Translocation of 15N indicates nitrogen recycling in the mat‐forming lichen Cladonia portentosa

Abstract

• Nitrogen translocation was measured in Cladonia portentosa during 2 yr growth in Scottish heathland. Translocation was predicted to occur if N is resorbed from senescent basal tissue and recycled within the thallus. • ¹⁵N was introduced into either the lower (TU thalli) or upper (TD thalli) 25 mm of 50‐mm‐long thalli as ¹⁵N‐NH₄⁺, ¹⁵N‐NO₃⁻ or ¹⁵N‐glycine. Labelled thalli were placed within intact lichen cushions, either upright (TU) or inverted (TD). Vertical distribution of label was quantified immediately following labelling and after 1 and 2 yr. • Independently of the form of introduced label, ¹⁵N migrated upwards in TU thalli, with new growth being a strong sink. Sink regions for ¹⁵N during year 1 (including new growth) became sources of ¹⁵N translocated to new growth in year 2. Upward migration into inverted bases was minimal in TD thalli, but was again marked in new growth that developed from inverted apices. • Relocation of N to regions of growth could facilitate internal N recycling, a process postulated to explain the ecological success of mat‐forming lichens.