Niebla laminaria is a fruticose lichen that grows on rocks along the Pacific Coast of North America within the California Floristic Province, from Marin County, California south to Misión San Vicente Ferrer in Baja California, and in the Baja Channel Islands.[1] The epithet, laminaria is in reference to the thallus divided into blade-like branches similar to a genus of brown algae, Laminaria.
Niebla laminaria | |
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Scientific classification | |
Domain: | Eukaryota |
Kingdom: | Fungi |
Division: | Ascomycota |
Class: | Lecanoromycetes |
Order: | Lecanorales |
Family: | Ramalinaceae |
Genus: | Niebla |
Species: | N. laminaria
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Binomial name | |
Niebla laminaria Spjut (1996)
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Distinguishing features
editNiebla laminaria is distinguished by the thallus divided into relatively few (10 or less) subterete branches with a common attachment base (or holdfast) and with various short marginal lobes or spine-like branchlets, to 7 cm high and 4 cm across.[1] The species (N. laminaria) is also recognized by containing divaricatic acid, with triterpenes, and by a relatively thick cortex, 80–200 μm thick covering a solid medulla, the cortex pale olive green to dark green, turning brown in the herbarium.[1]
Niebla laminaria appears to intergrade with Niebla testudinaria in the northern geographical range of the species, Niebla eburnea in the mid range, and Niebla juncosa var. spinulifera in the southern range. This variation might also be seen as variants of the other species, except that specimens from Punta Banda and San Nicolas Island are remarkably similar in their morphology and in their secondary metabolites.[2] This close morphological and chemical similarity between widely geographically separated individuals reinforces the recognition of N. laminaria as a distinct species as further exemplified in a genetic study of another fog lichen, Dendrographa leucophaea where thalli of D. leucophaea at Punta Banda and on San Nicolas Island, separated by water for a distance of 190 miles (Google Earth ruler), were found to be more genetically similar than to sterile and fertile forms of the same species growing next to each other.[3] which they may be regarded cryptic species of a species pair.[3] The morphological differences between N. laminaria and other related species in the genus Niebla, are evident; however, instead of sterile and fertile species as reported for D. leucophaea, sibling species may be recognized by the secondary lichen substances.[4][5] For example, Niebla cornea in southern California may be viewed by some as a sekikaic acid race of N. laminaria, or as a separate undescribed species, or under a very broad interpretation of a species (Niebla homalea) in which the variation in morphology is viewed as being environmentally induced and in chemistry as chemosyndrome variation.[6] Niebla laminaria as described above is defined by its morphology and by its secondary metabolites with emphasis placed on secondary metabolites, not an uncommon practice in taxonomic treatments of other lichen genera;[7] Niebla cornea (sekikaic acid) and N. laminaria (divaricatic acid) are best distinguished by their lichen substances when they cannot be easily differentiated morphologically.[1]
Taxonomic history
editNiebla laminaria was first recognized as part of a sample of Niebla homalea collected 29 April 1985 by Richard Spjut and Richard Marin on Punta Banda in Baja California for anti-HIV screening by the National Cancer Institute.[8] Before submitting the sample on 2 Feb 1986, a thallus of Niebla laminaria (not yet described) was removed along with voucher specimens for N. homalea; the remaining material, 58 grams of N. homalea, was submitted to the NCI. The voucher specimen for N. homalea was deposited at the United States National Herbarium (Smithsonian Institution),[9] Spjut & Marin 9032C. A thallus removed from the sample, Spjut & Marin 9032C3, is the holotype for N. laminaria.[1] In collecting multiple thalli of a lichen species—for biochemical screening—such as in the genus Niebla, it can be a challenge to obtain uniform morphological and chemical thalli as a taxonomic sample. Under a very broad species concept (Niebla homalea);[6] one that essentially recognizes only two species in the genus Niebla, this would be less of a problem, in contrast to a narrow species concept where Niebla is defined by the two-layered cortex, the isolated chondroid strands in the medulla, and by the lichen substances lacking the terpenes found in Vermilacinia.[10]
References
edit- ^ a b c d e Spjut, R. W. 1996. Niebla and Vermilacinia (Ramalinaceae) from California and Baja California. Sida Bot. Misc. 14
- ^ World Botanical Associates, Niebla laminaria, retrieved 26 Dec 2014, http://www.worldbotanical.com/niebla_laminaria.htm#laminaria
- ^ a b Lohtander, K., L. Myllys, R. Sundin, M. Kllersj, and A. Tehler. 1998. The species pair concept in the lichen Dendrographa leucophaea (Arthoniales): Analyses based on ITS Sequences. Bryologist 101: 404–411.
- ^ Culberson, W. L. 1986. Chemistry and sibling speciation in the lichen-forming fungi: Ecological and biological considerations. The Bryologist 89:123-131
- ^ Niebla and Vermilacinia of Baja California, World Botanical Associates, retrieved 26 Dec 2014, http://www.worldbotanical.com/lichens.htm
- ^ a b Bowler, P. and J. Marsh. 2004. Niebla. ‘Lichen Flora of the Greater Sonoran Desert 2’: 368–380.
- ^ Kalb, K. and J. A. Elix. 1995. The lichen genus Physcidio. In: Studies in lichenology with emphasis on chemotaxonomy, geography and phytochemistry Festschrift Ch. Leuckert Eds: Knoph, J.-G., Schriifer, K. & Sipman, H. J. M. - Bibliotheca Lichenologica 57:265 -296. J. Cramer in der Gebriider Borntraeger Verlagsbuchhandlung, Berlin-Stuttgd
- ^ Samples of lichens were collected during 1985 from the eastern and western regions of the United States and from Baja California, Mexico for the anti-HIV screening by the National Cancer Institute, Natural Products Branch. Prior to 1982, samples for the NCI plant screening program were supplied in 1 kilogram (kg) quantity (dried) by the USDA Agricultural Research Service. In October 1982, the funding for this cooperative agreement was terminated. World Botanical Associates (WBA) was formed by Richard Spjut in May 1983 to continue to supply samples for antitumor screening to university chemists and to the NCI. Lichens were considered a potential novel source for new anti-HIV drugs since they had rarely been collected for the NCI antitumor screening program. Richard Spjut, the Senior Partner of WBA, proposed that the NCI reduce their 1 kg quantity to 25 grams in order to obtain a broad diversity of lichen samples. The NCI group maintains an inventory of natural product extracts with details on the collection data. A 58 gram sample of Niebla homalea was submitted under the accession number WBA-277
- ^ United States National Herbarium, http://botany.si.edu/colls/collections_overview.htm
- ^ 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.