Decomposition dynamics of mixed litter in a seasonally flooded forest near the Orinoco river

Abstract We evaluated the decomposition of a litter mixture in the seasonally flooded forest of a tributary of the Orinoco river. This mixture was prepared using three litter species, based on the litter fall rate observed over a complete hydro-period (2012–2013). The mixture loading ratio was 0.46 of Pouteria orinocoensis (Sapotaceae), 0.38 of Alibertia latifolia (Rubiaceae) and 0.16 of Acosmium nitens (Fabaceae). The initial chemical composition of each single litter species was also determined. Litterbags (20 × 20 cm, 2 mm opening) containing either each single species or the mixture, were deployed on the flooded forest soil and sampled after 30, 240, 270, 300 and 330 days. There were differences in initial total N and P concentrations, with A. nitens (AN) showing the highest nutrient concentrations (%N AN  = 1.86 ± 0.19; %P AN  = 0.058 ± 0.008) and P. orinocoensis (PO) and A. latifolia (AL) the lowest (%N PO  = 0.92 ± 0.06; %N AL  = 1.04 ± 0.04; %P PO  = 0.029 ± 0.005; %P AL  = 0.032 ± 0.001). Litter from AN showed the greatest mass loss (55%) and fastest decomposition rate ( k  = 0.00185 ± 0.00028) while litter from AL and the mixture showed the smallest mass loss (24% and 27% respectively) and the slowest decomposition rate ( k AL  = 0.00078 ± 0.00012 and k MIX  = 0.00077 ± 0.00006). Decomposition rates were significantly and positively correlated with initial N ( r  = 0.556, p 0.05 ) and P concentrations ( r  = 0.482, p 0. 05). Nevertheless, there were no significant differences between the expected decomposition rate and the observed decomposition rate of the mixture (additive response). To test the nature of the additivity, an enhancement factor ( f ) on decomposition rates for each single species was calculated. The species with the highest and smallest value of f were AN and AL, respectively. The fact that two out of the three species had values significantly different from 1, suggests that the additivity detected in our mixture was a consequence of the counterbalancing of the positive and negative effects of each species over the decomposition of the litter mixture.