화학공학소재연구정보센터
Biomass & Bioenergy, Vol.24, No.1, 3-11, 2003
Leaf litter decomposition and nutrient release patterns of six multipurpose tree species of central Himalaya, India
Chemical characteristics and decomposition patterns of six multipurpose tree species, viz., Alnus nepalensis, Albizzia lebbek, Boehmeria rugulosa, Dalbergia sissoo, Ficus glomerata and F roxburghii were analysed in a mixed plantation established on an abandoned agricultural land site in a village at 1200 m altitude in Central Himalaya, India. Differences in chemical quality of litter species were most marked in polyphenol and N concentrations. A. lebbek, A. nepalensis and D. sissoo showed higher N (2.2-2.6%) but lower polyphenol concentrations (3.2-4.7%) than R rugulosa, F glomerata and F roxburghii (0.96-1.97% N and 5.68-11.64% polyphenol). Significant effects of species, incubation time and species x incubation time interaction on monthly mass, N, P and K release rates were observed. A linear combination of rainfall and temperature explained the variation in monthly mass loss better than rainfall and temperature independently. Percentage mass remaining after 1 year of incubation varied from 30 to 50, N remaining from 40 to 86, P remaining from 33 to 56 and K remaining from 1 to 3. Annual decomposition constants of mass and N were positively correlated with C and N concentrations and negatively correlated with C/N, lignin/N, polyphenol/N and lignin+polyphenol/N ratios of fresh litter. As all the species studied showed the highest rates of N and P release during the rainy season, rainy season crops are not likely to be as much nutrient stressed as winter season crops if leaf litter of these species is assumed to be the sole source of nutrients to crops in tree-crop mixed agroforestry. A. lebbek, A. nepalensis, D. sissoo and F glomerata seem to be more appropriate for rapid recovery in degraded lands as their litter decomposed faster than B. rugulosa and F roxburghii. A diverse multipurpose tree community provides not only diverse products but may also render stable nutrient cycling.