Wan Xianqin, Sun Dongchan, Nie Yanmei, Wang Qimei, Zhang Tianfeng, Wang Rui, Li Feifei, Zhao Xudong, Gao Chao
Institute for Forest Resources and Environment of Guizhou/Key Laboratory of Forest Cultivation in Plateau Mountain of Guizhou Province/College of Forestry, Guizhou University, Guiyang, 550025, China.
Postdoctoral Research Station, Guizhou Yuping Qianlin Forestry Investment Co., LTD., Tongren, 554300, China.
Sci Rep. 2024 Aug 8;14(1):18440. doi: 10.1038/s41598-024-69454-9.
Camellia oleifera, a significant woody edible oil species, was examined using 48 germplasm resources from high-altitude regions in East Guizhou Province, China, to analyze fruit quality. The analysis aimed to identify high-performance germplasm, providing theoretical and research foundations for selecting and cross-breeding superior C. oleifera varieties in these regions. Fifteen primary traits of mature fruits were measured and analyzed, including four phenotypic traits (single fruit weight, transverse diameter, longitudinal diameter, peel thickness) and eleven quality traits (fresh seed yield rate, dry seed yield rate, dry kernel yield rate, seed kernel oil content, palmitic acid, palmitoleic acid, stearic acid, oleic acid, linoleic acid, α-linolenic acid, cis-11-eicosenoic acid). A comprehensive evaluation employing cluster and principal component analyses (PCA) was conducted. The cluster analysis categorized the germplasms into five groups at a squared Euclidean distance of 14, with the first category comprising 17 germplasms, the second 28, and the third, fourth, and fifth each containing one. PCA reduced the 15 traits to five principal components (PCs), with PC1 having the highest eigenvalue of 3.57 and a contribution rate of 23.8%, mainly representing phenotypic traits. PC2, contributing 20.44%, represented linoleic acid, while PC3, PC4, and PC5, with contribution rates of 12.99%, 9.13%, and 7.45% respectively, predominantly represented seed kernel oil content, fresh seed yield, and palmitoleic acid. Employing a weighted sum method, a comprehensive evaluation function was developed to calculate total scores for each superior individual, forming the basis for rankings and selections. Notable variability was detected in single fruit weight, peel thickness, and fresh and dry seed yields, while oleic acid exhibited the lowest coefficient of variation. Dry seed yield showed a robust positive correlation with seed kernel oil content and the concentrations of palmitic and linoleic acids, whereas seed kernel oil content was inversely correlated with cis-11-eicosenoic acid levels. Five PCs with eigenvalues > 1 were identified, highlighting the top ten superior individuals: QD (Qian Dong: the code of eastern Guizhou Province)-33 > QD-34 > QD-48 > QD-38 > QD-27 > QD-15 > QD-35 > QD-5 > QD-14 > QD-36. Thus, the 48 C. oleifera germplasms from East Guizhou's high-altitude areas demonstrate significant potential for enhancing traits such as single fruit weight, peel thickness, and fresh and dry seed yields. Specifically, QD-33, QD-34, and QD-48 exhibited superior comprehensive performance, designating them as prime candidates for variety selection and breeding.
油茶是一种重要的木本食用油料树种,本研究利用来自中国贵州省东部高海拔地区的48份种质资源对其进行果实品质分析。该分析旨在鉴定高性能种质,为这些地区优良油茶品种的选育和杂交育种提供理论和研究基础。对成熟果实的15个主要性状进行了测量和分析,包括4个表型性状(单果重、横径、纵径、果皮厚度)和11个品质性状(鲜籽出籽率、干籽出籽率、干仁出仁率、种仁含油率、棕榈酸、棕榈油酸、硬脂酸、油酸、亚油酸、α-亚麻酸、顺-11-二十碳烯酸)。采用聚类分析和主成分分析(PCA)进行综合评价。聚类分析在欧氏距离平方为14时将种质分为5组,第一类包含17份种质,第二类包含28份,第三、第四和第五类各包含1份。主成分分析将15个性状简化为5个主成分(PC),PC1的特征值最高,为3.57,贡献率为23.8%,主要代表表型性状。PC2的贡献率为20.44%,代表亚油酸,而PC3、PC4和PC5的贡献率分别为12.99%、9.13%和7.45%,主要代表种仁含油率、鲜籽产量和棕榈油酸。采用加权求和法建立综合评价函数,计算每个优良单株的总分,作为排名和选择的依据。单果重、果皮厚度以及鲜籽和干籽产量存在显著差异,而油酸的变异系数最低。干籽产量与种仁含油率以及棕榈酸和亚油酸的含量呈显著正相关,而种仁含油率与顺-11-二十碳烯酸水平呈负相关。鉴定出5个特征值大于1的主成分,筛选出十大优良单株:黔东(贵州东部的代码)-33>黔东-34>黔东-48>黔东-38>黔东-27>黔东-15>黔东-35>黔东-5>黔东-14>黔东-36。因此,来自贵州东部高海拔地区的48份油茶种质在提高单果重、果皮厚度以及鲜籽和干籽产量等性状方面具有显著潜力。具体而言,黔东-33、黔东-34和黔东-48表现出卓越的综合性能,被指定为品种选择和育种的主要候选材料。
