
The main nitrogenous waste product is ammonia, which is removed via diffusion through the tube feet, papulae and other thin-walled areas. Other waste material include urates. The body fluid contains phagocytic cells called coelomocytes, which are also found within the hemal and water vascular systems. These cells engulf waste material, and eventually migrate to the tips of the papulae, where a portion of body wall is nipped off and ejected into the surrounding water.
Starfish keep their body fluids at the same salt concentration as the surrounding water, the lack of an osmoregulation system probably explains why starfish are not found in fresh water and rarely in estuarine environments.

Sensory and nervous systems

Although starfish do not have many well-defined sense organs, they do perceive touch, light, temperature, orientation and the status of the water around them. The tube feet, spines and pedicellariae are sensitive to touch. The tube feet, especially those at the tips of the rays, are also sensitive to chemicals, enabling the starfish to detect odour sources such as food. There are eyespots at the ends of the arms, each one made of 80–200 simple ocelli composed of pigmented epithelial cells. Individual photoreceptor cells are present in other parts of their bodies and respond to light. Whether they advance or retreat depends on the species.
While a starfish lacks a centralized brain, it has a complex nervous system with a nerve ring around the mouth and a radial nerve running along the ambulacral region of each arm parallel to the radial canal. The peripheral nerve system consists of two nerve nets: one in the epidermis and the other in the lining of the coelomic cavity, which are the sensory and motor systems respectively. Neurons passing through the dermis join the two. Both the ring and radial nerves function in movement and sensory. The sensory component is supplied with information from the sensory organs while the motor nerves control the tube feet and musculature. If one arm detects something attractive, it becomes dominant and temporarily over-rides the other arms to initiate movement towards it.