Page 3599 of 3810 Results 35981 - 35990 of 38097
Id/Author/Year/TitleOrder by:  Year  Id  Author  Title
20332
Wolseley P.A., Aguirre-Hudson B. & McCarthy P.M. (2002): Catalogue of the lichens of Thailand, Bulletin of the Natural History Museum, London [Botany], 32(1): 13-59

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8568
Wolseley P.A., James P., Leith I.D., van Dijk N. & Sutton M.A. (2005): Lichen diversity: intensive sites, In: Leith I.D., van Dijk N., Pitcairn C.E.R., Wolseley P.A., Whitfield C.P. & Sutton M.A. (eds.), Biomonitoring methods for assessing the impacts of nitrogen pollution: refinement and testing, p. 10

Wolseley P.A., James P., Leith I.D., van Dijk N. & Sutton M.A. (2005): Lichen diversity: intensive sites. - In: Leith I.D., van Dijk N., Pitcairn C.E.R., Wolseley P.A., Whitfield C.P. & Sutton M.A. (eds.), Biomonitoring methods for assessing the impacts of nitrogen pollution: refinement and testing, p. 108-126, JNCC Report 386, ISSN 0963 8901. URL EN Read more... 

8567
Wolseley P.A., Leith I.D., van Dijk N. & Sutton M.A. (2005): UK Extensive Study: lichen diversity, In: Leith I.D., van Dijk N., Pitcairn C.E.R., Wolseley P.A., Whitfield C.P. & Sutton M.A. (eds.), Biomonitoring methods for assessing the impacts of nitrogen pollution: refinement and testing, p. 16

Wolseley P.A., Leith I.D., van Dijk N. & Sutton M.A. (2005): UK Extensive Study: lichen diversity. - In: Leith I.D., van Dijk N., Pitcairn C.E.R., Wolseley P.A., Whitfield C.P. & Sutton M.A. (eds.), Biomonitoring methods for assessing the impacts of nitrogen pollution: refinement and testing, p. 165-182, JNCC Report 386, ISSN 0963 8901. URL EN Read more... 

33756
Wolski G.J., Piwowarczyk R., Plášek V., Kukwa M. & Ruraż K. (2021): Tea plantations and their importance as host plants and hot spots for epiphytic cryptogams, Scientifc Reports, 11: 18242 [14 p.]

Bryophytes and lichens are outstanding bioindicators, not only of the plant community in which they develop, but also the substrates on which they grow. Some epiphytic cryptogams, particularly the rare ones, are stenotopic and require a long habitat continuity, for example substrates such as old trees. It could also be a tea plantation, this is because the shrubs are not felled, and most of them may have several dozen years. In addition, the shrubs are not subject to sudden changes in microclimatic … URL EN Read more... 

12040
Wolterbeek H.T., Jeran Z., Verburg T., de Goeij J.J.M. & van Dam J. (2004): Chernobyl 137Cs in lichens: use of specific activity showing differences in transport routes of Cs and 137Cs, Journal of Radioanalytical and Nuclear Chemistry, 259(1): 13-18

Lichens, sampled around Chernobyl in 1990 and in Slovenia in 1992, were analyzed for radionuclides and elements, including Cs. Data were processed by Monte Carlo aided Target Transformation Factor (MCTTFA). The resulting factors indicate environmental accumulation routes. 40K : K and 210Pb : Pb ratios tested the procedure, showing fully mixed 40K and K, while for 210Pb and Pb the expected variability in specific radioactivity was confirmed. 137Cs showed a large factor-specific variability in 137Cs … EN Read more... 

36932
Wong E.L.Y., Valim H.F. & Schmitt I. (2024): Genome-wide differentiation corresponds to climatic niches in two species of lichen-forming fungi, Environmental Microbiology, 26(10): e16703 [16 p.]

Lichens can withstand fluctuating environmental conditions such as hydration-desiccation cycles. Many species distribute across climate zones, suggesting population-level adaptations to conditions such as freezing and drought. Here, we aim to understand how climate affects population genomic patterns in lichenized fungi. We analysed population structure along elevational gradients in closely related Umbilicaria phaea (North American; two gradients) and Umbilicaria pustulata (European; three gradients). … URL EN Read more... 

17897
Wong F.K.Y. , Lau M.C.Y., Lacap D.C., Aitchison J.C., Cowan D.A. & Pointing S.B. (2010): Endolithic microbial colonization of limestone in a high-altitude arid environment, Microbial Ecology, 59: 689-699

The morphology of endolithic colonization in a limestone escarpment and surrounding rocky debris (termed float) at a high-altitude arid site in central Tibet was documented using scanning electron microscopy. Putative lichenized structures and extensive coccoid bacterial colonization were observed. Absolute and relative abundance of rRNA gene signatures using real-time quantitative polymerase chain reaction and phylogenetic analysis of environmental phylotypes were used to characterize community … EN Read more... 

4286
Wong P. Y., Brodo I. M. (1990): Significant records from lichen flora of southern Ontario, Canada, Bryologist, 93(3): 357-367

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13729
Wong P.Y. (1993): Type specimens of lichens and lichenicolous fungi in the Canadian Museum of Nature (CANL), Mycotaxon, 47: 295-357

Provides the name, literature citation, type category, collection locality and date, collector and number, and CANL accession number for 737 type specimens of lichens and lichenicolous fungi EN Read more... 

16047
Wong P.Y. & Brodo I.M. (1973): Rock-inhabiting lichens of the Frontenac Axis, Ontario, Canad. Field-Nat., 1973: 255-259

One hundred and one saxicolous lichen taxa in 39 genera and 22 families are reported from a hard rock area of the Frontenac Axis of eastern Ontario. Substrate and habitat type of all species are recorded. Twenty-nine species and one form are reported as new for Ontario. EN Read more... 

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