2017 ESA Annual Meeting (August 6 -- 11)

PS 6-69 - Mixing litter from deciduous and evergreen trees enhances decomposition in a subtropical karst forest in southwestern China

Monday, August 7, 2017
Exhibit Hall, Oregon Convention Center
Changcheng Liu1, Ke Guo1 and Yuguo Liu2, (1)Institute of Botany, Chinese Academy of Sciences, Beijing, China, (2)Institute of Desertification Studies, Chinese Academy of Forestry, Beijing, China
Background/Question/Methods

In the karst region of southwestern China, mixed evergreen and deciduous broad-leaved forest is typical vegetation, differing remarkably from the evergreen broad-leaved forest developed in non-karst regions in the same latitudinal zone. Litter input from deciduous trees influences the characteristics of the litter layer, which could affect decomposition dynamics. However, effects of litter mixtures from deciduous and evergreen trees on the decomposition process in subtropical karst forests remain unclear, which are urgently needed to improve our understanding of nutrient cycling, productivity and stability of karst ecosystems. We evaluated the role of deciduous trees in regulating the decomposition of mixed leaf litter in a karst forest. Four species richness treatments (one, two, four and six species) were designed to evaluate the decomposition rates of litter mixtures for two years. The ratio of deciduous to evergreen species numbers was 1:1 in all mixtures.

Results/Conclusions

Litter mass loss was positively correlated with initial nitrogen concentrations and negatively correlated with carbon:nitrogen ratios, suggesting that mass loss was controlled by nitrogen concentration of the litter mixture. Litter mixing accelerated the mass loss by 5.0% and enhanced nutrient release by 4.8%-26.2% for different elements. Synergistic effects in the four-species mixture were usually strongest and increased over time. Although individual litter species within the mixtures showed idiosyncratic responses to litter species richness, mixing effects enhanced decomposition of evergreen litter species more than deciduous species. This study suggests that species composition was more important than species richness in driving non-additive effects on decomposition in this forest. Deciduous trees in karst ecosystems significantly contribute to nutrient cycling, through enhancing the decomposition of evergreen leaf litter. The recycling of essential elements through litter decomposition seems to be particularly important for the nutrient budget of karst ecosystems. High tree species richness significantly accelerated nutrient release from leaf litter, which could in turn contribute to supporting high biodiversity in the karst forests in such harsh habitats.