Pyrosome

Pyrosomes, genus Pyrosoma, are free-floating colonial tunicates that usually live in the upper layers of the open ocean in warm seas, although some may be found at greater depths. Pyrosomes are cylindrical or cone-shaped colonies up to 18 m (60 ft) long,[1] made up of hundreds to thousands of individuals, known as zooids. Colonies range in size from less than one centimeter to several metres in length. They are commonly called "sea pickles".[2][3]

Pyrosoma
Pyrosoma atlanticum
Scientific classification
Kingdom:
Phylum:
Subphylum:
Class:
Order:
Pyrosomida
Family:
Pyrosomatidae
Genus:
Pyrosoma

Each zooid is a few millimetres in size, but is embedded in a common gelatinous tunic that joins all of the individuals.[2] Each zooid opens both to the inside and outside of the "tube", drawing in ocean water from the outside to its internal filtering mesh called the branchial basket, extracting the microscopic plant cells on which it feeds, and then expelling the filtered water to the inside of the cylinder of the colony. The colony is bumpy on the outside, each bump representing a single zooid, but nearly smooth, although perforated with holes for each zooid, on the inside.[1][4]

Pyrosomes are planktonic, which means their movements are largely controlled by currents, tides, and waves in the oceans. On a smaller scale, however, each colony can move itself slowly by the process of jet propulsion, created by the coordinated beating of cilia in the branchial baskets of all the zooids, which also create feeding currents.[4]

Pyrosomes are brightly bioluminescent, flashing a pale blue-green light that can be seen for many tens of metres. The name Pyrosoma comes from the Greek (pyro = "fire", soma = "body"). Pyrosomes are closely related to salps, and are sometimes called "fire salps". Sailors on the ocean occasionally observe calm seas containing many pyrosomes, all luminescing on a dark night.[1][4]

Bioluminescence

Although many planktonic organisms are bioluminescent, pyrosome bioluminescence is unusual in its brilliance and sustained light emission,[5] and evoked the following comment when seen by the eminent scientist Thomas Huxley at sea:

"I have just watched the moon set in all her glory, and looked at those lesser moons, the beautiful Pyrosoma, shining like white-hot cylinders in the water" (T.H. Huxley, 1849).[6]

Section through the wall of a pyrosome (magnified) showing a single layer of ascidiozooids: (br) branchial orifice; (at) atrial orifice; (tp) process of the test; (br s) branchial sac

Pyrosomes often exhibit waves of light passing back and forth through the colony, as each individual zooid detects light and then emits light in response. Each zooid contains a pair of light organs located near the outside surface of the tunic, which are packed with luminescent organelles that may be intracellular bioluminescent bacteria. The waves of bioluminescence that move within a colony are apparently not propagated by neurons, but by a photic stimulation process.[7] Flashing zooids not only stimulate other zooids within the colony to bioluminesce, but nearby colonies will also display bioluminescence in response. Colonies will bioluminesce in response to mechanical stimulation (touch), as well as to light.[5]

Species

Pyrosoma atlanticum by a tide pool in California

The following species are accepted as valid by the World Register of Marine Species:[8]

  • Pyrosoma aherniosum Seeliger, 1895
  • Pyrosoma atlanticum Péron, 1804
  • Pyrosoma godeauxi van Soest, 1981
  • Pyrosoma ovatum Neumann, 1909

Bloom in North Pacific

In 2017, pyrosomes were observed to have spread in unprecedented numbers along the Pacific coast of North America as far north as Alaska. The causes remain unknown, but one hypothesis is that this bloom may have resulted in part from unusually warm water along the coast over several preceding years. Scientists were concerned that should there be a massive die-off of the pyrosomes, it could create a huge dead zone as the decomposition of their bodies consumed much of the oxygen dissolved in the surrounding seawater.[2][3][9]

gollark: My ridiculously convoluted serialization scheme appears to break on it somehow.
gollark: On 5.3 I get it using debug.getupvalue and on CC using getfenv.
gollark: Yes, I know.
gollark: The function environment:* on Lua 5.3 is serialized as nil somehow* on CC stackoverflows during its serialization
gollark: I think I've almost finished function serialization, except my code is kind of a horrible mess and I've hit an annoying bug I don't understand.

References

  1. Garber, Megan (August 2, 2013). "12 Reasons Pyrosomes Are My New Favorite Terrifying Sea Creatures". The Atlantic.
  2. "Blob-like intruders infesting pacific coast".
  3. "Newsweek: Mysterious Sea Pickles invading West Coast in bizarre bloom".
  4. Guo, Demi (February 20, 2019). "See the giant 'sea worm' filmed off the coast of New Zealand". National Geographic.
  5. Bowlby, M.R.; Widder, E.A.; Case, J.F. (1990). "Patterns of stimulated bioluminescence in two pyrosomes (Tunicata: Pyrosomatidae)". Biological Bulletin. Marine Biological Laboratory. 179 (3): 340–350. doi:10.2307/1542326. JSTOR 1542326. PMID 29314963.
  6. Huxley, T.H. (1936). Huxley, J. (ed.). T.H. Huxley's diary of the voyage of H.M.S. Rattlesnake. Garden City, New York: Doubleday.
  7. Mackie, G.O.; Bone, Q. (1978). "Luminescence and associated effector activity in Pyrosoma (Tunicata: Pyrosomida)". Proceedings of the Royal Society B. 202 (1149): 483–495. doi:10.1098/rspb.1978.0081.
  8. "Pyrosoma". World Register of Marine Species. Retrieved April 13, 2015.
  9. "Massive Bloom Of Pickle-Shaped Sea Creatures Fills The Pacific". Oregon Public Radio. Retrieved November 17, 2017.

Bibliography

  • Bone, Q. editor (1998) The Biology of Pelagic Tunicates. Oxford University Press, Oxford. 340 pp.
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