Controls of litter quality on the carbon sink in soils through partitioning the products of decomposing litter in a forest succession series in South China

摘要

a- Novel method to partition leaching, respiration and fragmentation in litter decomposition. a- Fraction of decomposing litter fluxes were correlated with litter C/N ratios and lignin contents. a- Carbon sequestrated in soils via leaching and fragmentation in old-growth forest was greater than that in pioneer forest and transition forest. Through the long-term measurement and development of a method for partitioning the products of decomposing litter, the impact of chemical components of forest debris on soil organic carbon (SOC) accumulation was studied in a forest succession series in South China. We quantified how litter quality is strongly correlated with the partitioning of respiration, dissolved organic carbon (DOC) and fragments of decomposing litter. In the succession sequence of 60-year-old pine forest (PF), to 80-year-old mixed pine and evergreen broadleaved forest (MF) to more than 400-year-old monsoon evergreen broadleaved forest (MEBF), the litter C/N ratios and lignin contents were gradually decreasing, which in turn were correlated with increasing litter decomposition constants (k-values), gradually shortening residence times of standing litter pool. And, 53.5%, 65.6% and 76.2% of the gravimetric litter mass losses were going belowground through both DOC and fragmentation. Correspondingly, the SOC accumulation rates in the top 20cm of mineral soils for the three forests from 1978 to 2008 were 26A plus or minus 4, 33A plus or minus 5 and 67A plus or minus 5gCma degree 2 yra degree 1, respectively. Results of the study support the idea that in order to increase carbon sequestration in soils and long-term functional ability of forest ecosystems to act as carbon sinks, "Kyoto Forests" should be designed and reconstructed with a high diversity of broadleaved species, especially containing nitrogen-fixing trees.