Az Eszterházy Károly Tanárképző Főiskola Tudományos Közleményei. 2004. Sectio Biologiae. (Acta Academiae Paedagogicae Agriensis : Nova series ; Tom. 25)
Tuba, Z., Takács, Z., Juhász, A. and Lichtenthaler, H. K.: Pentose-phosphate pathway as the possible background of resaturation respiration in the desiccation-tolerant lichen Cladonia convoluta
156 Tuba, Z. et al. Fig. 1. Rates of resaturation respiration and basal respiration (as percentage of the control plants) of the rehydrating desiccated lichen C. convoluta thalli in the control, and in the KCN ( Iff 3 M), bromoxynil (Iff 3 M) and N 2 treated lichen (n = 5, bars represent standard deviations). Note that the rate of resaturation respiration was four times higher than the so-called basal (basic) respiration. References BEWLEY, J. D., HALMER, P., KROCHKO, J. E., WINNER, W. E. (1978): Metabolism of a drought- tolerant and a drought-sensitive moss. Respiration, ATP synthesis and carbohydrate status. In: Dry biological system, pp. 185-203, Crowe, J. H., Clegg, J. S., eds. Academic Press, New York. BROWN, D. H., MACFARLANE, J. D., KERSHAW, K. A. (1983): Physiological environmental interactions in lichens. XVI. A reexamination of resaturation respiration phenomena. New Phytologist 93, 237-246. FARRAR, J. F., SMITH, D. C. (1976): Ecological physiology of the lichen Hypogymnia physodes. III. The importance of the rewetting phase. New Phytologist. 77, 115-125. FEKETE, G., TUBA, Z. AND MELKÓ, E. (1988): Background processes at the population level during succession in grasslands on sand. Vegetatio, 77, 33-41. GORDY, V. R., HENDRIX, D. L. (1982): Respiratory response of the lichens Ramalina stenospora Miill. Arg. and Ramalina complatana (Sw.) Ach. to azide, cyanide, salicylhydroxamic acid and bisulfite during thallus hidration. The Bryologist 85, 361-374.
