International Research Symposium on Pure and Applied Sciences (IRSPAS)

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    Isolation and identification of litter decomposing fungi in Nagacholai Forest Reserve, Mullaitivu, Sri Lanka
    (4th International Research Symposium on Pure and Applied Sciences, Faculty of Science, University of Kelaniya, Sri Lanka, 2019) Bopitiya, B. D. S. S.; Dewangani, H. G. N.; Perera, H. W. K.; Premachandra, J. A. H. P.; Senevirathna, M. A. T. M.; Kalpani, N. N.; Kodituwakku, T. D.; Kannangara, S.
    Nagacholai Forest Reserve, which was disturbed by local terrorism before 2009, is located in Mullaitivu District in the Northern Province of Sri Lanka. It is a tropical dry zone forest, administrated by the Department of Forest Conservation, Sri Lanka. Litter-fall and subsequent nutrient release from decomposing litter are crucial processes that regulate the nutrient availability and the nutrient cycling in soil, as well as the plant growth in forest ecosystems. Litter decomposition rates of forest ecosystems are governed by both biotic and abiotic factors. Therefore, the present study was conducted to study soil characteristics such as pH and electrical conductivity and to isolate and identify the litter decomposing fungi of the Nagacholai forest. Soil and litter were collected randomly by placing 0.5 m X 0.5 m size quadrats on the forest floor. The pH and electrical conductivity of each soil sample were determined by following standard methods. Litter decomposing fungi were isolated from leaf discs (1 mm X 1 mm) obtained from the collected litter following washing and plating method using sterilized distilled water. Pure cultures of isolated fungi were maintained at 28 °C in PDA and morphologically identified using identification keys. The low moisture content in the soil was reflected by brown colour, sandy-podzolic soil. The high proportion of less decomposed, dense litter layer reflected the low decomposition rate due to decelerated soil microbial activity and low water availability. Soil pH was within the range of 6.34 – 6.80 and electrical conductivity at 30 °C varied between 1.23 – 1.57 mS cm-1. Five different fungal species were isolated in high frequencies (50%>) from leaf litter, while four of them were identified up to the genus level based on their vegetative and reproductive morphology (i.e. Mucor sp., Aspergillus sp., Candida sp. and Pestalotiopsis sp.). The remaining unidentified species produced white colour colonies and branched, hyaline, septate hyphae without showing any sexual reproductive structure. Mucor, Aspergillus and Pestalotiopsis are some of the common fungal decomposers found in most of the forests of different climatic zones. However, Candida is a filamentous yeast, which is not frequently reported as a decomposer in terrestrial ecosystems, but found to be a member of the normal soil microflora in forests as secondary sugar fungi. Therefore, Mucor, Aspergillus and Pestalotiopsis could be identified as the most prominent genera of litter decomposing fungi in the Nagacholai forest. Nevertheless, this preliminary study needs to be elaborated further to confirm their identity up to species level using molecular techniques
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    Determination of selenium content in conventional leafy green vegetables consumed by Sri Lankans.
    (International Research Symposium on Pure and Applied Sciences, 2017 Faculty of Science, University of Kelaniya, Sri Lanka., 2017) Dayarathna, A.G.S.; De Silva, D.S.M.
    Selenium is an essential micro-nutrient for both humans and animals, specially incorporated in the form of amino acids. It is an important trace element required for humans for proper thyroid functioning and to promote their immune system. Most of the South Asian communities, especially Sri Lankans frequently have plant-derived food as the main component in their diet. Since it is widely believed that conventional leafy vegetables are a rich nutrient source, this study was carried out to determine the selenium content in seven selected types of abundant conventional leafy green vegetables that are consumed by Sri Lankans. Centella asiatica (Sin. Gotukola), Alternanthra sessilis (Sin. Mukunuwenna), Basella alba (Sin. Nivithi / Spinach), Boerhavia diffusa (Sin. Sarana), Ipomoea aquatica (Sin. Kankun), Amaranthus spinosus (Sin. Thampala) and Hygrophila schulli (Sin. Neeramulliya) are the leafy vegetable samples that were selected for the evaluation of selenium content. The samples were collected from five districts, (Gampaha, Kandy, Kurunegala, Anuradhapura and Puttalam) which have different environmental and climatic conditions. Soil samples corresponding to each leafy vegetable sample were also collected, and analyzed to identify the relationship between the selenium content in plants and soil. The sample analysis was carried out using Hydride Generation Atomic Absorption Spectrometer (HGAAS). Prior to the analysis, cleaned leafy vegetable samples and corresponding soil samples were subjected to acid digestion with nitric acid. Selenium concentrations in leafy vegetable samples analyzed were found to be in the range of 31.2 -103.2 μg kg-1 on dry weight basis. Centella asiatica (84.1 μg kg-1) and Hygrophila schulli (103.2 μg kg-1) varieties showed relatively high selenium concentrations, highest value of Selenium (103.2 μg kg-1) was reported from Hygrophila schulli and the lowest was from Boerhavia diffusa (31.2 μg kg-1). The selenium content in corresponding soil samples ranged from 96.4 to 133.9 μg kg-1 in dry weight basis. The measured soil selenium content was always higher than the corresponding plant selenium content; however the plants that were grown in selenium rich soils have not shown greater absorption of selenium. Hence, there may be no positive correlation between the uptake of selenium by leafy vegetables and the selenium content in soil.