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T. G. A. Green, T. H. Nash, III and O. L. Lange 2008: Physiological ecology of carbon dioxide exchange. - In: T. H. Nash, III: Lichen Biology. Second Edition. Cambridge University Press, Cambridge. viii+486 pages, pp. 152-181. [RLL List # 212 / Rec.# 30002]
Keywords: GENERAL/ TEXTBOOK/ REVIEW/ PHOTOSYNTHESIS/ RESPIRATION/ CARBON DIOXIDE EXCHANGE/ PHYSIOLOGICAL ECOLOGY
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Tarnawski, MG/ Green, TGA/ Büdel, B/ Meyer, A/ Zellner, H/ Lange, OL 1994: Diel changes of atmospheric CO2 concentration within, and above, cryptogam stands in a New Zealand temperate rainforest. - New Zealand Journal of Botany 32(3): 329-336. [RLL List # 157 / Rec.# 18265]
Keywords: CO2 CONCENTRATION/ ECOLOGY/ PHOTOSYNTHESIS/ PHYLLOPLANE/ RAIN FORESTS/ RESPIRATION
Abstract: 4 fig. 2 tab. ["In this temperate rainforest community, the environment within the mosses and lichens is significantly richer in CO2 than the atmosphere both within and outside the forest. Moss phylloplane CO2 levels averaged 50%, and lichen thalli CO2 levels 10% higher, than in the air outside the forest."]
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U. Ruprecht, H. T. Lumbsch, G. Brunauer, T. G. A. Green and R. Türk 2010: Diversity of Lecidea (Lecideaceae, Ascomycota) species revealed by molecular data and morphological characters. - Antarctic Science 22(6): 727-741. [RLL List # 222 / Rec.# 32761]
Keywords: CHEMICAL RACES/ LICHENS/ PHYLOGENETIC ANALYSIS/ SECONDARY METABOLITES
Abstract: [Nuclear ITS and mitochondrial SSU rDNA sequences were used to test species boundaries within the genus Lecidea.]
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Wirtz, N/ Lumbsch, HT/ Green, TGA/ Türk, R/ Pintado, A/ Sancho, L/ Schroeter, B 2003: Lichen fungi have low cyanobiont selectivity in maritime Antarctica. - New Phytologist 160: 177-183. [RLL List # 192 / Rec.# 24868]
Keywords: ANTARCTICA/ CYANOBACTERIA/ MARITIME ANTARCTIC/ NOSTOC/ PHOTOBIONT SPECIFICITY/ SYMBIONTS/ TRNA
Abstract: 3 fig. [Study of free-living cyanobacteria and cyanobacteria from five different lichen species, Massalongia carnosa, Leptogium puberulum, Psoroma cinnamomeum, Placopsis parellina, P. contortuplicata, using the tRNALeu (UAA) introns as a genetic marker of cyanobacteria strains. "Contrary to studies of different lichen species in temperate regions, the Antarctic lichen species here did not use species-specific cyanobionts; this could be because of a selection pressure in this extreme environment. Limiting factors under these ecological conditions favor more versatile mycobionts."]
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Womack, A.M./ Artaxo, P.E./ Ishida, F.Y./ Mueller, R.C./ Saleska, S.R./ Wiedemann, K.T./ Bohannan, B.J.M./ Green, J.L. 2015: Characterization of active and total fungal communities in the atmosphere over the Amazon rainforest. - Biogeosciences 12(21): 6337-6349. [RLL List # 241 / Rec.# 37019]
Abstract: Fungi are ubiquitous in the atmosphere and may play an important role in atmospheric processes. We investigated the composition and diversity of fungal communities over the Amazon rainforest canopy and compared these communities to fungal communities found in terrestrial environments. We characterized the total fungal community and the metabolically active portion of the community using high-throughput DNA and RNA sequencing and compared these data to predictions generated by a mass-balance model. We found that the total community was primarily comprised of fungi from the phylum Basidiomycota. In contrast, the active community was primarily composed of members of the phylum Ascomycota and included a high relative abundance of lichen fungi, which were not detected in the total community. The relative abundance of Basidiomycota and Ascomycota in the total and active communities was consistent with our model predictions, suggesting that this result was driven by the relative size and number of spores produced by these groups. When compared to other environments, fungal communities in the atmosphere were most similar to communities found in tropical soils and leaf surfaces. Our results demonstrate that there are significant differences in the composition of the total and active fungal communities in the atmosphere, and that lichen fungi, which have been shown to be efficient ice nucleators, may be abundant members of active atmospheric fungal communities over the forest canopy.
Notes: "The active community...included a high relative abundance of lichen fungi, which were not detected in the total community. Our results demonstrate that there are significant differences in the composition of the total and active fungal communities in the atmosphere, and that lichen fungi, which have been shown to be efficient ice nucleators, may be abundant members of active atmospheric fungal communities over the forest canopy."
URL: http://www.biogeosciences.net/12/6337/2015/bg-12-6337-2015.html
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Yarrington, GA/ Green, WGE 1966: The distribution pattern of crustose lichens on limestone cliffs at Rattlesnake Point, Ontario. - The Bryologist 69: 450-461. [RLL List # 61 / Rec.# 20589]
Keywords: ONTARIO/ CANADA/ LIMESTONE/ ECOLOGY/ CRUSTOSE/ SAXICOLOUS
Abstract: 5 fig. [Data on 5 species.]
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Current date: 2024.04.26.OK