Motyxia
Motyxia | |
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Motyxia sequoiae (Loomis & Davenport, 1951) photographed in its own light. | |
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Genus: | Motyxia Chamberlin, 1941
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Type species | |
Motyxia kerna Chamberlin, 1941
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Species | |
M. alia | |
Synonyms | |
Amplocheir Chamberlin, 1949 |
Motyxia is a genus of
Description
Adult Motyxia reach 3 to 4 cm in length, 4.5 to 8 mm wide, with 20 body segments, excluding the head. Females are slightly larger than males. Like other
Bioluminescence
There are 11 species of Motyxia.[3] They are some of the few known bioluminescent species of millipedes, a class of about 12,000 known species.[4] Motyxia sequoiae glows the brightest and Motyxia pior the dimmest.[5] Light is emitted from the exoskeleton of the millipede continuously, with peak wavelength of 495 nm (the light intensifies when the millipede is handled).[6] Emission of light is uniform across the exoskeleton, and all the appendages (legs, antennae) and body rings emit light. The internal organs and viscera do not emit light. Luminescence is generated by a biochemical process in the millipede's exoskeleton.[6] The light originates by way of a photoprotein, which differs from the photogenic molecule luciferase in firefly beetles.[7]
Motyxia's photoprotein contains a
Besides Motyxia, the only known bioluminecscent millipedes are Paraspirobolus lucifugus (Spirobolellidae), from Japan and Taiwan, and Salpidobolus (Rhinocricidae), both in the order Spirobolida.[9] Another luminescent species of dubious existence from North America has been claimed, but it has not been found since the 1890s and the luminescence attributed to it is believed to have been larval phengodid beetles, also known as glowworms.[1]
Theories for Bioluminescence Functionality
Scientists familiar with Motyxia were at odds over the function of bioluminescence in Motyxia and various studies and theories had been proposed.
One study found Motyxia that glowed brighter also tended to have larger cyanide glands and were thus more toxic to predators. While this implicates Motyxia's bioluminescence as an evolution for protection from predators, this study also notes that higher elevation millipedes glowed brighter. This finding led to the discovery that the more faint glow of the low-elevation millipedes was an older trait than the brighter glow of the high-elevation millipedes. Ultimately, the scientists of this study concluded that bioluminescence “may have initially evolved to cope with metabolic stress triggered by a hot, dry environment and was repurposed as a warning signal by species colonizing high-elevation habitats with greater predation risk.”[10]
Another study provides further evidence for Motyxia's bioluminescence as a predator-deterrent. Researchers from the University of Arizona and other institutions collected 164 M. sequoiae from the Giant Sequoia National Monument and painted half to conceal their bioluminescence. Additionally, 300 clay millipedes were created, half with luminescent pigment. These specimens were placed randomly in a line overnight, with live ones tethered to the ground. In the morning, about one-third of the millipedes were attacked, primarily by southern grasshopper mice. Interestingly, luminescent millipedes experienced less than half the predation rate of their non-luminescent counterparts, hinting at a potential correlation between luminescence and reduced predation.[11]
Motyxia bistipita
The discovery of the Motyxia bistipita after nearly 50 years revealed new characteristics about the species and genus. In 1967, two small millipedes were discovered in San Luis Obispo, and were coined as a new species, Xystocheir bistipita. For almost 50 years, these two millipedes were the only sightings of the species, until they were rediscovered in 2013 in San Luis Obispo once again. The rediscovered specimens were brought to a lab and examined, where it was discovered that the species was bioluminescent. With this new piece of information, the Xystocheir bistipita was found to have a closer phylogenetic relationship with the Motyxia species and was renamed Motyxia bistipita.[12]
M. bistipita lives in low elevations of the Sierra Nevada mountains in California, in a hotter, drier climate than other Motyxia. The glow is believed to be a response to heat; the bioluminescent proteins help neutralize the body's byproducts caused by heat. The bioluminescence later evolved as a warning signal to predators that the body contained cyanide.[13][12]
Ecology and behavior
Motyxias occur in
Natural predators of motyxias include rodents,[5] geophilid centipedes, and larval phengodid beetles.[1]
Life cycle
The
Distribution
Motyxia species occur in an approximate 280 km (175 mi) vertical range across three counties in California:
Species
List of Species [15]
Species | Taxon author | Geographic range[14] | Notes |
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M. alia | Causey & Tiemann, 1969 | "Central Tulare Co., valleys of South Fork of Kaweah River, North Fork of Tule River, and Yokohl River."[1] | Originally described as Motyxia sequoia alia. |
M. bistipita | (Shelley, 1996) | Low elevations of the Sierra Nevada mountains in California | Originally described as Xystocheir bistipita |
M. kerna | Chamberlin, 1941 | Southern Tulare Co. to northern Kern Co., | |
M. monica | Chamberlin, 1944 | Kern Co., south of the Kern River, and a disjunct population in the Santa Monica Mountains. | |
M. ollae | Causey & Tiemann, 1969 | "Southern Tulare County, valleys of Deer Creek, Pothole Creek, and Tule River."[1] | Originally described as Motyxia sequoia ollae. |
M. pior | Chamberlin 1941 | Tulare Co., Sequoia National Park | |
M. porrecta | Causey & Tiemann, 1969 | Kern River Valley | |
M. sequoia[a] | (Chamberlin, 1941) | East Fork of the Kaweah River, Tulare Co. | Originally described as Xystocheir sequoia. |
M. sequoiae[a] | (Loomis & Davenport, 1951) | Headwaters of the Tule River (Middle fork), Tulare Co. | Originally described as Luminodesmus sequoiae. |
M. tiemanni | Causey, 1960 | Northern Kern Co. | |
M. tularea | (Chamberlin, 1949) | Central Tulare Co. to extreme northern Kern Co. | Originally described as Xystocheir tularea. Two subspecies: M. t. tularea. and M. t. ollae. |
Classification and evolution
The
Motyxia is a member of the family Xystodesmidae, a group of large and colorful millipedes, and M. monica is the southernmost species of Xystodesmidae in western North America.[1] Within Xystodesmidae, Motyxia is placed in the tribe Xystocheirini along with the genera Anombrocheir, Parcipromus, Wamokia, and Xystocheir, all of which are native to California.[16]
Future Studies
According to Paul E. Marek, one of the most heavily involved researchers of these millipedes, "much about Motyxia remains mysterious." There is still a lot to learn about Motyxia's mating habits, their emergences into the night, and the exact evolutionary reasons for their bioluminescence.[17]
Notes
- ^ a b The near identical spelling of M. sequoia and M. sequoiae are due to both species originally being named under different genera. Under the International Code of Zoological Nomenclature the names cannot be replaced.[1]
References
- ^ a b c d e f g h i j N.B. Causey & D.L. Tiemann (1969). "A revision of the bioluminescent millipedes of the genus Motyxia (Xystodesmidae: Polydesmida)". Proceedings of the American Philosophical Academy. 113: 14–33.
- ^ JSTOR 1538698.
- hdl:10919/102616.
- PMID 17163800.
- ^ PMID 21959150.
- ^ JSTOR 1538806.
- ^ .
- S2CID 1875440.
- S2CID 27853202.
- ^ "Why do California's Millipedes Glow?". California Academy of Sciences. Retrieved 2023-10-19.
- ^ Zielinski, Sarah. "The Millipede That Glows In The Dark". Smithsonian Magazine. Retrieved 2023-10-19.
- ^ PMID 25941389.
- ^ nationalgeographic.com 2015-05-04 New Glowing Millipede Found; Shows How Bioluminescence Evolved
- ^ a b c R.M. Shelley (1997). "A re-evaluation of the milliped genus Motyxia Chamberlin, with a re-diagnosis of the tribe Xystocheirini and remarks on the bioluminescence (Polydesmida: Xystodesmidae)". Insecta Mundi. 11: 331–351.
- hdl:10919/102616.
- ^ Hoffman, R. L. (1999). "Checklist of the millipeds of North and Middle America". Virginia Museum of Natural History Special Publications. 8: 359.
- ^ "Night lights: The wonders of bioluminescent millipedes | NSF - National Science Foundation". new.nsf.gov. 5 June 2015. Retrieved 2023-10-19.
Further reading
- J. Rosenberg; V.B. Meyer-Rochow (2009). "Luminescent myriapoda: a brief review". In V.B. Meyer-Rochow (ed.). Bioluminescence in Focus: A Collection of Illuminating Essays. Research Signpost. pp. 139–147. ISBN 978-81-308-0357-9.