Factors determining the growth curve of the foliose lichen Parmelia conspersa

Abstract

SUMMARYGrowth curves of the foliose lichen Parmelia conspersa (Ehrh. ex Ach.) Ach. were obtained by plotting radial growth rate (RGR, mm yr‐1) of the fastest measured lobe, the slowest measured lobe, a randomly selected lobe, and by averaging a sample of lobes from each thallus against thallus diameter. Growth curves derived from the fastest‐growing lobe and by averaging lobes were asymptotic and could be fitted by the growth model of Aplin and Hill. Mean lobe width increased with thallus size, reaching a maximum at approx. 4· cm thallus diameter. In four out of six thalli, radial growth of lobes over 4 months was positively correlated with initial lobe width or area. The RGR of isolated lobes was unaffected until the base of the lobe was removed to within 1–2 mm of the tip. The concentration (μg mg‐1 biomass) of ribitol, arabitol and mannitol was greater in the marginal lobes of large than in small thalli. These results suggested that the growth curve of P. conspera is determined by processes that occur within individual marginal lobes and can be explained by the Aplin and Hill model. Changes in lobe width and in the productive capacity of individual lobes with thallus size are likely to be more important factors than the degree of translocation within the lobe in determining the growth curve.