Foxfire

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Panellus stipticus, Mt. Vernon, Wisconsin (long exposure) PanellusStipticusAug12 2009.jpg
Panellus stipticus , Mt. Vernon, Wisconsin (long exposure)
Omphalotus olearius Omphalotus olearius 33857.jpg
Omphalotus olearius
Omphalotus nidiformis, glowing in the dark Omphalotus nidiformis lawson lightoff email.jpg
Omphalotus nidiformis , glowing in the dark
Artificial fill light contrasts against the natural glow. PanellusStipticusAug12 2009 Animated.gif
Artificial fill light contrasts against the natural glow.

Foxfire, also called fairy fire and chimpanzee fire, [1] is the bioluminescence created by some species of fungi present in decaying wood. The bluish-green glow is attributed to a luciferase, an oxidative enzyme, which emits light as it reacts with a luciferin. The phenomenon has been known since ancient times, with its source determined in 1823.

Contents

Description

Foxfire is the bioluminescence created by some species of fungi present in decaying wood. It occurs in a number of species, including Panellus stipticus , Omphalotus olearius and Omphalotus nidiformis . The bluish-green glow is attributed to luciferin, which emits light after oxidation catalyzed by the enzyme luciferase. Some believe that the light attracts insects to spread spores, or acts as a warning to hungry animals, like the bright colors exhibited by some poisonous or unpalatable animal species. [2] Although generally very dim, in some cases foxfire is bright enough to read by. [3]

History

The oldest recorded documentation of foxfire is from 382 B.C., by Aristotle, [4] whose notes refer to a light that, unlike fire, was cold to the touch. The Roman thinker Pliny the Elder also mentioned glowing wood in olive groves. [5]

Foxfire was used to illuminate the needles on the barometer and the compass of Turtle , an early submarine. [6] This is commonly thought to have been suggested by Benjamin Franklin; a reading of the correspondence from Benjamin Gale, however, shows that Benjamin Franklin was only consulted for alternative forms of lighting when the cold temperatures rendered the foxfire inactive.

After many more literary references to foxfire by early scientists and naturalists, its cause was discovered in 1823. The glow emitted from wooden support beams in mines was examined, and it was found that the luminescence came from fungal growth. [7]

The "fox" in foxfire may derive from the Old French word faux , meaning "false", rather than from the name of the animal. [8] The association of foxes with such lights is widespread, however, and occurs also in Japanese folklore.[ citation needed ]

See also

Related Research Articles

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<span class="mw-page-title-main">Chemiluminescence</span> Emission of light as a result of a chemical reaction

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<i>Omphalotus olearius</i> Species of fungus

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<span class="mw-page-title-main">Luciferase</span> Enzyme family

Luciferase is a generic term for the class of oxidative enzymes that produce bioluminescence, and is usually distinguished from a photoprotein. The name was first used by Raphaël Dubois who invented the words luciferin and luciferase, for the substrate and enzyme, respectively. Both words are derived from the Latin word lucifer, meaning "lightbearer", which in turn is derived from the Latin words for "light" (lux) and "to bring or carry" (ferre).

<span class="mw-page-title-main">Luciferin</span> Class of light-emitting chemical compounds

Luciferin is a generic term for the light-emitting compound found in organisms that generate bioluminescence. Luciferins typically undergo an enzyme-catalyzed reaction with molecular oxygen. The resulting transformation, which usually involves breaking off a molecular fragment, produces an excited state intermediate that emits light upon decaying to its ground state. The term may refer to molecules that are substrates for both luciferases and photoproteins.

<span class="mw-page-title-main">Firefly luciferin</span> Chemical compound

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<span class="mw-page-title-main">Bioluminescence imaging</span>

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<i>Mycena</i> Genus of fungi

Mycena is a large genus of small saprotrophic mushrooms that are rarely more than a few centimeters in width. The name Mycena comes from the Ancient Greek μύκηςmykes, meaning "fungus". Species in the genus Mycena are commonly known as bonnets.

<i>Omphalotus nidiformis</i> Species of bioluminescent fungus in the family Marasmiaceae

Omphalotus nidiformis, or ghost fungus, is a gilled basidiomycete mushroom most notable for its bioluminescent properties. It is known to be found primarily in southern Australia and Tasmania, but was reported from India in 2012 and 2018. The fan or funnel shaped fruit bodies are up to 30 cm (12 in) across, with cream-coloured caps overlain with shades of orange, brown, purple, or bluish-black. The white or cream gills run down the length of the stipe, which is up to 8 cm (3 in) long and tapers in thickness to the base. The fungus is both saprotrophic and parasitic, and its fruit bodies are generally found growing in overlapping clusters on a wide variety of dead or dying trees.

<span class="mw-page-title-main">Renilla-luciferin 2-monooxygenase</span>

Renilla-luciferin 2-monooxygenase, Renilla luciferase, or RLuc, is a bioluminescent enzyme found in Renilla reniformis, belonging to a group of coelenterazine luciferases. Of this group of enzymes, the luciferase from Renilla reniformis has been the most extensively studied, and due to its bioluminescence requiring only molecular oxygen, has a wide range of applications, with uses as a reporter gene probe in cell culture, in vivo imaging, and various other areas of biological research. Recently, chimeras of RLuc have been developed and demonstrated to be the brightest luminescent proteins to date, and have proved effective in both noninvasive single-cell and whole body imaging.

<span class="mw-page-title-main">Coelenterazine</span> Chemical compound

Coelenterazine is a luciferin, a molecule that emits light after reaction with oxygen, found in many aquatic organisms across eight phyla. It is the substrate of many luciferases such as Renilla reniformis luciferase (Rluc), Gaussia luciferase (Gluc), and photoproteins, including aequorin, and obelin. All these proteins catalyze the oxidation of this substance, a reaction catalogued EC 1.13.12.5.

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<i>Panellus stipticus</i> Species of fungus in the family Mycenaceae found in Asia, Australia, Europe, and North America

Panellus stipticus, commonly known as the bitter oyster, the astringent panus, the luminescent panellus, or the stiptic fungus, is a species of fungus. It belongs in the family Mycenaceae, and the type species of the genus Panellus. A common and widely distributed species, it is found in Asia, Australia, Europe, and North America, where it grows in groups or dense overlapping clusters on the logs, stumps, and trunks of deciduous trees, especially beech, oak, and birch. During the development of the fruit bodies, the mushrooms start out as tiny white knobs, which, over a period of one to three months, develop into fan- or kidney-shaped caps that measure up to 3 cm (1.2 in) broad. The caps are orange-yellow to brownish, and attached to the decaying wood by short stubby stalks that are connected off-center or on the side of the caps. The fungus was given its current scientific name in 1879, but has been known by many names since French mycologist Jean Bulliard first described it as Agaricus stypticus in 1783. Molecular phylogenetic analysis revealed P. stipticus to have a close genetic relationship with members of the genus Mycena.

<i>Omphalotus subilludens</i> Species of fungus

Omphalotus subilludens, commonly known as the Southern Jack O'lantern mushroom, is a basidiomycete fungi in the genus Omphalotus. It has been definitively recorded in Florida and Texas with reports of species in Arizona and Mexico. It fruits on dead and dying trees during warmer parts of the year, producing a fairly large orange to brown-orange fruiting body that occurs in clusters. It is most closely related to O. olivascans, O. olearius, and O. japonicus and has high cross compatibility with O. olivescans and O. olearis. It is poisonous to humans and animals when eaten but rarely produces life-threatening symptoms, usually poisonings are resolved in 24-48 hours, with the majority of symptoms being gastrointestinal. Compounds in these mushrooms have pharmacological potential with potential applications in anti-coagulants, cancer therapies, and antibiotics. It is also bioluminescent producing a faint glow around the gills through the oxidation of luciferase.

<span class="mw-page-title-main">Dinoflagellate luciferase</span>

Dinoflagellate luciferase (EC 1.13.12.18, Gonyaulax luciferase) is a specific luciferase, an enzyme with systematic name dinoflagellate-luciferin:oxygen 132-oxidoreductase.

<span class="mw-page-title-main">Bioluminescent bacteria</span>

Bioluminescent bacteria are light-producing bacteria that are predominantly present in sea water, marine sediments, the surface of decomposing fish and in the gut of marine animals. While not as common, bacterial bioluminescence is also found in terrestrial and freshwater bacteria. These bacteria may be free living or in symbiosis with animals such as the Hawaiian Bobtail squid or terrestrial nematodes. The host organisms provide these bacteria a safe home and sufficient nutrition. In exchange, the hosts use the light produced by the bacteria for camouflage, prey and/or mate attraction. Bioluminescent bacteria have evolved symbiotic relationships with other organisms in which both participants benefit close to equally. Another possible reason bacteria use luminescence reaction is for quorum sensing, an ability to regulate gene expression in response to bacterial cell density.

Diplocardia longa is a species of earthworm native to North America. It was first described by the American zoologist John Percy Moore in 1904. The type locality is Hawkinsville, Georgia. This worm has bioluminescent properties; its body fluids and the sticky slime it exudes when stimulated emit a bluish glow.

<span class="mw-page-title-main">Scintillon</span>

Scintillons are small structures in cytoplasm that produce light. Among bioluminescent organisms, only dinoflagellates have scintillons.

References

  1. "Congo". Africa . January 16, 2013. BBC One.
  2. "Foxfire:Bioluminescent Fungi". inamidst.com. Retrieved July 18, 2011.
  3. "Bioluminescent Fungi". Mykoweb. Retrieved July 18, 2011.
  4. Lee, J (2008). "Bioluminescence: the First 3000 Years (Review)". Journal of Siberian Federal University. Biology. 1 (3): 194–205. doi: 10.17516/1997-1389-0264 .
  5. "Foxfire: Bioluminescence in the Forest". Warnell School of Forest Resources. Archived from the original on July 19, 2011. Retrieved July 18, 2011.
  6. "The Submarine Turtle: Naval Documents of the Revolutionary War". Navy Department Library. Archived from the original on September 17, 2008. Retrieved May 1, 2012.
  7. "Bioluminescent foxfire, Bioluminescence facts, Bioluminescent fungi". Journey Idea. Archived from the original on September 24, 2013. Retrieved July 18, 2011.
  8. Smythe Palmer, Abram, The Folk and Their Word-lore: An Essay on Popular Etymologies (1904)