User:Zabalene/Ophiocoma scolopendrina

Ophiocoma scolopendrina is a species of brittle star belonging to the family Ophiocomidae. Restricted to life in the intertidal, these brittle stars live in the Indo-Pacific. They can typically be found within crevices or beneath borders on intertidal reef platforms. Unlike other Ophiocoma brittle stars, they are known for their unique way of surface-film feeding, using their arms to sweep the sea surface and trap food. Regeneration of this stars arms are a vital component of its ability to feed in this form. They also have the ability to reproduce throughout the year, and have been known to have symbiotic relationships with other organisms.

Description
Ophiocoma scolopendrina, as other brittle stars, have long, thin arms emanating from a small, disk-shaped body and are about the size of an outstretched human hand. They belong to the phylum of echinoderms, which includes sea urchins, sea cucumbers, and sea stars. Dorsal disc and dorsal arm plates vary from black, variegated black to pale brown. Arms are irregularly banded. They can reach a length of about 13cm, while the disc diameter can reach up to 25mm. The star's sexes can be identified by checking slits between the arms, which expose the white male spermaries and red female ovaries.

Distribution and Habitat
Ophiocoma scolopendrina can be found in the Red Sea, the tropical Indo-Pacific region, Taiwan, Eastern Africa, Southeastern Polynesia, the Marshall Islands, and Madagascar. Their typical density is about 20 individuals m².

These brittle stars are present in crevices and under boulders of intertidal reef platforms, in the upper and middle eulittoral. They also tend to hide amongst concealing vegetation during surface-film feeding. They have also been seen underneath coral rubble. They live primarily in areas with shallow water strictly in the intertidal. They are often observed sweeping their arms over sand or coral substrata.

Behavior
When feeding, O. scolopendrina changes positionality depending on tide positionality. Stars have been observed to be nearly entirely concealed at high tide, and tend to expose themselves progressively as the tide becomes lower.

Unlike other species in the genus Ophiocoma, these brittle stars have evolved an adaptation that allows them to participate in surface-film feeding during both low and flooding tides. This adaptation allows them to consume neuston and detrital particles and film that are found suspended on the the surface of sea water. O. scolopendrina becomes fully exposed and and remains attached to the ground by anchoring an arm to a substratum or piece of vegetation. Occasionally, they may also climb vegetation to gain better feeding positionality. The brittle star then utilizes two to four arms to sweep the sea surface, using its arms' ventral sides to trap suspended objects into mucous-covered spines. The food is then transferred to the mouth once the spines have been cleaned by tube feet.

Outside of flooding tide, these brittle stars simply participate in microphagous suspension and deposit-feeding, behavior that is common for other Ophiocoma species. This behavior has typically been observed after a high tide. Arms are typically extended and food is caught from the water column into their mucous-covered spines during this process.

The unusual feeding pattern observed in Ophiocoma scolopendrina has been attributed to a variety of influences, including changes in tidal patterns, the presence of predation, and food availability.

Reproduction
Adult female stars each contain an estimated 12 * 10⁵ premature oocytes and it is believed that all adult O. scolopendrina produce gametes throughout the remainder of their lives, as they consistently produce gametes at all studied ages. O. scolopendrina reproduce continuously throughout the year, as once gametes are available in the gonads, they tend to spawn regardless of season. Ovarian substances have been noted to induce male spawn. These brittle stars tend to have planktonic planktotrophic larvae and have been observed to spawn in large numbers.

Regeneration
Similar to other types of brittle stars, O. scolopendrina has the ability to regenerate its arms. Stars may be injured by a variety of means, from general aggression and predation to the intense waves of their ecosystems. To account for this loss, stars regenerate these damaged portions of their arms, investing incredible amounts of energy as a means to survive for a longer amount of time. Regeneration, in turn, allows for the recuperation in functionality and strength in that arm. This adaptation has become vital in allowing brittle stars to survive even the harshest of environments.

Compared to other brittle stars, O. scolopendrina does not lose parts of its arms as rapidly as expected. These stars value their arms as important sources of feeding and have been noted to be used as a means of quick predator evasion. As arms are used for both food capture and locomotion, O. scolopendrina are more hesitant to expose their arms to harmful situations.

Given O. scolopendrina 's positionality in its ecosystem, breakage has typically been mainly observed in the top third of the arm. Since these types of stars spend a majority of their time hidden in crevices, only the tips of their arms suffer the most damage. In many cases, these arms remain functional, however, as the majority of the arm is not exceedingly damaged. Arms that are used for anchorage within crevices are those least likely to be lost as they are not frequently exposed to the dangers of the intertidal. Those that are out, whether it be for feeding or general sweeping, have been observed to be the arms most affected.

Multiple arm breakages have also been seen to occur in O. scolopendrina. As one arm may be damaged by a predator or ecological force, other arms must take its place as the most frequently used, causing them to suffer more harm than otherwise. Those that dwell in poor habitats are oftentimes more vulnerable to the forces of nature and are subject to consistent damage to their bodies. The average rate of regeneration is about 0.4 mm/day.

Heterospecific Symbiosis
Adult Ophiocoma scolopendrina have e a heterospecific symbiotic relationship with juveniles of Ophiomastix annulosa in the intertidal zone of Okinawa, Japan. In this region, younger O. annulosa have been observed to attach to the bursae of the living O. scolopendrina host. It is thought that O. annulosa 's hooked terminal spines may be advantageous in remaining attached to the host star, as they are difficult to dislodge. Symbionts typically switch hosts as they become larger, switching between new O. scolopendrina hosts as their size increases. The relationship between these stars has largely been considered a form of brood parasitism, as O. annulosa young are, in a sense, cared for by the O. scolopendrina adults and there is no physical damage to the host organism.