Sapling survival in a frequently burnt savanna: mobilisation of carbon reserves in Acacia karroo.

摘要

In frequently burnt savannas, saplings face the formidable challenge of both recovering from, and eventually growing tall enough to escape from, frequent fire damage. The aim of this study was to explore how saplings allocate carbon to achieve these ends through carbon partitioning, storage and remobilization. Lignotuber total non-structural carbohydrate (TNC) concentrations and delta 13C values of Acacia karroo (Fabaceae; Mimosoideae) were determined in plants from two different juvenile stages. These were one year after a fire when the plant consisted of numerous leafy shoots or coppices ("coppicing" stage), and three years after a fire when the plant consisted of one pole-like stem ("Gulliver" stage). Gulliver lignotubers were found to have significantly larger TNC pools (150 g vs. 97 g) and larger TNC concentrations (33% vs. 24%, w/w) than coppice lignotubers showing that post-coppice Gullivers recharged TNC in the lignotuber. delta 13C values from the stems of plants in the Gulliver stage were significantly enriched (>1 per mil) in 13C compared to both coppicing (P<0.01) and adult (P<0.05) plants. Changes in both the amount of stored carbon and in the delta 13C values indicated dependence on stored carbon reserves, and partially heterotrophic growth for initial resprouting. The plants appeared to use both current photosynthate and stored carbon reserves for growth of the Gulliver stem. The use of stored carbon is hypothesized to promote fast stem growth rates to a height where saplings escape fire injury.