Status of breeding of coconut plants in supplying superior seeds in Indonesia. Breeding depression in four generations of closed pollination of coconut plants in Mapanget No.32 based on morphological properties and microsatellite markers. Research Institute for Coconut and Other Palma Plants.
Development of PVT-based Coconut Seed Industry and In Ssitu Germplasm Conservation. Virgin coconut oil supplemented diet increases the antioxidant status in rats. Use of two step clusteing analysis for mixed data. International Dairy Journal 16: 1374-1382. Journal of the American Oil Chemists’ Society 86: 301-307. Chemical properties of virgin coconut oil. Characteristics of selfing coconut generation in Mapanget for selection of pollen source mother trees.
Synthesis of medium chain methyl esters from coconut oil by means of chemical methanolysis. Paper presented on APPC’S XXXVI session and 30 Anniversarry in Pohnpei. “Coconut: In Support of Good Health in the 21st Century”. Tersedia pada: cigraph/index.php/viewstat/komoditiutama/5-Kelapa.Įnig, M. Luas areal dan produksi perkebunan seluruh Indonesia. Dewan Kelapa Indonesia.Direktorat Jenderal Perkebunan. Bermusyawarah dan berkoordinasi bagi pembangunan perkelapaan Nasional tahun 2009. Food and Agriculture Organization of the United Nations -Thailand Departement of Agriculture.ĭewan Kelapa Indonesia (Dekindo). A Technical Input to the Project ”Pilot Demonstration of Small-Scale Equipment for Production of Virgin Coconut Oil and Products in Thailand. Genotype of G5 has the highest content of lauric acid and has 12.1 mm thick flesh, but only 8 types of fatty acid composition are present in the oil. The average amount of fatty acid contained in coconut oil obtained generally in other coconut oil. caprylic, capric, myristic, palmitic, stearic, oleic, linoleic and arachidic acid in the oil. Based on the 10 main type fatty acids found in coconut oil, all genotypes have between 8 and 10 types of fatty acids, i.e. Based on the morphological character, the genotype of G28 and G32 show the closest relationship with the dissimilarity value of 3.00 and the farthest relationship on the genotype of G40 and G43 with the dissimilarity value of 12.04. A total of 36 coconut genotypes have been collected and identified based on morphological characters and fatty acid content. This study used morphological observation method based on IPGRI (International Plant Genetic Resources Institute) coconut descriptor with purposive sampling technique. The coconut was obtained from the Air Joman and Silau Laut subdistricts of Asahan District, between April and September 2017. A study that aims to determine the diversity, relationship and fatty acid content in several coconut genotypes ( Cocos nucifera L.) grown and cultivated in Asahan District of North Sumatra Province, Indonesia was investigated. Variability of coconut phenotype based on morphology and content of fatty acids in Asahan District, North Sumatra, Indonesia.
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