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UPV Theses and Dissertations

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2016 - 20183

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Committee Chair: search.filters.chair.Nievales, Marie Frances J.Degree: search.filters.degree.Bachelor of Science in Biology

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    Species composition and distribution of mangrove soil fungi from Iloilo River, Iloilo City, Philippines
    Almoros, Peter Paul C. (Division of Biological Sciences, College of Arts and Sciences, University of the Philippines Visayas, 2018-06)
    Fungi are very diverse and ubiquitous microorganisms. Fungal diversity is an important aspect of the ecosystem that needs to be studied. There have been many studies regarding biodiversity of fungi in terrestrial, marine and riverine environments, but studies regarding fungi found in mangrove soil still needs to be done. This study focused on determining the species composition, distribution and ecology of mangrove soil fungi in the Iloilo River, Iloilo City. Soil fungi were sampled from three areas in the river representing the downstream, midstream and upstream areas. Fungal isolates were identified based on morphological characteristics- cultural and microscopic features. There were 10 identified fungal species -Aspergillus cf. flavus, Aspergillus cf. niger, Aspergillus cf. ustus, Aspergillus cf. versicolor, Aspergillus sp. (1), Aspergillus sp. (2) and Aspergillus sp. (3), Geotrichum cf. candidum, Penicillium cf. citrinum and Penicillium sp. (1), while there were 2 unidentified species. Three of these species were very frequent across the sites -Aspergillus cf. flavus, Geotrichum cf. candidum and Penicillium cf. citrinum.
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    Living above and belowground biomass and carbon stock assessment of station 1, Taklong Island, Taklong Island National Marine Reserve, Guimaras, Philippines
    Alegado, Alexis Jude T. (Division of Biological Sciences, College of Arts and Sciences, University of the Philippines Visayas, 2018-06)
    The Taklong National Marine Reserve is one of the marine protected sites in the country with a good cover of mangroves. This study assessed the species composition, diversity, aboveground biomass and the estimated carbon of the natural mangrove forest found in Taklong Island Station 1. Barangay Lapaz. Nueva Valencia. Guimaras. The study aimed to: a.) map out the area of the selected mangrove patches, b.) identify the species composition and diversity of the sampling site, c.) quantify the aboveground and belowground biomass, carbon stock of live vegetations, and d.) to convert the carbon stock to carbon dioxide equivalence (CO₂e) of the selected station. This study is only limited to the estimation of living aboveground, belowground and the carbon stock using the published allometric equations. Only 7 species of mangroves were found in the site belonging to 3 families. The mean stand basal area was 21.47 m2 ha-1. The species diversity is low at 0.23 due to low speciation of species of mangroves on the site. The total aboveground biomass was 506.89 Mg ha-1 and carbon dioxide emission potential (CO₂e) of 2,498.15Mg CO₂e. This shows that mangrove in Station 1 of Taklong Island has stored a considerable amount of carbon overtime. Hence, there must be a proper management and protection of this ecosystem.
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    Influence of sediments of varying grain size composition on growth, survival and burrowing activity of the Ball Sea cucumber, Phyllophorus proteus (Bell,1884) juveniles
    Amuenda, Jazriel Ann A. (Division of Biological Sciences, College of Arts and Sciences, University of the Philippines Visayas, 2016-05)
    Phyllophorus proteus is a high-value sea cucumber species in Philippines but is also one of the most exploited. Hatchery-produced juveniles are used for stock enhancement as a means of restoring depleted population however biology of P. proteus have not yet been studied on. Burrowing incidence of ball sea cucumber P. proteus (Echinodermata: Holothuroidea) juveniles (4-5 length x ≤1mm width), growth, survival and their associated daily behaviour were compared in 3 different substrate collected from Sagay, Negros Occ. (A-mostly coarse), Panobolon, Guimaras (B-intermediate) and Carles, Iloilo (C-mostly fine). This was to establish the most suitable type of substrate to use in the culture system for this high-value sea cucumber. The highest incidence of burrowing was observed in sediment profile C but the difference in the mean number of burrowing individuals between treatments was statistically insignificant (p>0.05). After 4 weeks, growth of P. proteus juveniles was significantly higher (p<0.05) when reared on profile C (growth rate: 0.79±.13mm %d-l) than either profile B (p=0.009) (0.34±0.14 mm %d-1) or profile A (p=0.030) (0.21±0.11mm %d-1). Survival is highest in profile B (S=100%), intermediate in profile C and lowest in profile A although the difference is insignificant (p>0.05) Very fine-fine-grained sediments is the most preferred by ball sea cucumber juveniles while coarse sand seems to be unsuitable.