Details

Title

New Ultrastructural and Physiological Features of the Thallus in Antarctic Lichens

Journal title

Acta Biologica Cracoviensia s. Botanica

Yearbook

2012

Numer

No 1

Publication authors

Divisions of PAS

Nauki Biologiczne i Rolnicze

Publisher

Biological Commission of the Polish Academy of Sciences – Cracow Branch

Date

2012

Identifier

eISSN 1898-0295 ; ISSN 0001-5296

References

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FEMS Microbiology Letters, 244, 193, doi.org/10.1016/j.femsle.2005.01.040 ; Fahselt D. (1997), Visualization of extracellular deposits in recent and subfossil Umbilicaria hyperborea, Lichenologist, 29, 547. ; Fiechter E. (1988), Seasonal variations in the fine structure of Hypogymnia physodes (lichenized <i>Ascomycetes</i>) and its <i>Trebouxia</i> photobiont, Plant Systematics and Evolution, 158, 249, doi.org/10.1007/BF00936349 ; Friedl T. (1989), Comparative ultrastructure of pyrenoids in <i>Trebouxia</i> (<i>Microthamniales, Chlorophyta</i>), Plant Systematics and Evolution, 164, 149, doi.org/10.1007/BF00940435 ; Giełwanowska I. (2005), Anatomic features and ultrastructure of <i>Deschampsia antarctica</i> (Poaceae) leaves from different growing habitats, Annals of Botany, 96, 1109, doi.org/10.1093/aob/mci262 ; Giełwanowska I. (2005), New ultrastructural features of organelles in <i>Deschampsia antarctica</i> Desv. leaf cells, Polar Biology, 28, 12, 951, doi.org/10.1007/s00300-005-0024-2 ; Harańczyk H. (2003), Desiccation resistance of the lichen <i>Turgidosculum complicatulum</i> and its photobiont <i>Prasiola crispa</i> by proton magnetic relaxation, sorption kinetics and sorption isotherm, null, 51. ; Harańczyk H. (2008), Deep dehydration of <i>Umbillicaria aprina</i> thalli observed by proton NMR and sorption isoterm, Antarctic Science, 20, 527, doi.org/10.1017/S0954102008001363 ; Honegger R. (1986), Ultrastructural studies in lichens. II. Mycobiont and photobiont cell wall surface layers and adhering crystalline lichen products in four Parmeliaceae, New Phytologist, 103, 797, doi.org/10.1111/j.1469-8137.1986.tb00854.x ; Honegger R. (1993), Developmental biology of lichens, New Phytologist, 125, 659, doi.org/10.1111/j.1469-8137.1993.tb03916.x ; Hovengen M. (2000), Seasonal trends in nitrogen status of Antarctic lichens, Annals of Botany, 86, 717, doi.org/10.1006/anbo.2000.1248 ; Jacobs J. (2007), The ultrastructure of lichens. I. A general survey, Journal of Phycology, 5, 227, doi.org/10.1111/j.1529-8817.1969.tb02608.x ; Kappen L. (2000), Some aspects of the great success of lichens in Antarctica, Antarctic Science, 12, 314, doi.org/10.1017/S0954102000000377 ; Kappen L. (1970), The cold resistance of phycobionts from macrolichens of various habitats, Lichenologist, 4, 289, doi.org/10.1017/S0024282970000373 ; Kappen L. (1987), Photosynthesis and water relations of three maritime Antarctic lichen species, Flora, 179, 215. ; Kappen L. (1995), Carbon acquisition and water relations of lichens in polar regions - potentials and limitations, Lichenologist, 27, 531, doi.org/10.1016/S0024-2829(05)80012-X ; Murray S. (1971), Modifications of lichen substances and morphology induced by mechanical shock in Cladonia pacifica, Cellular and Molecular Life Sciences, 27, 11, doi.org/10.1007/BF02137709 ; Nybakken L. (2004), The lichens <i>Xanthoria elegans</i> and <i>Cetraria islandica</i> maintain a high protection against UV-B radiation in Arctic habitats, Oecologia, 140, 211. ; Olech M. (2004), Lichens of King George Island, Antarctica. ; Olech M. (2004), <i>Bryoria forsteri</i> (lichenized <i>Ascomycotina</i>), a new species from Antarctica, Acta Societatis Botanicorum Poloniae, 73, 151. ; Øvstedal D. (2001), Lichens of Antarctica and South Georgia. A Guide to their identification and ecology. ; Palmqvist K. (2000), Carbon economy in lichens, New Phytologist, 148. ; Pintado A. (1997), Exploring phenotypic plasticity in the <i>Ramalina capitata</i>: morphology, water relations and chlorophyll content in north- and sought-facing populations, Annals of Botany, 80, 345, doi.org/10.1006/anbo.1997.0453 ; Pearse A. (1962), Histochemistry. ; Peyeling K. (1985), Lichen Physiology and Cell Biology, 275, doi.org/10.1007/978-1-4613-2527-7_19 ; Reynolds E. (1973), The use of lead citrate of high pH as an electron-opaque stain in electron microscopy, Journal Cell Biology, 17, 208, doi.org/10.1083/jcb.17.1.208 ; Sanders W. (2004), The intertidal marine lichen formed by the <i>Pyrenomycete</i> fungus <i>Verrucaria traversiae (Ascomycotina)</i> and the brown alga <i>Petroderma maculiforme (Phaeophyceae)</i>: Thallus organization and symbiont interaction, American Journal of Botany, 91, 511, doi.org/10.3732/ajb.91.4.511 ; Smith R. (1995), Colonisation by lichens and the development of lichen-dominated communities in the maritime Antarctic, Lichenologist, 27, 473. ; Solhaug K. (2003), UV-induction of sun-screening pigments in lichens, New Phytologist, 158, 91, doi.org/10.1046/j.1469-8137.2003.00708.x ; Tarhanen S. (1998), Ultrastructural responses of the lichen <i>Bryoria fuscescens</i> to simulated acid rain and heavy metal deposition, Annals of Botany, 82, 735, doi.org/10.1006/anbo.1998.0734 ; Tarhanen S. (1997), Ultrastructural changes and electrolyte leakage from ozone fumigated epiphytic lichens, Annals of Botany, 80, 611, doi.org/10.1006/anbo.1997.0480 ; Valladares F. (1994), Intrathalline variability of some structural and physical parameters in the lichen genus, Lasallia. Canadian Journal of Botany, 72, 415, doi.org/10.1139/b94-056 ; Valladares F. (1995), Medullary structure of the Umbilicariaceae, Lichenologist, 27, 189, doi.org/10.1017/S0024282995000211 ; Valladares F. (1996), Functional analysis of the intrathalline and intracellular chlorophyll concentrations in the lichen family Umbilicariaceae, Annals of Botany, 78, 471, doi.org/10.1006/anbo.1996.0144 ; Valladares F. (1997), Water storage in the lichen family Umbilicariaceae, Botanica Acta, 111, 99, doi.org/10.1111/j.1438-8677.1998.tb00684.x

DOI

10.2478/v10182-012-0004-0

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