Candelaria concolor, commonly known as the candleflame lichen or the lemon lichen,[2] is an ascomycete of the genus Candelaria. It is a small foliose lichen[2] dispersed globally.[3]
Candelaria concolor | |
---|---|
Scientific classification | |
Domain: | Eukaryota |
Kingdom: | Fungi |
Division: | Ascomycota |
Class: | Candelariomycetes |
Order: | Candelariales |
Family: | Candelariaceae |
Genus: | Candelaria |
Species: | C. concolor
|
Binomial name | |
Candelaria concolor (Dicks.) Stein (1879)
| |
Synonyms[1] | |
List
|
Description and morphology
editThe vegetative body, or thallus, of the lichen is foliose, and its color ranges from bright-yellow to yellow-green. Thallus is minute (less than 1cm wide), but aggregates to form extensive colonies.[4] Lobes of the thallus are flattened and divided.[5] Soredia are granular and are found in margins between or at the end of lobes. Apothecia are rare and minute (under 1 mm). Asci are clavate and contain over 30 ascospores.[4] Pycnidia are much more common and are found as wart-like structures on the upper-surface of the thallus. Pycnidia are often the same color as the thallus, with darker conidia. Lower surface of the thallus is whitish-pink with white rhizines.[4]
Green modules
editCandelaria concolor has been used as in anatomical studies of lichen looking at green modules, clusters of algae and hyphae. Electron micrograph images has revealed pockets of a protein called hydrophobin surrounding these modules.[6] It has been postulated that these pockets allow for gas and water exchange to the algal layer of the lichen.
Distinctions
editCandelaria concolor is often misidentified as a member of Xanthoria, however C. concolor is K−, whereas Xanthoria species are K+ with a bright red to purple reaction.[4][7]
Candelaria concolor can be distinguished from Candelaria pacifica due to its larger lobes, distinct lower cortex, and relatively large white rhizines. Asci of C. pacifica also contain only 8 ascospores.[8]
Notable secondary metabolites created by C. concolor include: pulvinic dilactone, vulpinic acid, calycin.[4][7]
Habitat and distribution
editGlobally distributed. Very common species in North America and Europe.[3] One of the most common lichen species in the Chihuahuan and Sonoran Deserts.[4] Most commonly found of the bark of trees, especially that of Acer, Fraxinus, Salix, and Ulmus.[4] Also found on wooden fences and poles. Less often seen on rocks and walls. Prefer well lit areas. Can be found in the emergent layer of forests in through birds dispersing both soredia and nutrients,[9] however a different study found that C. concolor becomes more and more rare as canopy height increases.[10]
Ecology and conservation
editListed as IUCN Least Concern in Great Britain and Ireland.[5] Regularly found in eutrophicated habitats, and can be an indicator of high nitrogen in the environment when found as the dominant lichen species.[4][11] Quite tolerant to pollution, found in many urban environments.
References
edit- ^ "Synonymy: Candelaria concolor (Dicks.) Arnold, Flora, Regensburg 62: 364 (1879)". Species Fungorum. Retrieved 7 May 2022.
- ^ a b Beeching, S.Q. (2007). A Guide to Twelve Common and Conspicuous Lichens in Georgia's Piedmont. p. 5.
- ^ a b "Candelaria concolor (Dicks.) Arnold". Global Biodiversity Information Facility. 2021.
- ^ a b c d e f g h Nash, T.H. (2002). Lichen Flora of the Greater Sonoran Desert Region.
- ^ a b Powell, M (2017). "Fungi of Great Britain and Ireland".
- ^ Goodenough, Ursula (2021). "Lichen 4: The Algal Layer". Algal Research. 58.
- ^ a b Dias, Daniel A. (2009). "Chemical Constituents of the Lichen, C. concolor: a Complete NMR and chemical Degradative Investigation". Natural Product Research. 23: 925–939.
- ^ Westberg, Martin (2011). "Candelaria pacifica sp nova (Ascomycota, Candelariales) and the identity of Candelaria vulgaris". Bibliotheca Lichenologica. 106: 353–364.
- ^ McCune, B (2000). "Epiphyte habitats in an old conifer forest in Western Washington, USA". Bryologist. 103: 417–427.
- ^ Tumur, A (2006). "Biomass of arboreal lichens and its vertical distribution in coniferous forest in western Tianshan". Proceedings of the China Association for Science and Technology. 2: 741–744.
- ^ Jovan, S (2004). "Regional variation in epiphytic macrolichen in northern and central Californian forests". Bryologist. 107: 328–339.