Niebla infundibula is a fruticose lichen that grows on rocks along the Pacific Coast in the Channel Islands of California (San Nicolas Island) and in Baja California on Guadalupe Island, and on the main peninsula in the southern region of the Northern Vizcaíno Desert on a ridge south of Punta Negra.[1] The epithet, infundibula, is in reference to the funnel shape of the thallus branches.
Niebla infundibula | |
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Scientific classification | |
Domain: | Eukaryota |
Kingdom: | Fungi |
Division: | Ascomycota |
Class: | Lecanoromycetes |
Order: | Lecanorales |
Family: | Ramalinaceae |
Genus: | Niebla |
Species: | N. infundibula
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Binomial name | |
Niebla infundibula Spjut (1996)
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Distinguishing features
editNiebla infundibula is characterized by a large massive rigid thallus divided into sub[terete] branches spreading from a holdfast, to 10 cm high and 15 cm across above the base, and further recognized by containing divaricatic acid and by the large pycnidia.[1][2][3] that are prominent on the upper parts of branches, appearing larger than other species in the genus; however, comparative measurements were not provided for all species.[1] The cortex is glossy and moderately thick, 75–125 μm thick.[1] The relatively greater mass of the thallus may be due to a thicker glossy layer that is generally absent in many related species (“epicortex”[4]). Similar species are Niebla juncosa, which differs in having a more fragile thallus with branches that break off as evident from the thallus falling apart in the herbarium, including breaking apart at the base, and by its less glossy cortex and less conspicuous pyncidia (due to their smaller size), and Niebla eburnea, also with smaller pycnidia (200–350 μm long), but generally recognized by its pastry-like, or ivory-like, cortex.[1]
Taxonomic history
editNiebla infundibula was first recognized by Richard Spjut, accompanied by Richard Marin and Thomas McCloud, 19 May 1986, just south of Punta Negra on rock outcrops along a ridge that appeared to receive more precipitation from ocean fog than nearby ridges and peaks (Plate 1D in Spjut’s 1996 revision of Niebla and Vermilacinia).[1] This area was observed during May 1985 by Spjut—while he and Marin were collecting samples of lichens in search of new drugs to treat HIV—to have fog lingering over the peaks and ridges most of the day. The following year, in May 1986, they were able to find a path to the foggy ridges and peaks.[1] In addition to Niebla infundibula, other rare species of lichens were discovered, Niebla homaleoides (acid deficient) and Vermilacinia rigida. Niebla infundibula was subsequently found on another ridge just south of Punta Negra, above Punta Rocosa, in March 1988.[1] A strong similarity of N. infundibula to other Niebla species growing with it, such as Niebla josecuervoi (salazinic acid) and Niebla homaleoides, has been suggested to be due to hybridization.[5] The prominence of the pycnidia and their potential role in sexual reproduction has been considered.[6][7] Specimens later studied in the United States National Herbarium (Smithsonian Institution)[8] and on loan from the University of Colorado and Boulder were also recognized to belong to N. infundibula. However, the species (N. infundibula) appears to be relatively rare based on the relatively few collections reported.[1]
Niebla infundibula has been included under a very broad species concept of Niebla homalea;[9] one that essentially recognizes only three species in the genus Niebla, defined by a two-layered cortex, isolated chondroid strands in the medulla and by lacking key lichen substances such as the triterpene zeorin and the diterpene (-)-16 α-hydroxykaurane that are found in most species of Vermilacinia.[10] Under the broad species concept, the morphological differences are seen as environmentally induced variation, and the chemical differences as chemo-syndromes;[9] however, no data were presented to support this view, other than reference to studies in other genera in which the species differences mentioned were not applicable.[11]
References
edit- ^ a b c d e f g h i Spjut, R. W. 1996. Niebla and Vermilacinia (Ramalinaceae) from California and Baja California. Sida Bot. Misc. 14
- ^ Pycnidium (pycnidia plural) is a small flash-shaped structure (300–450 μm long near the base in N. infundibula) that produces conidia, which escape through an opening (ostiole) at the top and function in reproduction, asexually or sexually
- ^ Bungartz, F. 2002. Morphology and anatomy of conidia-producing structures, Lichen Flora of the Greater Sonoran Desert 1: 35–40
- ^ Bowler, P.A. 1981. Cortical diversity in the Ramalinaceae. Can. J. Bot. 59: 437–453.
- ^ Niebla homaleoides, World Botanical Associates, retrieved 26 Dec 2014; http://www.worldbotanical.com/niebla_homaleoides.htm
- ^ Robinson, H.1975. Considerations of the evolution of lichens. Phytologia 52: 407–413
- ^ Sanders, W. B. 2014. Complete life cycle of the lichen fungus Calopadia puiggarii (Pilocarpaceae, Ascomycetes) documented in situ: Propagule dispersal, establishment of symbiosis, thallus development, and formation of sexual and asexual reproductive structures. Am. J. Bot. , online ahead of print, 30 Oct 2014
- ^ United States National Herbarium, http://botany.si.edu/colls/collections_overview.htm
- ^ a b Bowler, P. and J. Marsh. 2004. Niebla. ‘Lichen Flora of the Greater Sonoran Desert 2’: 368–380.
- ^ Spjut R. W. 1995. Vermilacinia (Ramalinaceae, Lecanorales), a new genus of lichens. In: Flechten Follmann; Contr. Lichen in honor of Gerhard Follmann; F. J. A. Daniels, M. Schulz & J. Peine, eds., Koeltz Scientific Books: Koenigstein, pp. 337-351.
- ^ Lichen Flora of the Greater Sonoran Desert: Book Review, Richard Spjut, web page, http://www.worldbotanical.com/lichen%20flora%20review.htm
External links
edit- World Botanical Associates, Niebla infundibula, retrieved 26 Dec 2014, http://www.worldbotanical.com/niebla_ infundibula.htm# infundibula