JJH Katalog - Lichenological literature

12984

Berger F. & Türk R. (1993): Neue und seltene Flechten und lichenicole Pilze aus Oberösterreich, Österreich - Linzer Biologische Beitrage, 25(1): 167-204

New to Central Europe: Arthopyrenia subcerasi, Bacidia carneoglauca, Halecania viridescens. New to Austria: Arthonia hypnophila, B. viridescens, Caloplaca lucifuga, Dactylospora pertusaricola, Lecanora rupicola var. efflorens, Libertiella malmedyensis, Polycoccum peltigerae, Scoliciosporum schadeanum, Taeniolella beschiana Read more...

32628

Huh J., Park C., Kim T., Hahn I., Kim G.W., Lee E. & Kim J.H. (2020): Measurements of the specific activities of 137Cs in Antarctica environmental samples by using the low-level radiation analysis method - Journal of the Korean Physical Society, 77(3): 217–222

Since the King Sejong Korean Antarctic Research Station began operation in 1988, studies of various fields have been then carried out in polar regions and significant achievements have been yielded. However, environmental and biological radiations have not been dealt with compared to other research areas. In this study, the 137Cs distribution is investigated for environmental elements in the vicinity of the two research stations, the Jang Bogo Station and the King Sejong Station, operated by the … Read more...

31702

Søchting U. & Arup U. (2018): Marchantiana asserigena comb. nov., a possible European immigrant from Australia - Graphis Scripta, 30(6): 115–120

Caloplaca asserigena is known to have a secondary compound different from other species of Teloschistaceae in the Northern Hemisphere. Studies of the secondary chemistry of the Australian Teloschistaceae have revealed the same compound to be present in Marchantiana michelagoensis and Caloplaca marchantiorum. Subsequent molecular studies based on three genes support the affinity of C. asserigena and M. michelagoensis. Accordingly, the species is tentatively included in the genus Marchantiana. Marchantiana … Read more...

21901

Clerc P., Camenzind R., Dietrich M., Groner U., Grundlehner S., Oberli F., Scheidegger C. & Wildi E. (1992): Lobaria amplissima (Scop.) Forss. dans les Prealpes Vaudoises - Meylania, 1: 16-20

Switzerland Read more...

2619

Szatala O. (1930): Lichenum cacuminum Tatraensium I - Folia Crypt., 7: 929-932

H02 Read more...

6410

Magnusson A. H. (1932): Lichens from western North America mainly Washington and Alaska - Ann. Crypt. Exot., 5: 16-38

33316

Ohmura Y. (2016): Lichenes Minus Cogniti Exsiccati, Fasc. XXII (Nos. 526–550) - National Museum of Nature and Science, Tokyo, 4 p

exsiccat; Japan, Taiwan, Norway, Spitzbergen/Svalbard, Antarctica, Peru Read more...

26497

Sato M. M. (1958): Lichenes japoniae Exsiccati VI (251-300). - Lichen. Misc. , National Science Museum, Tokyo, 11 pp

Anaptychia palmulata v. isidiata, Baeomycea rufus var. carneus, Baeomyces placophyllus, Baeomyces rufus, Bombyliospora japonica, Calicium japonicum, Cetraria cucullata, Cetraria rugosa, Cladonia Krempelhuberi v. subevoluta, Cladonia Krempelhuberi v. subevoluta, Cladonia Krempelhuberi v. sublepidota, Cladonia amaurocraea, Cladonia cornuta f. subdilatata, Cladonia crispata v. infundibulifera f. divulsa, Cladonia deformis f. cyathiformis, Cladonia degenerans f. phyllophora, Cladonia gracilis v. dilatata … Read more...

35141

De Carolis R., Muggia L. & Bacaro G. (2023): Lichen and lichenicolous fungal communities tested as suitable systems for the application of cross-taxon analysis - Diversity, 15: 285 [12 p.]

Lichens are outstanding examples of fungal symbioses that form long-lived structures, the lichen thalli, in which a multiplicity of other microorganisms are hosted. Among these, microfungi seem to establish diverse trophic relationships with their lichen hosts. The most specialised of these fungi are the parasitic lichenicolous fungi, of which the diversity has hardly been explained as a proxy for the diversity of lichen species. Here, we used an exemplar dataset of a well-studied alpine lichen community … Read more...

35226

Doyle E., Blanchon D., Wells S., de Lange P., Lockhart P., Waipara N., Manefield M., Wallis S. & Berry T.-A. (2023): Internal transcribed pacer and 16S amplicon sequencing identifies microbial species associated with asbestos in New Zealand - Genes, 14(3): 729 [12 p.]

Inhalation of asbestos fibres can cause lung inflammation and the later development of asbestosis, lung cancer, and mesothelioma, and the use of asbestos is banned in many countries. In most countries, large amounts of asbestos exists within building stock, buried in landfills, and in contaminated soil. Mechanical, thermal, and chemical treatment options do exist, but these are expensive, and they are not effective for contaminated soil, where only small numbers of asbestos fibres may be present … Read more...