Comatulida

Comatulida
A feather star
Scientific classification
Kingdom: Animalia
Phylum: Echinodermata
Class: Crinoidea
Subclass: Articulata
Order: Comatulida
Suborders [1]

Bourgueticrinina
Comatulidina
Guillecrinina

Comatulida is an order of crinoids. Members of this order are known as feather stars and mostly do not have a stalk as adults. The oral surface with the mouth is facing upwards and is surrounded by five, often divided rays with feathery pinnules. Comatulids live on the seabed and on reefs in tropical and temperate waters.

Taxonomy

Bourgueticrinida, the sea lilies, has traditionally been viewed as an order of Articulata and a sister taxon to Comatulida. A study published in 2011 suggested that it should be renamed Bourgueticrinina and viewed as a suborder of Comatulida.[2]

Characteristics

Comaster schlegelii from East Timor

Like other echinoderms, comatulids have pentamerous symmetry as adults though the larvae have bilateral symmetry. Late in their development, the larvae are attached to the seabed by a stalk, but this is broken at metamorphosis and the juvenile crinoid is free living. The body has an endoskeleton made from a number of articulated calcareous plates known as ossicles covered by a thin epidermis. It is in the shape of a cup (the calyx) with a lid (the tegmen) which has a central mouth and an anus near the edge, the gut being U-shaped. There is a ring of clawlike appendages (the cirri) near the base of the aboral underside; these grip the substrate to keep the feather star in place.[3][4]

There are five long, often branched, rays attached round the edge of the tegmen. Each of these is further subdivided into branchlets (the pinnules). Most comatulids originally have 10 arms, each ray being subdivided once. The arms are fragile, and if one is broken off, at least two grow in its place; in this way the number of arms can increase.[4] The arms are composed of articulating ossicles held together by ligaments, and the pinnules have a similar structure. The arms are very flexible and can be spread widely or coiled up. An ambulacral groove starts on each pinnule and joins with others to form grooves on the arms all leading to grooves on the tegmen ending at the mouth. These food-collecting grooves are overhung by calcareous plates (the lappets) and have a lining of fine cilia.[4]

Behaviour

Comatula pinnata, a fossil crinoid from the Solnhofen limestone

Many comatulids live in crevices, under corals or inside sponges, the only visible part being some of the arms. Some come out at night and perch themselves on eminences to feed. Many species can "walk" across the seabed, raising their body on their arms. Many can also swim with their arms but most are largely sedentary, seldom moving far from their chosen place of concealment.[5]

Feeding

Comatulids are suspension feeders. The arms are extended and held in such a position as to maximise the feeding surface with regard to the current. At each junction of the ossicles in the pinnules there are a group of three suckerless tube feet. The longest of these searches for plankton in the surrounding water. When a particle is found, it is gathered in and thrust into the ambulacral groove by all three tube feet. Here it is formed into a bolus with mucus and moved down to the mouth by the actions of the cilia, being retained in the groove by the lappets.[5]

Reproduction

Comatulids are dioecious, each individual being either male or female. The gametes are produced in specialised pinnules at the base of the arms, and fertilisation is external. The larvae are planktonic and drift with the water flow. After several larval stages they settle on the seabed and anchor themselves with a stalk. At metamorphosis, the stalk breaks and the juveniles can move around.[6]

Ecology

Comatulids consist of 80% calcium carbonate and are unappetising to most predators. A number of species of fish are known to feed on them, usually pulling off a single arm or the visceral mass, both of which can be regenerated. 47% of specimens seen by one researcher were lacking one or more arms or had regenerating limbs, so sub-lethal predation is probably low. Many other invertebrates live as commensals among the rays of crinoids and it may be these succulent morsels that are the principal objective of most predators.[7] The comatulid Florometra serratissima, in the north east Pacific, has been reported as being preyed on by the graceful decorator crab[8] Oregonia gracilis and the sunflower seastar Pycnopodia helianthoides. The loss of the arms may be due to autotomy, the shedding of an arm to save the rest of the organism. A 20 centimetres (7.9 in) arm was found to be fully regenerated in nine months in this species.[9]

Order Comatulida

The World Register of Marine Species includes the following suborders, superfamilies and families in Comatulida:[1]

References

  1. 1 2 Messing, Charles (2012). "Comatulida". World Register of Marine Species. Retrieved 2012-07-27.
  2. Hess, H; Messing, C. G. (2011) Comatulida. In: Hess H, Messing CG, Ausich WI. Treatise on Invertebrate Paleontology, Part T, Echinodermata 2 Revised, 1633 Crinoidea, vol. 3. University of Kansas Press, Lawrence, Kansas, pp. 70–146.
  3. Dorit, R. L.; Walker, W. F.; Barnes, R. D. (1991). Zoology. Saunders College Publishing. pp. 790–792. ISBN 0-03-030504-7.
  4. 1 2 3 Messing, Charles. "Crown and calyx". Charles Messing's Crinoid Pages. Retrieved 2012-07-26.
  5. 1 2 Messing, Charles. "The crinoid feeding mechanism". Charles Messing's Crinoid Pages. Retrieved 2012-07-26.
  6. "Feather stars, Order Comatulida". Wild Singapore. October 2008. Retrieved 2012-07-26.
  7. Messing, Charles. "Predation on living crinoids". Charles Messing's Crinoid Pages. Retrieved 2012-07-26.
  8. Decorator crabs are reported to snip off crinoid arms for use as camouflage. Hugh B. Cott, Adaptive Coloration in Animals, Oxford, 1940. p 360.
  9. Mladenov, Philip V. (1983). "Rate of arm regeneration and potential causes of arm loss in the feather star Florometra serratissima (Echinodermata: Crinoidea)". Canadian Journal of Zoology. 61 (12): 2873–2879. doi:10.1139/z83-375.
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