JJH Katalog - Lichenological literature

254

Равинская А.П. & Вайнштейн Е.А. [Ravinskaja A.P. & Vainschtein E.A.] (1975): Хемотаксоиомическое значение изменений содержания лишайниковых кислот. De mutabilitate contenti acidorum lichenicorum et valore eius chemotaxonomico - Новости систематики низших растений / Novitates systematicae plantarum non vascularium, 12: 266-273

29993

Дарієнко Т.М. & Войцехович A.О. [Darienko T.M. & Voytsekhovich A.O.] (2005): Фотобіонти деяких лишайників з відслонень гранітно-степового Побужжя [To the study of lichen photobionts of outcrops granite-steppe Pobuzhia] - Український Ботанічний Журнал [Ukrainian Botanical Journal], 62(2): 190–202

[In Ukrainian with English abstract:] Photobionts of 9 widespead lichens upon the granite outcrops are investigeted. The investigations were carried out using direct microscoping and cultural methods of investigation. The exact data concerning photobionts were firrstly brought for 8 species of lichens. It is established that lichens such as Aspicilia contorta var. hoffmanniana, Candelariella vitellina, Xanthoparmelia somloensis, Ramalina polymorpha, Umbilicaria grisea contain just the same specie … Read more...

25193

Войцехович А.А., Михайлюк Т.И. & Дариенко Т.М. [Voytsekhovich A.A., Mikhailyuk T.I. & Darienko T.M.] (2011): Фотобионты лишайников. 2: Происхождение и корреляция с микобионтом [Lichen photobionts. 2: Origin and correlation with mycobiont] - Альгология [Algologia], 21(2): 151–177

Composition of lichen photobionts closely correlates with some taxonomic groups of lichen-forming fungi. More than 55 % of these fungi are associated with Trebouxia Puym. and Asterochloris Tscherm.-Woess, around 40 % with Cyanoprokaryota, about 8 % with Trentepohliales, and 20 % with other green algae. However, not all lichen associations are stable in long terms and therefore several photobiont species can be present in the same lichen thallus. Some lichens constantly include several photobiont … Read more...

25194

Войцехович А.А., Михайлюк Т.И. & Дариенко Т.М. [Voytsekhovich A.A., Mikhailyuk T.I. & Darienko T.M.] (2011): Фотобионты лишайников. 1: разнообразие, экологические особенности, взаимоотношения и пути совместной эволюции с микобионтом [Lichen photobionts. 1: biodiversity, ecophysiology and co-evolution with the mycobiont] - Альгология [Algologia], 21(1): 3–26

According to published data, 147 algal species can be lichenized with asco- and basidiomycetes. Most of these algal species belonged to the Chlorophyta (108 species) and Cyanoprokaryota (36). Two different lichenization types can be distinguished (facultative and obligate). Most photobionts are facultative and can therefore also occur free-living in terrestrial habitats. In contrast, some species of the genera Trebouxia Puym., Asterochloris Tscherm.- Woess, Coccomyxa Schmidle, and Pseudococcomyxa … Read more...

24456

Бязров Л.Г. [Biazrov L.G.] (2013): Формулы ареалов лихенизированных грибов семейства Umbilicariaceae из Монголии на основе общемировой карты экорегионов суши. Range formulas of lichenized fungi of the family Umbilicariaceae from Mongolia on the base of the world terrestrial ecoregions map - Новости систематики низших растений / Novitates systematicae plantarum non vascularium, 47: 179–199

Detailed laconic description of lichens ranges is represented as a formula. The formula is based on the biogeographical subdivision of the world. The formula includes symbols of the biogeographical realms and biomes on the map of the terrestrial ecoregions of the world, where the presence of a species was recorded. The formulas of ranges are given for 34 Umbilicariaceae species recorded in Mongolia. Keywords: lichens, Lasallia, Umbilicaria, ecoregions map, range formula, biogeography, Mongolia. Read more...

29489

Нипорко С.О., Барсуков О.О. & Капець Н.В. [Nyporko S.O., Barsukov O.O. & Kapets N.V.] (2018): Флористичні знахідки мохоподібних, лишайників та ліхенофільних грибів з Національного природного парку "Гуцульщина" [Floristic records of mosses, lichens and lichenicolous fungi from Hutsulschyna National Nature Park] - Український Ботанічний Журнал [Ukrainian Botanical Journal], 75(2): 179–186

[in Ukrainian with English abstract: ] Results of the research conducted during 2016–2017 in Hutsulshchyna National Nature Park are reported. Main goals of our study were to obtain new information on distribution of liverworts, mosses, lichens and allied fungi of the study area and to find new localities of rare species. The data on 25 new for Hutsulschyna National Nature Park species are provided: lichen Arctoparmelia incurva, lichenicolous fungi Marchandiomyces corallinus, Phaeopyxis punctum, … Read more...

17203

Корчиков E.C. [Korchikov E.S.] (2010): Флористическое биоразнообразие особо ценного Красносамарского лесного массива Самарской области: II. Лишайники - Самарская Лука: проблемы региональной и глобальной экологии, 19(2): 122-150

Russia Read more...

15754

Андреев М.П. [Andreev M.P.] (1988): Флора лишайников острова Кинг-Джордж (Антарктика). De lichenoflora insulae King-George (Antarctis) notula - Новости систематики низших растений / Novitates systematicae plantarum non vascularium, 25: 118-124

21986

Кондратюк С.Я., Джеонг М.-Х., Чарнефельт І., Іліх Дж.А., Хо Д.-С. & Тель А. [Kondratyuk S.Y., Jeong M.-H. , Kärnefelt I., Elix J.A., Hur J.-S. & Thell A.] (2012): Філогенія і таксономія родини Teloschistaceae (Ascomycota): Важливість монофілетичних груп [Phylogeny and taxonomy of the Teloschistaceae (Ascomycota): Importance of monophyletic groups] - Modern Phytomorphology, 1: 53-57

The molecular phylogeny of the Parmeliaceae, Physciaceae, Caliciaceae and many other families of lichen-forming fungi is now based on polyphasic approach using up to six or seven different genes of nuclear and mitochondrial DNA. As a consequence the taxonomy of the Parmeliaceae and other families can now be based on segregation of robust monophyletic groups of species. The majority of phylogenetic analyses of small species groups of the Teloschistaceae (especially of Caloplaca) are based on ITS1/ITS2 sequences … Read more...

23663

Ковалева Н.М. [Kovaleva N.] (2007): Фитомасса эпифитных лишайников в лиственничнике мелкотравно-зеленомошном [THE EPIPHYTE BIOMASS OF LICHENS ON LARCH STAND] - Проблемы ботаники Южной Сибири и Монголии: Сборник научных статей по материалам VI Mеждународной научно-практической конференции (2007 г., Барнаул) / Problems of Botany of South Siberia and Mongolia: Proceedings of the 6th Internationation Scientific, p. 292-294, Барнаул: АзБука [Barnaul: Azbuka]

In Russian with English summary as follows: Epiphyte biomass of lichens was estimated for 25 individual trees (Abies sibirica Ledeb., Larix sibirica Ledeb., Picea obovata Ledeb., Pinus sylvestris L., Betula pendula Roth.) in Larch stand. The main part of biomass of lichens on conifer trees (Pinus, Abies, Larix) is formed by fruticose lichens (70 %), but on deciduous tree (Betula) is done by foliose these (60 %). From 62 % (Betula) up to 94 % (Picea) of epiphyte biomass is located on branches. … Read more...