Possible functional roles of cortical depsides and medullary depsidones in the foliose lichen Hypogymnia physodes

Abstract

Secondary compounds were quantified in 75 thalli of the foliose lichen Hypogymnia physodes collected in habitats along a natural shade-sun gradient from dark spruce forests to sun-exposed sea cliffs. The irradiance in all the 75 lichen sites was estimated from hemispherical photographs. The content of lichen compounds per thallus area correlated positively with irradiance level ( r 2=0.73), and the mean concentration increased from 6.7% in the spruce forest to 14.4% on sea cliffs. The medullary depsidones, physodic, physodalic and protocetraric acids, constituted >95% of the total pool of extractable secondary compounds, the cortical depsides, atranorin and chloratranorin, represented <5%. Both cortical compounds correlated well with direct and with diffuse radiation, whereas the three medullary compounds correlated better with diffuse than with direct radiation. Mentioned trends are consistent with a solar radiation screening hypothesis of both groups of these colourless compounds occuring as tiny crystals outside fungal hyphae. However, the UV-B protective hypothesis of the compounds was further tested in a lab experiment. Unnaturally high UV-B doses were required to significantly reduce the PSII efficiency ( F V/ F M) of symbiotic algae. Removal of the major pool of secondary compounds with acetone did not increase photobiont susceptibility to UV-B. Therefore, the main functional role of the UV-B absorbing secondary compounds in H. physodes is hardly UV-B screening. Other roles such as PAR-screening and defence against herbivores and pathogenic organisms are discussed.