Relevant bibliographies by topics / Lichenothelia

Academic literature on the topic 'Lichenothelia'

Author: Grafiati
Published: 1 April 2023

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Journal articles on the topic "Lichenothelia"

1

VALADBEIGI, Tahereh, Matthias SCHULTZ, and Wolfgang VON BRACKEL. "Two new species of Lichenothelia (Lichenotheliaceae) from Iran." Lichenologist 48, no. 3 (May 2016): 191–99. http://dx.doi.org/10.1017/s0024282916000104.

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AbstractTwo new species of Lichenothelia, both from Iran, are described. Lichenothelia iranica is characterized by a black thallus with often finely lobate, slightly effigurate, not areolate margins, eight non-amyloid spores per ascus and 1–3-septate ascospores with 1–2 longitudinal or oblique septa. Lichenothelia ilamensis is distinguished by a black areolate, fissured, slightly effigurate or rarely lobulate thallus. The areoles are confluent and aggregated in the centre, becoming dispersed towards the margin, and the asci contain (4–)6(–8) non-amyloid, 1-septate spores.
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2

ATIENZA, Violeta, and David L. HAWKSWORTH. "Lichenothelia renobalesiana sp. nov. (Lichenotheliaceae), for a lichenicolous ascomycete confused with Polycoccum opulentum (Dacampiaceae)." Lichenologist 40, no. 2 (March 2008): 87–96. http://dx.doi.org/10.1017/s0024282908007342.

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Abstract:The name Polycoccum opulentum proves to have been wrongly applied to a lichenicolous fungus belonging to the genus Lichenothelia, and which differs from the type material of P. opulentum in having non-ostiolate broadly stipitate ascomata and narrow ascospores with a conspicuous gelatinous sheath. The Lichenothelia represents an hitherto undescribed species, named here as L. renobalesiana, sp. nov. which is associated with verrucarialean lichens on hard limestones in temperate regions. The true P. opulentum is known only from the original collection on Polyblastia hyperborea from Sweden.
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3

Khodosovtsev, Alexander Ye, and Valeriy V. Darmostuk. "New species of lichenicolous fungi for Ukraine." Folia Cryptogamica Estonica 53 (November 11, 2016): 93. http://dx.doi.org/10.12697/fce.2016.53.11.

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The lichenicolous fungi Abrothallus teloschistis, Ceratobasidium bulbillifaciens, Cladosporium licheniphilum, Cornutispora ciliata, Epicladonia sandstedei, Lichenohendersonia varians, Lichenothelia renobalesiana, Stigmidium clauzadei, Vouauxiella verrucosa, Zwackhiomyces berengerianus are reported for the first time for Ukraine. Descriptions, localities, ecology and distribution of the recorded species are provided.
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4

Ravera, Sonia, Marta Puglisi, Alfredo Vizzini, Cecilia Totti, Michele Aleffi, Giuseppina Barberis, Renato Benesperi, et al. "Notulae to the Italian flora of algae, bryophytes, fungi and lichens: 7." Italian Botanist 7 (April 22, 2019): 69–91. http://dx.doi.org/10.3897/italianbotanist.7.34285.

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In this contribution, new data concerning algae, bryophytes, fungi, and lichens of the Italian flora are presented. It includes new records and confirmations for the algae genusChara, the bryophyte generaCephalozia,Conardia,Conocephalum,Didymodon,Sphagnum,Tetraplodon, andTortula, the fungal generaEndophyllum,Gymnosporangium,Microbotryum,Phragmidium, andPluteus, and the lichen generaCandelariella,Cladonia,Flavoplaca,Lichenothelia,Peltigera,Placolecis,Rinodina,Scytinium, andSolenopsora.
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5

Kapets, Nadiia. "An Annotated List of the Lichens and Lichenicolous Fungi of the Teteriv River Basin (Ukraine)." Journal of Vasyl Stefanyk Precarpathian National University 7, no. 4 (December 30, 2020): 76–85. http://dx.doi.org/10.15330/jpnu.7.4.76-85.

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First data on lichens of the Teteriv River Basin appeared in the second part of 19th century. First records of lichenicolous fungi in this area were published at the end of the 20th century. An annotated list of lichens and lichenophilous fungi is based on literature data and materials of own researche of lichenobiota of the upper and middle course of the Teteriv river basin. Llist of lichens and lichenicolous fungi of the area includes 300 species. The distribution of 117 species (80 lichens, 37 lichenicolous fungi) are for the first time recorded for area studied. Five species (Cercidospora macrospora, Lichenostigma epipolina, Lichenothelia tenuissima, Polysporina subfuscescens і Taeniolella beschiana) are new to Ukraine, 7 species (Anisomeridium polypori, Coenogonium pineti, Lichenoconium usneae, Monodictys epilepraria, Rinodina efflorescens, Sphaerellothecium propinquellum, Taeniolella punctata) are new for the Ukrainian Plains, while 11 species (Cornutispora lichenicola, Erythricium aurantiacum, Heterocephalacria physciacearum, Intralichen christiansenii, Laetisaria lichenicola, Lichenothelia convexa, Marchandiomyces corallinus, Psoroglaena dictyospora, Pyrenochaeta xanthoriae, Sarcogyne lapponica, Scoliciosporum gallurae, Stigmidium xanthoparmeliarum) are new for the Polissia subprovince of mixed coniferous and broad-leaved forests, and one species is new for the territory of the Ukrainian forest-steppe subprovince. In addition, new information on the distribution of a number of rare to Ukraine lichen and lichenicolous fungal species (Absconditella lignicola, Cornutispora lichenicola, Clypeococcum hypocenomycis, Lichenochora obscuroides, Lichenodiplis lecanorae, Marchandiomyces corallinus, Psoroglaena dictyospora, Sclerococcum sphaerale, Strangospora deplanata, Thelocarpon epibolum ect.) is obtained.
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6

Muggia, L., J. Kocourkova, and K. Knudsen. "Disentangling the complex of Lichenothelia species from rock communities in the desert." Mycologia 107, no. 6 (August 21, 2015): 1233–53. http://dx.doi.org/10.3852/15-021.

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7

Kocourková, Jana, and Kerry Knudsen. "Lichenological notes 2: Lichenothelia convexa, a poorly known rock-inhabiting and lichenicolous fungus." Mycotaxon 115, no. 1 (May 9, 2011): 345–51. http://dx.doi.org/10.5248/115.345.

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8

Ametrano, Claudio G., Kerry Knudsen, Jana Kocourková, Martin Grube, Laura Selbmann, and Lucia Muggia. "Phylogenetic relationships of rock-inhabiting black fungi belonging to the widespread genera Lichenothelia and Saxomyces." Mycologia 111, no. 1 (January 2, 2019): 127–60. http://dx.doi.org/10.1080/00275514.2018.1543510.

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9

Navrotskaya, I. L., S. Y. Kondratyuk, S. P. Wasser, E. Nevo, and S. D. Zelenko. "LICHENS AND LICHENICOLOUS FUNGI NEW FOR ISRAEL AND OTHER COUNTRIES." Israel Journal of Plant Sciences 44, no. 2-3 (May 13, 1996): 181–93. http://dx.doi.org/10.1080/07929978.1996.10676646.

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Thirteen lichen species (Arthopyrenia punctiformis, Bactrospora patellarioides, Caloplaca saxicola, C. ulcerosa, Lempholemma chalazanellum, Lichenothelia scopularia, Maronea constans, Micarea nitschkeana, Opegrapha rufescens, O. vulgata var. subsiderella, Physcia caesia, Schismatomma pericleum, and Thelenella modesta), one nonlichenized ascomycetes (Peridiothelia fuliguncta), and 5 species of lichenicolous fungi (Arthonia molendoi, Endococcus parietinarius, Guignardia Olivieri, Opegrapha physciaria, and Zwackhiomyces coepulonus) are recorded as new for Israel. Lichenochora wasseri S.Kondr. sp. nov. from Caloplaca species from Israel and Sweden is described. Lichenochora xanthoriae is reported for the first time from Austria for Europe as well as from Auckland Islands, New Zealand, for the Southern Hemisphere. Seven taxa mentioned (Caloplaca ulcerosa, Endococcus parietinarius, Guignardia olivieri, Micarea nitschkeana, Opegrapha physciaria, Peridiothelia fuliguncta, Zwackhiomyces coepulonus) are reported here for the first time for Asia as well. Guignardia Olivieri is first reported here from some European countries (Finland, Russia, Ireland, Germany, Portugal, Italy, Ukraine), and Zwackhiomyces coepulonus from North America and Africa as well. Synonyms, references to a modern description, ecological peculiarities, locations and dates of collection in Israel, general distribution, as well as taxonomical remarks regarding the foregoing lichens and lichenicolous fungi species are given.
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10

Xu, Maonian, Yingkui Liu, Erik Möller, Scott LaGreca, Patricia Moya, Xinyu Wang, Einar Timdal, et al. "Mycobiont-specific primers facilitate the amplification of mitochondrial small subunit ribosomal DNA: a focus on the lichenized fungal genus Melanelia (Ascomycota, Parmeliaceae) in Iceland." MycoKeys 96 (March 21, 2023): 57–75. http://dx.doi.org/10.3897/mycokeys.96.100037.

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The fungal mitochondrial small subunit (mtSSU) ribosomal DNA is one of the most commonly used loci for phylogenetic analysis of lichen-forming fungi, but their primer specificity to mycobionts has not been evaluated. The current study aimed to design mycobiont-specific mtSSU primers and highlights their utility with an example from the saxicolous lichen-forming fungal genus Melanelia Essl. in Iceland. The study found a 12.5% success rate (3 out of 24 specimens with good-quality mycobiont mtSSU sequences) using universal primers (i.e. mrSSU1 and mrSSU3R), not including off-target amplification of environmental fungi, e.g. Cladophialophora carrionii and Lichenothelia convexa. New mycobiont-specific primers (mt-SSU-581-5’ and mt-SSU-1345-3’) were designed by targeting mycobiont-specific nucleotide sites in comparison with environmental fungal sequences, and assessed for mycobiont primer specificity using in silico PCR. The new mycobiont-specific mtSSU primers had a success rate of 91.7% (22 out of 24 specimens with good-quality mycobiont mtSSU sequences) on the studied Melanelia specimens. Additional testing confirmed the specificity and yielded amplicons from 79 specimens of other Parmeliaceae mycobiont lineages. This study highlights the effectiveness of designing mycobiont-specific primers for studies on lichen identification, barcoding and phylogenetics.
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