埃塞俄比亚南部阿拉比卡咖啡(Coffea Arabica L.)基因型的生化成分变化

IF 1.5 Q2 AGRONOMY
Meseret Degefa, S. Alamerew, A. Mohammed, Adeba Gemechu
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引用次数: 1

摘要

咖啡(Coffea arabica L.)由于其强大的药用和营养特性以及热量价值,为使用者提供了多种健康益处。目前在埃塞俄比亚南部种植的咖啡基因型中,绿豆的接近成分多样性尚不清楚。这项研究的主要目标是确定咖啡基因型中绿豆接近成分的变异性,并观察绿豆接近属性之间是否存在任何关系。因此,在金马大学农业兽医学院(JUCAVM)进行了一项营养实验室实验。使用增强设计,共检查了104个条目,其中包括100份来自埃塞俄比亚南部的材料和四份标准检查。每个登录都有关于绿豆的07个近似组成参数的数据。方差分析显示,在所考虑的大多数性状上,所检测的材料之间存在显著差异(P<0.05),并且在几个性状上检测到大范围的变异,表明咖啡种质材料具有较高的遗传变异性。根据研究结果,咖啡豆含有粗蛋白质(6.93至10.14%)、总脂质(8.89至16.08%)、粗灰分(2.51至5.47%)、粗纤维(6.79至22.25%)、干物质(89.08至91.63%)、碳水化合物(40.65至59.38%)和热值(307.39至382.77 k/卡路里)。将104份阿拉比卡咖啡材料按20份(19.23%)、21份(20.19%)、39份(37.50%)、12份(11.54%)、04份(3.85%)、03份(2.88%)、02份(1.92%)、01份(0.96%)、01项(0.96%和01项(096%)分为10个不同的类群。大多数类群间距离存在显著差异,表明多样性存在,可以通过选择和杂交加以利用。团簇III和X具有最大的团簇间距离(D2 = 344.16),然后是簇II和X(D2 = 236.33)、VII和X(D2 = 199.04),以及簇VI和I(D2 = 106.25)。团簇I和IV具有最小的团簇间距离(D2 = 10.09),然后是II和IV(D2 = 10.66),以及I和VI(D2 = 11.03)。特征值大于1的前三个主成分解释了71.84%的总体变化。总的来说,基因型在绿豆的近端组成上存在差异,可以作为基因源来培育具有适当生化组成的未来绿豆品种。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Biochemical Composition Variation among Southern Ethiopian Arabica Coffee (Coffea arabica L.) Genotypes
Coffee (Coffea arabica L.) provides several health benefits to users due to its strong medicinal and nutritional properties and caloric value. Green bean proximate composition diversity is unknown among the coffee genotypes now cultivated in southern Ethiopia. The study’s major goals are to determine the variability in green bean proximate composition among coffee genotypes and to see if there are any relationships between green bean proximate attributes. Therefore, a nutritional laboratory experiment was carried out at Jimma University College of Agriculture and Veterinary Medicine (JUCAVM). Using the augmented design, a total of 104 entries were examined, including 100 accessions from southern Ethiopia and four standard checks. Each accession had data on 07 proximate composition parameters of green beans. The presence of significant ( P < 0.05 ) differences among the examined accessions for most of the traits considered was revealed by analysis of variance, and a wide range of variation was detected for several traits, indicating that the coffee germplasm accessions have high genetic variability. According to the findings, coffee beans have crude protein (6.93 to 10.14%), total lipids (8.89 to 16.08%), crude ash (2.51–5.47%), crude fiber (6.79–22.25%), dry matter (89.08 to 91.63%), carbohydrate (40.65 to 59.38%), and caloric value (307.39–382.77 k/calories). One hundred four arabica coffee accessions were grouped into ten distinct groups by 20 (19.23%), 21 (20.19%), 39 (37.50%), 12 (11.54%), 04 (3.85%), 03 (2.88%), 02 (1.92%), 01 (0.96%), 01 (0.96%), and 01 (0.96%). The majority of intercluster distances were significantly varied, showing that diversity exists that can be utilized through selection and hybridization. Clusters III and X had the greatest intercluster distance (D2 = 344.16), followed by clusters II and X (D2 = 236.33), VII and X (D2 = 199.04), and clusters VI and I (D2 = 106.25). Clusters I and IV had the smallest intercluster distance (D2 = 10.09), followed by II and IV (D2 = 10.66), and I and VI (D2 = 11.03). The first three principal components with eigenvalues larger than one explained 71.84% of the overall variation. In general, genotypes differed in green bean proximate composition and might be used as gene sources to generate future green bean varieties with appropriate biochemical composition.
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来源期刊
CiteScore
3.60
自引率
5.30%
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