Loreleia

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Loreleia
Loreleia postii 68641.jpg
Loreleia postii
Scientific classification
Kingdom:
Division:
Class:
Order:
Family:
Genus:
Loreleia
Type species
Loreleia postii
(Fr.) Redhead, Moncalvo, Vilgalys & Lutzoni (2002)
Species

L. marchantiae
L. postii
L. roseopallida

Loreleia is a genus of brightly colored agarics in the Hymenochaetales that have an omphalinoid morphology. [1] [2] [3] They inhabit mosses and or liverworts on soil in temperate regions of the Northern Hemisphere. [4] Phylogenetically related agarics are in the genera Contumyces , Gyroflexus , Rickenella , Cantharellopsis and Blasiphalia , as well as the stipitate-stereoid genera Muscinupta and Cotylidia [5] and the clavaroid genus, Alloclavaria . [3] However, the large number of DNA base-pair changes causes a long-branch to form in phylogenetic analyses depicted as cladograms.

Contents

In the field, to the eye, Loreleia is most similar to Rickenella because of the orangish colors and omphalinoid shape, but microscopically it differs by the absence of cystidia that in Rickenella make the latter minutely fuzzy as seen with a hand lens. [6] Loreleia penetrates the rhizoids of liverworts and may form a type of symbiosis with them, [7] but in axenic culture tests, L. marchantiae killed Marchantia polymorpha when directly inoculated [8] in contrast to the absence of necrosis in nature in situ. In nature Loreleia often occur in wet areas such as seepages with their hosts, Marchantia .

Older literature often treats the species, like L. postii and L. marchantiae, in the genera Omphalina or Gerronema .

Etymology

Loreleia was named after the American mycologist, Dr. Lorelei L. Norvell (1943-2023), [9] who studied omphalinoid agarics, [10] and who apropos was in turn named after the riverine Lorelei of folklore.

Related Research Articles

<span class="mw-page-title-main">Agaricales</span> Order of mushrooms

The Agaricales are an order of fungi in the division Basidiomycota. As originally conceived, the order contained all the agarics, but subsequent research has shown that not all agarics are closely related and some belong in other orders, such as the Russulales and Boletales. Conversely, DNA research has also shown that many non-agarics, including some of the clavarioid fungi and gasteroid fungi belong within the Agaricales. The order has 46 extant families, more than 400 genera, and over 25,000 described species, along with six extinct genera known only from the fossil record. Species in the Agaricales range from the familiar Agaricus bisporus and the deadly Amanita virosa to the coral-like Clavaria zollingeri and bracket-like Fistulina hepatica.

<span class="mw-page-title-main">Hymenochaetales</span> Order of fungi

The Hymenochaetales are an order of fungi in the class Agaricomycetes. The order in its current sense is based on molecular research and not on any unifying morphological characteristics. According to one 2008 estimate, the Hymenochaetales contain around 600 species worldwide, mostly corticioid fungi and poroid fungi, but also including several clavarioid fungi and agarics. Species of economic importance include wood decay fungi in the genera Phellinus and Inonotus sensu lato, some of which may cause losses in forestry. Therapeutic properties are claimed for Inonotus obliquus ("chaga") and Phellinus linteus, both of which are now commercially marketed.

<span class="mw-page-title-main">Marasmiaceae</span> Family of fungi

The Marasmiaceae are a family of fungi in the order Agaricales. Basidiocarps are most frequently agarics, but occasionally cyphelloid. According to a 2008 estimate, the family contained 54 genera and 1590 species, but molecular research, based on cladistic analysis of DNA sequences, has led to a more restricted family concept, so that the Marasmiaceae included just 13 genera, and some 1205 species. It was reduced further down in 2020, to 10 genera and about 700 species.

<i>Stropharia</i> Genus of fungi

The genus Stropharia is a group of medium to large agarics with a distinct membranous ring on the stipe. Well-known members of this genus include the edible Stropharia rugosoannulata and the blue-green verdigris agarics. Stropharia are not generally regarded as good to eat and there are doubts over the edibility of several species. However the species Stropharia rugosoannulata is regarded as prized and delicious when young, and is now the premier mushroom for outdoor bed culture by mycophiles in temperate climates.

<i>Contumyces</i> Genus of fungi

Contumyces is a genus of brightly colored possibly bryophilous or graminicolous agarics in the Hymenochaetales. They have an omphalinoid morphology, and therefore were previously classified in Omphalina. They inhabit mossy or grassy silty or sandy soils in the Northern Hemisphere. Phylogenetically related agarics are in the genera Rickenella, Gyroflexus, Loreleia, Cantharellopsis and Blasiphalia, as well as the stipitate-stereoid genera Muscinupta and Cotylidia and clavarioid genus, Alloclavaria. Contumyces is most similar to Rickenella and Blasiphalia and differs by having its cystidia on the cap, stipe, and hymenium in clusters, whereas in Rickenella and Blasiphalia the cystidia are solitary.

<i>Rickenella</i> Genus of fungi

Rickenella is a genus of brightly colored bryophilous agarics in the Hymenochaetales that have an omphalinoid morphology. They inhabit mosses on mossy soils, peats, tree trunks and logs in temperate regions of both the Northern and Southern Hemispheres. Phylogenetically related agarics are in the genera Contumyces, Gyroflexus, Loreleia, Cantharellopsis and Blasiphalia, as well as the stipitate-stereoid genera Muscinupta and Cotylidia. and the clavarioid genus, Alloclavaria.

Blasiphalia is a fungal genus in the family Repetobasidiaceae. A monotypic genus, it contains the honey colored omphalinoid agaric, Blasiphalia pseudogrisella, which grows with the liverwort genus Blasia. Phylogenetically related agarics are in the genera Rickenella, Gyroflexus, Loreleia, Cantharellopsis and Contumyces, as well as the stipitate-stereoid genera Muscinupta and Cotylidia and clavarioid genus, Alloclavaria. Blasiphalia is most similar to Rickenella and Contumyces, and was only just recognized as a distinct genus in 2007 based upon molecular analysis. The fungus is unique in parasitizing Blasia by forming clasping appresoria on its host's rhizoids. Its basidiospores also germinate on the host's gemmae and clasp them and therefore can be disseminated together with the gemmae.

<i>Gyroflexus</i> Genus of fungi

Gyroflexus is a monotypic genus with a yellowish-ivory colored omphalinoid agaric in the Hymenochaetales that grows on living Sphagnum Phylogenetically related agarics are in the genera Rickenella, Blasiphalia, Loreleia, Cantharellopsis and Contumyces, as well as the stipitate-stereoid genera Muscinupta and Cotylidia and clavaroid genus, Alloclavaria. Gyroflexus brevibasidiatus, the type, amongst the vaguely omphalinoid genera is distinguished by its small, mammiform pileus, growth on Sphagnum, and lack of cystidia.

Cantharellopsis is a tan- to whitish-colored bryophilous monotypic genus in the Hymenochaetales. The fruit bodies of the single species Cantharellopsis prescotii has a form intermediate between an Omphalina and a chanterelle (Cantharellus) because of its forked, fold-like gills. It inhabits moss on calcareous soils in temperate regions of Europe. Phylogenetically related agarics are in the genera Contumyces, Gyroflexus, Loreleia, Rickenella and Blasiphalia, as well as the stipitate-stereoid genera Muscinupta and Cotylidia and the clavarioid genus, Alloclavaria.

<i>Omphalina</i> Genus of fungi

Omphalina is a genus of small agarics with white, nonamyloid, basidiospores and decurrent gills. Typically the cap has a deep central depression giving the umbrella-like to funnel-shaped cap the appearance of a belly button, or a belly with a navel. Similarly-shaped agarics are said to be omphalinoid in appearance.

<i>Cotylidia</i> Genus of fungi

Cotylidia is a fungal genus characterized by small to moderately sized, white to palely yet brightly colored, stalked, fan-shaped to funnel-shaped fruit bodies with a smooth to wrinkled hymenium, tissues composed of monomitic hyphae, basidia producing smooth, nonamyloid spores, the absence of clamp connections, and bearing projecting cylindrical, thin-walled, hymenial cystidia. The genus is classified in the Hymenochaetales, however the type species, C. undulata has not yet been sequenced. Phylogenetically-related agaricoid fungi to the two species of Cotylidia thus far sequenced are in the genera Rickenella, Contumyces, Gyroflexus, Loreleia, Cantharellopsis and Blasiphalia, and Muscinupta and the clavarioid genus, Alloclavaria.

<i>Alloclavaria</i> Genus of fungi

Alloclavaria is a clavarioid genus in the Hymenochaetales recently segregated from Clavaria by molecular analysis. Phylogenetically related fungi are in the agaricoid genera Rickenella, Contumyces, Gyroflexus, Loreleia, Cantharellopsis and Blasiphalia, as well as the stipitate stereoid genera Cotylidia and Muscinupta. The only species as yet placed in Alloclavaria is the type, formerly known as Clavaria purpurea under which name it is often cited or illustrated.. It is suspected, via circumstantial evidence, i.e. habitat, but not proven, that Alloclavaria is mycorrhizal.

<i>Gerronema</i> Genus of fungi

Gerronema is a genus of small- to medium-sized lignicolous agarics with white, nonamyloid, spores and decurrent gills. The genus was circumscribed by American mycologist Rolf Singer in 1951.

<i>Lichenomphalia</i> Genus of fungi

Lichenomphalia is both a basidiolichen and an agaric genus. Most of the species have inconspicuous lichenized thalli that consist of scattered, small, loose, nearly microscopic green balls or foliose small flakes containing single-celled green algae in the genus Coccomyxa, all interconnected by a loose network of hyphae. The agaric fruit bodies themselves are nonlichenized and resemble other types of omphalinoid mushrooms. These agarics lack clamp connections and do not form hymenial cystidia. The basidiospores are hyaline, smooth, thin-walled, and nonamyloid. Most of the species were originally classified in the genera Omphalina or Gerronema. Historically the species were classified with those other genera in the family, the Tricholomataceae together with the nonlichenized species. Lichenomphalia species can be grouped into brightly colored taxa, with vivid yellow and orange colors, versus the grey brown group, depending upon the microscopic pigmentation deposits. Molecular research comparing DNA sequences now place Lichenomphalia close to the redefined genus Arrhenia, which together with several other genera not traditionally considered to be related, fall within the newly redefined Hygrophoraceae.

<i>Arrhenia</i> Genus of fungi

Arrhenia is a genus of fungi in the family Hygrophoraceae. Arrhenia also includes species formerly placed in the genera Leptoglossum and Phaeotellus and the lectotype species itself has an unusual growth form that would not normally be called agaricoid. All of the species grow in association with photosynthetic cryptogams such as mosses, including peat moss, and alga scums on decaying wood, and soil crusts consisting of mixes of such organisms. Typically the fruitbodies of Arrhenia species are grey to black or blackish brown, being pigmented by incrusting melanized pigments on the hyphae.

<i>Ampulloclitocybe</i> Genus of fungi

Ampulloclitocybe is a genus of three species of fungi with a widespread distribution.

<i>Lichenomphalia umbellifera</i> Species of fungus

Lichenomphalia umbellifera, also known as the lichen agaric or the green-pea mushroom lichen, is a species of basidiolichen in the family Hygrophoraceae. L. umbellifera forms a symbiotic relationship with unicellular algae in the genus Coccomyxa. It is regarded as nonpoisonous.

<i>Arrhenia chlorocyanea</i> Species of fungus

Arrhenia chlorocyanea, commonly known as the verdigris navel, is a species of agaric fungus in the family Hygrophoraceae. Originally named as a species of Agaricus in 1885, and later classified as a member of Omphalina, the species was transferred to the genus Arrhenia in 2002. It is found in Europe and North America.

<i>Lichenomphalia hudsoniana</i> Species of lichen

Lichenomphalia hudsoniana is a species of basidiolichen in the family Hygrophoraceae. It is widely distributed in alpine and arctic regions of the world, where it grows on moist soil amongst moss.

References

  1. Redhead, S.A.; et al. (2002a). "Phylogeny of agarics: partial systematics solutions for bryophilous omphalinoid agarics outside of the Agaricales (euagarics)". Mycotaxon. 82: 151–168.
  2. Redhead, S.A.; et al. (2002b). "Phylogeny of agarics: partial systematics solutions for core omphalinoid genera in the Agaricales (euagarics)". Mycotaxon. 83: 19–57.
  3. 1 2 Dentinger, B.T.M. & McLaughlin, D.J. (2006). "Reconstructing the Clavariaceae using nuclear large subunit rDNA sequences and a new genus segregated from Clavaria". Mycologia. 98 (5): 746–762. doi:10.3852/mycologia.98.5.746. PMID   17256578.
  4. Læssøe T, Petersen JH (2019). Fungi of Temperate Europe Vol 1. Princeton University Press. ISBN   9780691180373.
  5. Larsson, K.-H.; et al. (2006) [2007]. "Hymenochaetales: a molecular phylogeny for the hymenochaetoid clade". Mycologia. 98 (6): 926–936. doi:10.3852/mycologia.98.6.926. PMID   17486969.
  6. Norvell, L.L.; et al. (1994). "Omphalina sensu lato in North America. 1-2: 1: Omphalina wynniae and the genus Chrysomphalina. 2: Omphalina sensu Bigelow". Mycotaxon. 50: 379–407.
  7. Bresinsky, A. & Schötz, A. (2006). "Behaviour in cultures and habitat requirements of species within the genera Loreleia and Rickenella (Agaricales)" (PDF). Acta Mycol. 41 (2): 189–208. doi: 10.5586/am.2006.022 .
  8. Kost, G. (1988). "Interactions between Basidiomycetes and Bryophyta". Endocytobiosis Cell Res. 5: 287–308.
  9. Redhead, S.A., Ammirati, J.F., Korf, N., Pennycook, S.R. (2023). "Lorelei Louise Norvell (1943–2023)". Mycotaxon. 137 (4): 1019–1032.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  10. Burkhardt, Lotte (2022). Eine Enzyklopädie zu eponymischen Pflanzennamen [Encyclopedia of eponymic plant names](pdf) (in German). Berlin: Botanic Garden and Botanical Museum, Freie Universität Berlin. doi:10.3372/epolist2022. ISBN   978-3-946292-41-8 . Retrieved January 27, 2022.