Page 3514 of 3691 Results 35131 - 35140 of 36907
Id/Author/Year/TitleOrder by:  Year  Id  Author  Title
34227
Ходосовцев О.Є., Ширяєва Д.В., Безсмертна О.О., Вашеняк Ю.А., Кучер О.О., Чусова О.О. & Куземко А.А. [Khodosovtsev A.Ye., Shyriaieva D.V., Bezsmertna O.O., Chusova O.O., Kucher О.О., Vasheniak Iu.A. & Kuzemko A.A.] (2022): Лишайники роду Cladonia P. Browne в трав’яних біотопах України [Lichens of the genus Cladonia P. Browne in grassland habitats of Ukraine] - Чорноморський ботанічний журнал [Chornomorski Botanical Journal], 17(4) [2021]: 348–384

[in Ukrainian with English abstract: ] It has been analyzed the distribution of Cladonia P. Browne in the grassland habitats of Ukraine. A total of 39 lichens were identified in grasslands, of which C. asahinae, С. acuminata, C. decorticata and C. conista were new to Ukraine, C. carneola, С. сervicornis, C. floerkeana, та C. polydactyla, С. portentosa та С. scabriuscula – for Mykolaiv region, C. cervicornis – for Donetsk and Kherson region, C. deformis and C. floerkeana – for Rivne … URL EndNote Read more... 

34228
Громакова А.Б. & Дармостук В.В. [Gromakova A.B. & Darmostuk V.V.] (2022): Лишайники та ліхенофільні гриби міста Берегове (Закарпатська область) [Lichens and lichenicolous fungi of Beregove town (Zakarpattia region)] - Чорноморський ботанічний журнал [Chornomorski Botanical Journal], 17(4) [2021]: 385–394

[in Ukrainian with English abstract: ] The article presents data on the study of lichen biota in the city of Beregovo (Zakarpattia region). Totaly, 84 species of lichens and 13 species of lichenicolous fungi were identified. Among them Bryostigma phaeophysciae, Epiphloea byssina, Heterocephalacria physciacearum, Laetisaria lichenicola, Lichenochora obscuroides, Stigmidium fuscatae, Xanthomendoza huculica are reported for the first time to the Zakarpattia region. Calogaya decipiens, Candelariella … URL EndNote Read more... 

34231
Sequeira S., Christy A., Anilkumar A. & Arsha S.M. (2022): Parmotrema sahyadrica (Parmeliaceae): A new species of parmelioid lichen from Wayanad, Southern Western Ghats, India - Phytotaxa, 539(3): 287–292

A new species of Parmotrema with characteristic yellow medulla is described as new to science. The new species P. sahyadrica has a densely isidiate thallus with 6-10 mm wide lobes and contains entothein and atranorin as major compounds. The material was collected from Wayanad district of Kerala state at an elevation of 750 m. Keywords: Parmelioid, Parmotrema, Kerala, Wayanad, Yellow medulla, Fungi. URL EndNote Read more... 

34232
Chmura D., Żarnowiec J. & Staniaszek-Kik M. (2022): Altitude is a better predictor of the habitat requirements of epixylic bryophytes and lichens than the presence of coarse woody debris in mountain forests: a study in Poland - Annals of Forest Science, 79: 7 [15 p.]

Key message: In order to preserve the continuity of epiphytic and epixylic cryptogamic flora, two things are essential: maintaining the near-natural character of a forest community in relation to the montane zonation and more sustainable forest management in relation to deadwood. Context: Lichens and bryophytes are common species that inhabit dead wood. The relationship between their habitat requirements, which can be expressed by their Ellenberg indicator values and the characteristics of dead logs, … URL EndNote Read more... 

34234
Allen J.L. & Scheidegger C. (2022): Co-occurring Lobaria pulmonaria and Ricasolia quercizans share green algal photobionts: Consequences for conservation - Bryologist, 125(2): 219–221

URL EndNote Read more... 

34235
Ravera S., Vizzini A., Puglisi M., Assini S., Benesperi R., Bianchi E., Boccardo F., Bottegoni F., von Brackel W., Clericuzio M., Darmostuk V., De Giuseppe A.B., Di Nuzzo L., Dovana F., Galli R., Gheza G., Giordani P., Guttová A., Isocrono D., Malíček J., Martellos S., Mayrhofer H., Nascimbene J., Nimis P.L., Paoli L., Passalacqua N.G., Prosser F., Puntillo D., Seggi L., Sicoli G., Timdal E., Trabucco R. & Vallese C. (2022): Notulae to the Italian flora of algae, bryophytes, fungi and lichens: 13 - Italian Botanist, 13: 1–17

In this contribution, new data concerning bryophytes, fungi and lichens of the Italian flora are presented. It includes new records and confirmations for the bryophyte genera Bryum, Cryphaea, Didymodon, and Grimmia; the fungal genera Bryostigma, Cercidospora, Conocybe, Cortinarius, Endococcus, Inocybe, Psathyrella, and Sphaerellothecium; the lichen genera Agonimia, Anisomeridium, Bilimbia, Diplotomma, Gyalecta, Huneckia, Lecidella, Lempholemma, Myriolecis, Nephroma, Pannaria, Pycnothelia, Pyrrhospora, … URL EndNote Read more... 

34237
Morillas L., Roales J., Cruz C. & Munzi S. (2022): Non-toxic increases in nitrogen availability can improve the ability of the soil lichen Cladonia rangiferina to cope with environmental changes - Journal of Fungi, 8: 333 [13 p.]

Climate change and atmospheric nitrogen (N) deposition on drylands are greatly threatening these especially vulnerable areas. Soil biocrust-forming lichens in drylands can provide early indicators of these disturbances and play a pivotal role, as they contribute to key ecosystem services. In this study, we explored the effects of different long-term water availability regimes simulating climate changes and their interaction with N addition on the physiological response of the soil lichen Cladonia … URL EndNote Read more... 

34238
Majchrzak-Celińska A., Kleszcz R., Studzińska-Sroka E., Łukaszyk A., Szoszkiewicz A., Stelcer E., Jopek K., Rucinski M., Cielecka-Piontek J. & Krajka-Kuźniak V. (2022): Lichen secondary metabolites inhibit the Wnt/β-catenin pathway in glioblastoma cells and improve the anticancer effects of temozolomide - Cells, 11: 1084 [13 p.]

Lichens are a source of secondary metabolites with significant pharmacological potential. Data regarding their possible application in glioblastoma (GBM) treatment are, however, scarce. The study aimed at analyzing the mechanism of action of six lichen secondary metabolites: atranorin, caperatic acid, physodic acid, squamatic acid, salazinic acid, and lecanoric acid using two- and three-dimensional GBM cell line models. The parallel artificial membrane permeation assay was used to predict the … URL EndNote Read more... 

34239
Popovici V., Bucur L., Gîrd C.E., Rambu D., Calcan S.I., Cucolea E.I., Costache T., Ungureanu-Iuga M., Oroian M., Mironeasa S., Schröder V., Ozon E.-A., Lupuliasa D., Caraiane A. & Badea V. (2022): Antioxidant, cytotoxic, and rheological properties of canola oil extract of Usnea barbata (L.) Weber ex F.H. Wigg from Călimani Mountains, Romania - Plants, 11(7): 854 [33 p.]

Usnea genus (Parmeliaceae, lichenized Ascomycetes) is a potent phytomedicine, due to phenolic secondary metabolites, with various pharmacological effects. Therefore, our study aimed to explore the antioxidant, cytotoxic, and rheological properties of Usnea barbata (L.) Weber ex F.H. Wigg (U. barbata) extract in canola oil (UBO) compared to cold-pressed canola seed oil (CNO), as a green solvent used for lichen extraction, which has phytoconstituents. The antiradical activity (AA) of UBO and CNO was … URL EndNote Read more... 

34250
Kantvilas G. (2022): The trouble with Neophyllis pachyphylla (lichenised Ascomycetes) - Swainsona, 36: 1–7

The genus Neophyllis F.Wilson in Australia is considered to comprise two morphologically and chemically distinct species, N. pachyphylla (Müll.Arg.) Gotth.Schneid. and N. melacarpa (F.Wilson) F.Wilson. The confusion surrounding the application of the former name is clarified and revised descriptions of both are presented. Keywords: Australia, grayanic acid, lichens, melacarpic acid, New Zealand, Tasmania. EndNote Read more... 

Page 3514 of 3691 Results 35131 - 35140 of 36907