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ThesisItem Open Access Development of storage techniques for thampakam (Hopea parviflora Bedd.) seeds(Department of Silviculture and Agroforestry, College of Forestry, Vellanikkara, 2002) Shaji, M; KAU; Sudhakara, KA detailed study was conducted at College of Forestry, Kerala Agricultural University, Vellanikkara, Thrissur, Kerala during 1999-2001 to develop a suitable storage technique for the seeds of Hopea parviflora Bedd. species through synthetic seed and cryopreservation technology. Moisture content of intact seeds/ seeds without seed coat/: excised embryonic axes decreased with increase in intensity and duration of desiccation levels and only the seeds without seed coat showed significant difference in moisture content due to maturity levels. Leachate conductivity was not significantly affected due to maturity levels of intact seeds and excised embryonic axes. But seeds without seed coat showed significant difference in leachate conductivity due to maturity levels and it was higher at seven weeks after anthesis. Increasing the duration of desiccation significantly increased the leachate conductivity of intact seeds/ seeds without seed coat! embryonic axes. Germination parameters of intact seeds and seeds without seed coat were not affected significantly by increased desiccation. However, excised embryonic axes showed significant difference in germination parameters when the intensity and duration of desiccation was increased. The synthetic seeds developed from these desiccated axes also showed significant difference in their germination parameters. Synthetic seeds stored at 4°C retained maximum viability after four weeks, compared to those stored at 200 C and 27 0 C. When stored at 27 0 C, the synthetic seeds developed from six weeks mature embryos retained viability up to three weeks whereas those at seven weeks after anthesis retained viability up to two weeks only. After cryopreservation, the propagules invariably failed to regenerate but could retain green colour for two to three days.ThesisItem Open Access Root competition between coconut palms and interplanted multipurpose trees under varying nutrients management regimes(Department of Silriculture and Agronomy, College of Forestry, Vellanikkara, 2002) Sanjeev Gowda, H B; Mohanakumar, BCoconut based production systems in the tropics often aim at improved resource capture through incorporating several trees and field crops. However, competition between the system components are probable when multipurpose trees are systematically interplanted in the coconut plantations. Soil fertility regimes are presumably important in determining the magnitude of below ground competitive interactions. Hence a study was conducted to evaluate the influence of interplanted multipurpose trees on coconut productivity along a soil fertility gradient, to assess the performance of multipurpose trees and to determine the nature of below ground interactions between coconut palms and multipurpose trees, at Vellanikkara since 1992. Treatments included combinations of cocounut with anyone of the three multipurpose trees namely, Vateria indica, Ailanthus triphysa and Grevillea robusta, following two planting geometries(randomised block design, replicated thrice). A soil fertility gradient, was super-imposed with high, medium and low fertility levels in 2000. 32p soil injection technique was employed to characterize . root interaction and logarithmic spiral trenching technique for evaluating root distribution pattern. Results show that coconut yield was not adversely affected by multipurpose trees interplanting until the trees reached eight years of age. Vateria, ailanthus and grevillea showed marked variations in their growth rates. Initially vateria recorded higher height and radial growth albeit ailanthus registered higher growth rates subsequently. Isotopic studies reveal that 32p absorption by coconut palms was similar in both sole and mixed cropping situations along the fertility gradient; probably implying the non-interfering nature of multipurpose trees. 32p absorption by vateria and ailanthus suggests that the absorption of radioactive phosphorus declined linearly with increasing distance ie. 32p absorption by multipurpose trees also did not affect the 32p uptake by coconut, suggesting that integrated land use systems involving multipurpose trees and coconut are ideally suited for improved resource capture and increased system productivity. Excavation of multipurpose tree root systems showed that proximal locations recorded higher rooting intensities and that the rooting intensities decreased with increasing distance. Size of the trees showed discernible differences in respect of spatial root distribution pattern. Large sized trees showed higher root distribution compared to small and medium. The first 10cm soil layer recorded the highest rooting intensities. Ailanthus roots were distributed upto a maximum distance of 469 cm, vateria upto 163 cm and grevillea upto 227 cm. Implicit in this is the species-dependent'variations in lateral root spread. In general, vateria and ailanthus have a well developed and ramified root systems. Grevillea, however, had a less spreading root systems. Selection of tree species with low root competitiveness and/or trees with complementary root interactions is of strategic importance in agroforestry.