D I S C O V E R    L I F E   
Bee Hunt! Odonata Lepidoptera 
  HomeAll Living ThingsIDnature guidesGlobal mapperAlbumsLabelsSearch
  AboutNewsEventsResearchEducationProjectsStudy sitesHelp


Ctenophora Eschscholtz, 1829
COMB JELLIES; SEA WALNUTS
Life   Ctenophora

Links
80x5 - 240x3 - 240x4 - 320x1 - 320x2 - 320x3 - 640x1 - 640x2
Set display option above.
Click on image to enlarge.
Ctenophore
© Public Domain · 0
Ctenophore
Overview
Ctenophores are marine animals that possess eight rows of cilia that they use in locomotion. Light scatters off these rows of cilia, often causing a "rainbow-effect" to radiate from ctenophores. Although this phenomena is not actually bioluminesence, most ctenophores are bioluminescent in addition to emitting the rainbow of light. Ctenophores are carnivores that feed mostly on zooplankton, with a few larger species feeding on invertebrate larvae and small crustaceans. They use tentacles with specialized sticky cells to capture their prey and bring it to the mouth. It is in this manner that ctenophores are capable of wiping out entire ecosystems because of their carnivorous ways. As voracious predators, ctenophores are capable of overpopulating ecosystems, ravaging the food supply, and thus wiping out indigenous species of the area. All ctenophores are hermaphroditic, releasing both eggs and sperm into the water as they swim. The sperm find the eggs in the water, and fertilization then takes place.

Phylogeny


Links to other sites

Acknowledgements
  • Sam Cincotta, University of Georgia, Athens

I thank John Pickering for his assistance with the development of this page.


Supported by
go to Discover Life's Facebook group

Following modified from University of California, Berkeley
   Top | See original

Introduction to Ctenophora

Red Line Bolinopsid; 15 cm
 
Ctenophores (Greek for "comb-bearers") have eight "comb rows" of fused cilia arranged along the sides of the animal, clearly visible along the red lines in these pictures. These cilia beat synchronously and propel ctenophores through the water. Some species move with a flapping motion of their lobes or undulations of the body. Many ctenophores have two long tentacles, but some lack tentacles completely.

Ctenophores, variously known as comb jellies, sea gooseberries, sea walnuts, or Venus's girdles, are voracious predators. Unlike cnidarians , with which they share several superficial similarities, they lack stinging cells. Instead, in order to capture prey, ctenophores possess sticky cells called colloblasts. In a few species, special cilia in the mouth are used for biting gelatinous prey.

The phylogenetic position of ctenophores has been, and still is, in dispute. Ctenophores have a pair of anal pores, which have sometimes been interpreted as homologous with the anus of bilaterian animals (worms, humans, snails, fish, etc.). Furthermore, they possess a third tissue layer between the endoderm and ectoderm, another characteristic reminiscent of the Bilateria. However, molecular data has contradicted this view, although only weakly. Therefore, this is an active area of research.

Red Line Bolinopsid; 15 cm
 
Although most ctenophores swim, one group creeps along the bottom of the seas. Most of these species live on other animals, for instance with echinoderms , sponges , or benthic cnidarians . Many ctenophores, like various other planktonic organisms, are bioluminescent , able to give off light.

Until fairly recently, no fossil ctenophores were known. Like most pelagic cnidarians, the bodies of ctenophores are made up mostly of water, and the chances of leaving a recognizable fossil are very slim. Two species of fossil ctenophore have now been found in the Late Devonian , in the famous Hunsrückscheifer slates of southern Germany (Stanley and Stürmer, 1983, 1987). Both owe their preservation to rapid precipitation of pyrite in the tissues, and both are quite similar to living ctenophores in the order Cydippida (the "sea gooseberries.") Other ctenophore-like forms have been found in the Cambrian -age Burgess Shale of the Canadian Rocky Mountains and Chengjiang Formation of Southern China. These forms differ from living ctenophores in several ways, thus obscuring their phylogenetic affinities.

Little is currently known about the basic biology of most ctenophores; indeed, the individual in these pictures has not even yet been formally described and named, despite being large, spectacularly colored, and common. These photographs were made available to the UCMP by Underwater World , Queensland, Australia.

View the World List of Ctenophora species , arranged in a taxonomic classification, or visit the page on Ctenophora at the Tree of Life.

Sources:

  • Stanley, G.D., and W. Stürmer. 1983. The first fossil ctenophore from the Lower Devonian of West Germany. Nature 303:518-520.
  • Stanley, G.D., and W. Stürmer. 1989. A new fossil ctenophore discovered by X-rays. Nature 327:61-63.

Authors Copyright

Updated: 2017-05-28 01:07:49 gmt
Discover Life | Top
© Designed by The Polistes Corporation