遗传相似性
克隆(Java方法)
产量(工程)
登录号(图书馆学)
相似性(几何)
双标图
生物
园艺
生物技术
基因
遗传学
基因型
遗传多样性
计算机科学
医学
物理
人工智能
环境卫生
热力学
图像(数学)
GenBank公司
人口
标识
DOI:10.22302/pptk.jur.jptk.v18i1.53
摘要
Assembling of new excellence high yielÂding and good quality tea clones was started from identification accession as gene sources, crossing design of parents, selection mother bushes and propagated vegetatively. Crossing beetwen two parent clones which near or remote genetic relationship in tea will failed. Assessment of genetic relationship clone accession was done using secondary datas from description of first and second tea clone geneÂration which cultivated in Indonesia. Data of yield potentials and main chemical comÂpound of quality among others catechine, gallat cateÂchine, catechine gallo and cafeine were anaÂlysed using biplot and cluster analysis. The results showed that no correllation beetwen main chemical compound of quality and yield potentials. Biplot with two dimensions could be explained 92,5% variation of five characters and showed that yield has the highest and catechine the smallest variances. The first geneÂration of tea clones was separated to second at the 46,79% similarity levels. At the 15,60% similarity levels, there were six clusters. GMB 1, GMB 2, GMB 6, GMB 9, and GMB 10 clones were in one cluster was caused of they had high of yield and catechine. GMB 4 and GMB 5 had similarity on medium yields, GMB 7 and GMB 11 had similarity on medium catechine and the highest yield, and GMB 3 and GMB 8 had similarity on low catechine. PS 1 with the lowest catechine gallo was separated to the others. The sixth cluster were SA 40, Kiara 8, SA 35, RB 3, and Cin 143 were characterized by low catechine and yields.Â
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