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References

  • Ahmadjian, V. & Jacobs, B. J. (1985). Artificial re-establishment of lichens. IV. Comparison between natural and synthetic thalli of Usnea strigosa. Lichenalogist, 17, 149166.
  • Archer, A. W. (1981). Qualitative distribution of lichen products in Australian scyphose Cladonia species. Lichenologist, 13, 259263.
  • Beever, R. E. & Dempsey, G. P. (1978). Function of rodlets on the surface of fungal spores. Nature, 272, 608610.
  • Beever, R. E., Redgwell, R. J. & Dempsey, G. P. (1979). Purification and chemical characterization of the rodlet layer of Neurospora crassa conidia. Journal of Bacteriology, 140, 10631070.
  • Brunner, U. (1985). Ultrastructurelle und chemische Zelhoanduntermchungen an Flechtenphycobionten aus 7 Gattungen der Chlorophyceae (Chlorophytina) unter besonderer Berücksichtigung spornpollenin-ähnlicher Biopolymere. Dissertation Universität Zürich. Juris.
  • Brunner, U. & Honegger, R. (1986). Chemical and ultrastructural studies on the distribution of sporopollenin-like biopolymers in 6 genera of lichen phycobionts. Canadian Journal of Botany, 63, 22212230.
  • Cole, G. T. & Pope, L. M. (1981). Surface wall components of Aspergillus niger conidia. In: The Fungal Spore. Morphogenetic Controls. (Ed. by G.Turian & H. R.Hohl), pp. 195215. Academic Press, London .
  • Culberson, C. F. (1969). Chemical and Botanical Guide to Lichen Products. University of North Carolina Press, Chapel Hill .
  • Culberson, C. F. & Ammann, K. (1979). Standardmethode zur Dünnschichtchromatographie von Flechtensubstanzen. Herzogia, 5, 14.
  • Ehlin, P. (1978). Low temperature scanning electron microscopy: a review. Journal of Microscopy, 112, 4761.
  • Fahselt, D. (1981). Lichen products of Cladonia stellaris and C. rangiferina maintained under artificial conditions. Lichenologist, 13, 8791.
  • Feige, B. R. (1978). Probleme der Flechtenphysiologie. Nova Hedwigia, 30, 725774.
  • Ferrari, T. E., Best, V., More, T. A., Comstock, P., Muhammad, A. & Wallace, H. (1985). Intercellular adhesions in the pollen-stigma system: pollen capture, grain binding and tube attachments. American Journal of Botany, 72, 14661474.
  • Gahan, P. B. (1984). Plant Histochemistry and Cytochemistry. Academic Press, London .
  • Goebel, K. von (1926a). Die Wasseraufnahme der Flechten. Berichte der deutschen botanischen Gescllschaft, 44, 158161.
  • Goebel, K. von (1926b). Morphologische und biologische Studien. Ein Beitrag zur Biologie der Flechten. Annales du jar din botanique de Buitenzorg, 36, 183.
  • Hale, M. E. (1983). The Biology of Lichens, 3rd Edn. Edward Arnold, London .
  • Hamada, N. (1982). The distribution pattern of the medullary depsidone salazinie acid in the thallus of Ramalina siliquosa (lichens). Canadian Journal of Botany, 60, 379382.
  • Hashimoto, T., Wu-Yuan C. D. & Blumenthal, H. J. (1976). Isolation and characterization of the rodlet layer of Trichophyton mentagrophytes microconidial wall. Journal of Bacteriology, 127, 15431549.
  • Hawksworth, D L. & Hill, D. J. (1984). The Lichen-forming fungi. Blackie, Glasgow .
  • Hawksworth, D. L., James, P. W. & Coppins, B. J. (1980). Checklist of the British lichen-forming, lichenicolous and allied fungi. Lichenologist, 12, 1115.
  • Henssen, A. & Jahns, H. M. (1974). Lichenes. Eine Einführung in die Flechtenhunde. Thieme, Stuttgart .
  • Honegger, R. (1982). Ascus structure and function, ascospore delimitation, and phycobiont cell wall types associated with the Lecanorales (lichenized ascomycetes). Journal of the Hattori Botanical Laboratory, 52, 417429.
  • Honegger, R. (1984). Cytological aspects of the mycobiont-phycobiont relationship in lichens. Haustorial types, phycobiont cell wall types, and the ultrastructure of the cell surface layers in some cultured and symbiotic mycoand phycobionts. Lichenologist, 16, 111127.
  • Honegger, R. (1985). Fine structure of different types of symbiotic relationships in lichens. In: Lichen Physiology and Cell Biology (Ed. by D. H.Brown), pp. 287302. Plenum Press, London .
  • Honegger, R. (1986). Ultrastructural studies in lichens. I. Haustorial types and their frequencies in a range of lichens with trebouxioid photobionts. New Phytologist, 103, 785795.
  • Käppeli, O., Walther, P., Müller, M. & Fiechter, A. (1984). Structure of the cell surface of the yeast Candida tropicalis and its relation to hydrocarbon transport. Archives of Microbiology, 138, 279282.
  • Kinraide, W. T. B. & Ahmadjian, V. (1970). The effects of usnic acid on the physiology of two cultured pecies of the lichen alga Trebouxia Puym. Lichenologist, 4, 234247.
  • Kurokawa, T. & Yoshimura, I. (1984). A preliminary report on the distribution of lichen substances in the thallus of Cladia aggregata and Usnea diffracta. Bulletin of Kochi Gakuen Junior College, 15, 169177.
  • Lecaz, M. E. (1985). The regulation of urea biosynthesis. In: Surface Physiology of Lichens (Ed. by C.Vicente, D. H.Brown & M. E.Legaz), pp. 5773. Editorial de la Universidad Complutense de Madrid.
  • Legaz, M. E. & Vincente, C. (1981). Location of several enzymes of L-arginine catabolism in Evernia prunastri thallus. Zeitschrift für Naturforschung, 36c, 692693.
  • Legaz, M. E. & Vicente, C. (1982). Two forms of arginase in Evernia prunastri thallus. Cryptogamie Bryologie et Lichenologie, 104, 14411446.
  • Legaz, M. E. & Brown, H. (1983). Factors affecting urease activity in the lichen Evernia prunastri. Annals of Botany, 52 261264.
  • Legaz, M. E., Gonzales De Buitrago, G. & Vicente, C. (1982). Exogenous supply of L-arginine modifies free amino acids content in Evernia prunastri thallus. Phyton, 42, 213218.
  • Mirando, M. & Fahselt, D. (1978). The effect of thallus age and drying procedure on extractable lichen substances. Canadian Journal of Botany, 56, 14991504.
  • Miyachi, S. & Miyachi, S. (1985). Ammonia induces starch degradation in Chlorella cells. Plant Cell Physiology, 26, 245252.
  • Müller, M. & Moor, H. (1984). Cryofixation of thick specimens by high pressure freezing. In: Science of Biological Specimen Preparation (Ed. by J. P.Revel, T.Barnard & G. H.Haggis), pp. 131138. SEM Inc., AMF O'Hare, U.S.A .
  • Müller, M., Meister, N. & Moor, H. (1980). Freezing in a propane jet and its application in freeze-fracturing. Mikroskopie, 36, 129140.
  • Read, N. D., Porter, R. & Bkckett, A. (1983). A comparison of preparative techniques for the examination of the external morphology of fungal material under the scanning electron microscope. Canadian Journal of Botany, 61, 20592078.
  • Richardson, D. H. S. (1985). The surface physiology of lichens with particular reference to carbohydrate transfer between the symbionts. In: Surface Physiology of Lichens (Ed. by C.Vincente, D. H.Brown & M. E.Legaz). pp. 2555.Editorial de la Universidad Complutense de Madrid.
  • Ryser, U. & Holloway, P. J. (1985). Ultrastructure and chemistry of soluble and polymeric lipids in cell walls from seed coats and fibres of Gossypium species. Planta, 163, 151163.
  • Ryser, U., Meier, H. & Holloway, P. J. (1983). Identification and localization of suberin in the cell walls of green cotton fibres (Gossypium hirsutum L., var. green lint). Protoplasma, 117, 196205.
  • Schimmer, O. & Lehner, H. (1973). Untersuchungen zur Wirkung von Usninsäure auf die Grünalge Chlamydomonas reinhardii. Archiv für Microbiologie, 93, 145154.
  • Smith, D. C. (1975). Symbiosis and the biology of lichenised fungi. In: Symbiosis vol. 39 (Ed. by D. H.Jennings & D. L.Lee), pp. 373405. Symposia of the Society for Experimental Biology. Cambridge University Press.
  • Smith, D. C. (1980). Mechanisms of nutrient movement between the lichen symbionts. In: Cellular Interactions in Symbiosis and Parasitism (Ed. by C. B.Cook, P. W.Pappas & E.Rudolph), pp. 197227. Ohio State University Press, Columbus .
  • Steiner, M. (1955). Ein stabiles Diaminreagens für lichenologische Zwecke. Berichte der deutschen bolanischen Gesellschaft, 68, 3540.
  • Stocker, O. (1956). Wasseraufnahme und Wasserspeicherung bei Thallophyten. In: Handbuch der Pflanzenphysiologie, vol.3 (Ed. by W.Ruhland), pp. 160172. Springer, Berlin .
  • Syrett, P. J. (1962). Nitrogen assimilation. In: Physiology and Biochemistry of Algae (Ed. by R. A.Lewin) pp. 171188.Academic Press. New York .
  • Vainshtein, E. A. & Takhtadzhyan, E. A. (1981). Physiological changes in the lichen alga Trebouxia during cultivation. Translated from Fiziologya Rastenii, 28 (5), 10371044, (1981), in Soviet Plant Physiology, 28, 763–769.
  • Vicente, C. (1985). Surface physiology in lichens: facts and concepts. In: Surface Physiology of Lichens (Ed. by C.Vicente, D. H.Brown & M. E.Legaz), pp. 1124. Editorial de la Universidad Complutense de Madrid.
  • Vicente, C. & Filoho, L. X. (1979). Urease regulation in Cladonia verticillaris. Phyton, 37, 137144.
  • Vicente, C, Azpiroz, A., Estevez, M. P. & Gonzales, M. L. (1978). Quaternary structural changes and kinetics of urease inactivation by L-usnic acid in relation to the regulation of nutrient transfer between lichen symbionts. Plant, Cell and Environment, 1, 2933.
  • Vicente, C, Legaz, M. E., Arruda, E. & Fscnilho, L. X. (1984). The utilization of urea by the lichen Cladonia sandstedei. Journal of Plant Physiology, 115, 397404.
  • White, J. F, & James, P. W. (1985). A new guide to microchemical techniques for the identification of lichen substances. British Lichen Society Bulletin, 57 (suppl.), 141.
  • Walter, P., Müller, M. & Schweingruber, M. E. (1984). The ultrastructure of the cell surface and plasma membrane of exponential and stationary phase cells of Schizosaccharomyces pnmbe, grown in different media. Archives of Microbiology, 137, 128134.
  • Yatsu, L. Y., Espelie, K. E. & Kolattukudy, P. E. (1983). Ultrastructural evidence that the cell wall of green cotton fibres is suberinized. Plant Physiology, Bethesda, 73, 521524.
  • Zopf, W. (1907). Die Flechtenstoffe in chemischer, botanischer, pharmakologischer und technischer Beziehung.