Litter decomposition variation across a degradation gradient and two seasons in a critically endangered vegetation type within the Fynbos biome, South Africa

Abstract

Litter decomposition is an ecosystem function essential for nutrient cycling; however until very recently it was considered of minor importance within the fire-prone Fynbos Biome. To investigate decomposition rate and litter nutrient dynamics, litterbags containing materials from three plant species from different functional types were placed in sites across a degradation gradient and over two seasons. Litterbags were removed after three and six months for both seasons to determine decomposition rates and change in nutrient concentration. Decomposition varied greatly among the species and was strongly correlated to initial nutrient values of the litter. The most nutrient rich litter type, the alien herbaceous Medicago spp., lost 65% of its original mass after six months while the most nutrient poor, the indigenous grass Pentameris eriostoma, lost 18%. Litter from Dicerothamnus rhinocerotis, an indigenous shrub, lost 27% of its original mass. For all litter types, the majority of the loss occurred during the first three months of the experiment. Season was found to significantly affect litter decomposition; however the exact mechanism behind this is unclear. Degradation level, at least defined by the metrics of this study, did not significantly affect litter decomposition rate. The faster decomposition rate shown in Medicago spp. suggests that in degraded areas where significant proportions of the species invade, nutrient cycling will be accelerated in comparison to pristine land; however broadening the species of study to include additional plant functional types, such as indigenous annuals, would help give insight into this hypothesis. This study affirms the notion that litter decomposition is an important ecosystem function within the Fynbos Biome with litter type acting as a strong controlling variable.