南京林业大学学报(自然科学版) ›› 2018, Vol. 42 ›› Issue (03): 37-44.doi: 10.3969/j.issn.1000-2006.201712046

• 专题报道(Ⅱ) • 上一篇    下一篇

3个观赏海棠半同胞家系子代叶色动态分析与初选

张 晶1,浦 静1,赵 聪1,姜文龙1,范俊俊1, 穆 茜1,杨祎凡1,王志东2,张往祥1,3*   

  1. 1.南方现代林业协同创新中心,南京林业大学林学院,江苏 南京 210037; 2.南京林业大学风景园林学院, 江苏 南京 210037; 3.扬州小苹果园艺有限公司,江苏 扬州 225200
  • 出版日期:2018-06-06 发布日期:2018-06-06
  • 基金资助:
    基金项目:江苏省科技计划项目(BE2017375-2); 江苏省农业科技自主创新资金项目(CX(16)1005-4-1) 第一作者:张晶(zhangj1991@njfu.edu.cn)。*通信作者:张往祥(malus2011@163.com),副教授。

Dynamic analysis and original selection of the leaf color of three ornamental crabapple progeny

ZHANG Jing1,PU Jing1, ZHAO Cong1, JIANG Wenlong1, FAN Junjun1, MU Qian1, YANG Yifan1, WANG Zhidong2, ZHANG Wangxiang1,3*   

  1. 1.Co-Innovation Center for the Sustainable Forestry in Southern China,College of Forestry,Nanjing Forestry University,Nanjing 210037,China; 2. College of Landscape Architecture,Nanjing Forestry University,Nanjing 210037,China; 3. Yangzhou Crabapple Horticulture Limited Company,Yangzhou 225200,China
  • Online:2018-06-06 Published:2018-06-06

摘要: 【目的】探讨观赏海棠自由授粉子代苗期叶色变异规律,为半同胞家系育种及海棠新品种选育提供参考。【方法】以3个绿叶观赏海棠品种(‘冬金'、‘冬红'和‘红珠宝')为母本的自由授粉半同胞家系子代为试材,采用Minolta色差仪对120株半同胞家系子代不同叶位叶片色彩进行动态测定,进行叶色动态变化研究及优选。【结果】①基于5—8月子代上叶位L*、C*、h°色彩参数进行CIELCH色空间动态分布图的构建,发现 ‘冬金' 家系子代叶色参数位点最为分散,叶色最为丰富,子代中出现母本不具有的亮绿色和红色叶片。②基于5月子代上位叶色彩参数(L*、C*、h°),构建叶色聚类分析图,发现在欧式距离19水平上可将子代划分为两大色系类群和 5 个子色系类群,即绿色系(包括褐绿色、深绿色和亮绿色)和红色系(包括紫红色和棕红色),其中绿色系占比92.5%。③基于聚类分析结果及色彩参数分别构建绿色系和红色系子代评价体系,绿色系中从高亮度、高饱和度及色彩稳定性角度优选出 ‘冬金' 家系的‘A03'、‘A09', ‘冬红' 家系的‘D21'和 ‘红珠宝' 家系的‘C10'、‘C26'、‘C29', 红色系从低色调角和色彩持续性角度优选出‘冬金' 家系的‘A37',优株叶色观赏性优于资源圃品种。【结论】通过自由授粉,观赏海棠半同胞子代群体遗传基础大大增加,叶色多样性得以提高; 以参数色空间作为优选评价方法,更为直观可视化,可用作观赏海棠实践生产及新品种选育等。

Abstract: 【Objective】In this study, the leaf color variation pattern of the open pollination progenies of the ornamental crabapple was studied to provide reference for half-siblings and breeding cultivars of ornamental crabapples. 【Method】Three green leaf ornamental crabapple cultivars(‘Winter Gold', ‘Winter Red' and ‘Red Jewel')and the female parent of the open-pollinated half-sib progenies were used as materials. The Minolta colorimeter was used for measuring the leaf color parameters of 120 half-sib progenies, optimizing the dynamic change of leaf color. 【Results】① Based on the L*, C* and h° color parameters of the upper leaf from May to August, the CIELCH color space dynamic distribution map was constructed. It was found that the leaf color parameter loci of ‘Winter Gold' half-sib progenies was the most dispersed as well as most abundant; bright green and red leaves were not present in the female parent. ② Based on the leaf color parameters(L*, C* and h°)of upper leaves in May, a leaf color clustering analysis was constructed. It was found that the half-sib progenies can be divided into two major color groups and five sub color groups at the Euclidean distance level of 19. The green group occupied the highest proportion(92.5%), which included the brown green sub group, dark green sub group, and bright green sub group. The red group included the purple and brown sub groups. ③ Based on the results of the cluster analysis and color parameters, the evaluation system for the green groups and red groups of the half-sib progenies, respectively, was constructed. Based on the high color brightness, high color chroma value, and high color stability, we found that ‘A03' and ‘A09' of ‘Winter Gold' half-sib progenies, ‘D21' of ‘Winter Red' half-sib progeny, and ‘C10', ‘C26' and ‘C29' of ‘Red Jewel' half-sib progenies were the pre-selection plants in green series. From the perspective of low hue angle and color continuity, we observed that the ‘A37' of ‘Winter Gold' half-sib progeny in the red groups had higher ornamental value of the pre-selection plants, compared with the other ornamental crabapple cultivars. 【Conclusion】Through open pollination, the genetic diversity of the half-sib progenies of ornamental crabapples has greatly increased, increasing the diversity of leaf color. The parameter color space has been used as the preferred evaluation method, which is more intuitive and visualized, and can be used as a practical method in the production of ornamental crabapples and breeding of new varieties.

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