Biology:Thalassocalyce

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Short description: Genus of ctenophores

Thalassocalyce inconstans
Ctneophore - Flickr - NOAA Ocean Exploration ^ Research.jpg
Scientific classification edit
Domain: Eukaryota
Kingdom: Animalia
Phylum: Ctenophora
Class: Tentaculata
Order: Thalassocalycida
Madin & Harbison, 1978
Family: Thalassocalycidae
Madin & Harbison, 1978
Genus: Thalassocalyce
Madin & Harbison, 1978
Species:
T. inconstans
Binomial name
Thalassocalyce inconstans
Madin & Harbison, 1978

Thalassocalyce is a genus of ctenophore, or comb jellies, known from the California Coast, Gulf of Mexico, and west north Atlantic.[1] It is represented by a single species, Thalassocalyce inconstans, which is the only species in the family Thalassocalycidae and the order Thalassocalycida.[2] T. inconstans is a pelagic ctenophore typically occurring in upper-mesopelagic depths, but has been observed at depths up to 3,500 m in Monterey Canyon.[3]

Due to their fragility, gelatinous zooplankton are inherently difficult to sample by traditional methods (i.e. net tows),[4] and among ctenophorans Thalassocalyce inconstans is especially fragile having thin, flaccid tissues, likely contributing to broad under-sampling.[2][3] The individual collection of undamaged specimens via scuba and novel instrumentation (e.g. Remotely Operated Vehicles, submersibles, and imaging systems) has allowed for more robust investigation of T. inconstans.[2][5]

Morphology

Thalassocalycid morphology is unique within the Ctenophora, sharing certain similarities to both cydippid (i.e. canal structure) and lobates, and characterized by absence of auricles and muscular lobes. Rather, unmuscular lobes are fused into a continuous dome forming a medusa-like body plan. While morphologically and structurally distinct from the oral lobes of lobate ctenophores,[2] the thin thalassocalycid bell is functionally analogous as mechanism for prey-capture. When fully expanded, the body forms a hemispherical bell, but a bi-radial (“two-globe”) morphology is apparent when the organisms is partially contracted. The function of fully developed tentacles that do not extend outside of the “bell” has not been resolved.[3] Several lobate ctenophores, (e.g. Leucothea multicornis) pass through larval stages that are ‘medusiform,’ but the retention of a medusoid-like bauplan in adults is unique to Thalassocalyce inconstans. Initial description of this species overturned suggestions that T. inconstans was a larval form of species already described.[2] Auricle-free ctenophorans are known from the deep-sea, but these species have not yet been described due to sampling obstacles.[3]

Foraging

Thalassocalyce inconstans is a predatory ctenophore that feeds on euphasiid krill and small crustaceans. A passive foraging mechanism is employed, whereby T. inconstans ‘fishes’ for prey with its bell expanded. Prey that come into contact with foraging (bell-expanded) T. inconstans stimulate the rapid contraction of the bell, and are trapped within a mucus-covered inner surface.[3]

References

  1. "WoRMS - World Register of Marine Species". http://www.marinespecies.org/aphia.php?p=taxdetails&id=238008%20on%202015-10-29. 
  2. 2.0 2.1 2.2 2.3 2.4 Madin, L. P., and G. R. Harbison. "Thalassocalyce inconstans, new genus and species, an enigmatic ctenophore representing a new family and order." Bulletin of Marine Science 28.4 (1978): 680-687.
  3. 3.0 3.1 3.2 3.3 3.4 Swift, H. F., Hamner, W. M., Robison, B. H., & Madin, L. P. (2009). Feeding behavior of the ctenophore Thalassocalyce inconstans: revision of anatomy of the order Thalassocalycida. Marine biology156(5), 1049-1056.
  4. Harbison, G. R., Madin, L. P., & Swanberg, N. R. (1978). On the natural history and distribution of oceanic ctenophores. Deep-Sea Research25(3), 233-256.
  5. Luo, Jessica Y., Benjamin Grassian, Dorothy Tang, Jean-Olivier Irisson, Adam T. Greer, Cedric M. Guigand, Sam McClatchie, and Robert K. Cowen. (2014) Environmental drivers of the fine-scale distribution of a gelatinous zooplankton community across a mesoscale front. Marine Ecology Progress Series 510: 129-149.


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