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Leaf litter dynamics of ornamental flowering trees
A detailed study was conducted at the College of Forestry, Kerala Agricultural University, Vellanikkara, Thrissur, Kerala during 2005-2007, to compare the rate of decomposition and mineralization pattern of leaf biomass of five ornamental flowering trees viz., Bauhinia purpurea Lamk., Cassia fistula...
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| Format: | Ph.D Thesis |
| Language: | Undetermined |
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Vellanikkara
Department of Forest Management and Utilisation, College of Forestry
2007
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| 100 | |a Jinsy M Joseph | ||
| 245 | |a Leaf litter dynamics of ornamental flowering trees | ||
| 260 | |a Vellanikkara |b Department of Forest Management and Utilisation, College of Forestry |c 2007 | ||
| 502 | |b MSc | ||
| 520 | 3 | |a A detailed study was conducted at the College of Forestry, Kerala Agricultural University, Vellanikkara, Thrissur, Kerala during 2005-2007, to compare the rate of decomposition and mineralization pattern of leaf biomass of five ornamental flowering trees viz., Bauhinia purpurea Lamk., Cassia fistula Linn., Gliricidia sepium Kunth., Lagerstroemia speciosa Auct. and Peltophorum pterocarpum Baker. The experiment was laid out in a typical homegarden. The rate of leaf biomass decomposition was generally faster for all the species studied. Of the five species studied, G. sepium and L. speciosa showed faster rates of leaf biomass decomposition while B. purpurea recorded the lowest rate. Generally, all the species followed a biphasic pattern of biomass decomposition. The initial nitrogen, C: N ratio, lignin content and lignin: nitrogen ratio of the leaf biomass influenced the decomposition rate. The fibre content of leaf biomass was also found to have significant affect on the rate of decomposition. Leaf biomass of L. speciosa and G. sepium showed rapid release of all the nutrients compared to that of B. purpurea. Among the nutrients, potassium registered a faster rate of mineralization, followed by nitrogen for all the species except L. speciosa, which showed faster mineralization for nitrogen. Lower mineralization tendency was seen for phosphorus in all the species. The influence of leaf litter decomposition on soil pH and electrical conductivity was not significant. However, content of most of the nutrient elements in the soil was significantly improved with respect to all the species particularly towards the end of the study. | |
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