海棠品种花色性状评价

doi:10.16420/j.issn.0513-353x.2025-0254

摘要/Abstract

摘要： 通过对100个观赏海棠品种大蕾期和盛花期的色彩进行数字化分析，探索海棠的花色分类，揭示海棠开花进程中花色的变化规律。结果表明，盛花期色彩丰富度高，不同时期海棠花色动态呈现出总体上向高亮度值（L^*）、低红度值（a^*）、低黄度值（b^*）、低饱和度（C^*）和低色调角（h^°）方向发生偏移，表明开花过程中出现色彩淡化现象。盛花期100个海棠品种可分为5大色系：白色系（26%）、粉白色系（27%）、粉色系（21%）、红色系（10%）和紫红色系（16%），不同色系的色彩表型特征较为明显，表明L^*、a^*、b^*可以作为观赏海棠花色划分标准。根据L^*、C^*值进一步将5个色系分为两大类群：第Ⅰ类群（白色系、粉白色系和粉色系）和第Ⅱ类群（紫红色系和红色系）。本研究中海棠观赏性评价的依据是白色系L^*值越大且C^*值越小，观赏效果更佳；其余色系则是L^*值越大且C^*值越大，观赏效果更佳。基于此，在L^*值、C^*值二维分布图中根据黄金分割线法筛选出19个色彩表现优秀、观赏价值高的海棠品种。

关键词: 观赏海棠, 花色参数, 数量分类

Abstract:

This study investigated the dynamic distribution of flower color in 100 cultivars of ornamental crabapple（Malus spp.）across different developmental stages. Digital color analysis was conducted during the large bud stage and full blooming stage to explore flower color classification and reveal the variation patterns of color during flowering. The results indicated that flower color richness was highest at full bloom. Throughout the flowering stages，the color dynamics of ornamental crabapple generally shifted toward higher lightness（L^*），lower redness（a^*），lower yellowness（b^*），and lower chroma（C^*）and hue angle（h^°），indicating a progressive color fading during the flowering process. At full bloom，the 100 cultivars could be categorized into five major color groups：white（26%），pink-white（27%），pink（21%），red（10%），and purplish-red（16%）. Distinct phenotypic differences among these groups suggest that L^*，a^*，and b^* values can serve as effective criteria for flower color classification in ornamental crabapple. Furthermore，based on L^* and C^* values，these five color groups were divided into two broader clusters：ClusterⅠ（white，pink-white，and pink）and ClusterⅡ（purplish-red and red）. The ornamental evaluation criteria proposed in this study indicate that for white-flowered cultivars，higher L^* and lower C^* values correspond to better ornamental performance，whereas for other color groups，superior ornamental value is associated with both high L^* and high C^* values. Based on these criteria and using the golden-section method in a two-dimensional L^*-C^* distribution plot，19 cultivars with outstanding floral display and high ornamental value were identified.

Key words: ornamental crabapple, flower color parameter, quantitative classification

周若苗, 沈义婷, 张往祥, 孙甜甜, 范月嵘. 海棠品种花色性状评价[J]. 园艺学报, 2026, 53(3): 723-734.

ZHOU Ruomiao, SHEN Yiting, ZHANG Wangxiang, SUN Tiantian, FAN Yuerong. Evaluation of Flower Color Traits in Cultivars of Ornamental Crabapple[J]. Acta Horticulturae Sinica, 2026, 53(3): 723-734.

图/表 7

表1 供试海棠品种基本信息

Table 1 Basic information of ornamental crabapple cultivars used in the study

图1 不同开花阶段观赏海棠品种群CIELab色彩空间动态分布格局（A）及花色在L*、a*、b*、C*、h° 频率分布图（B ~ F）

Fig. 1 Dynamic changes in the CIELab color space（A）and frequency distribution of color parameters at L*，a*，b*，C*，h°（B-F）in ornamental crabapple cultivars during different flowering stages

图2 100个海棠品种盛花期花色聚类分析 1 ~ 100代表海棠品种，详见表1

Fig. 2 Clustering analysis of flower color in 100 ornamental crabapple cultivars at full bloom Numbers 1-100 correspond to the ornamental crabapple cultivars listed in Table 1

表2 海棠5大色系的CIELab颜色空间参数表

Table 2 CIELab color parameters of the five major flower color groups in ornamental crabapple

色系 Color group	数量 Number	百分比/% Percentage	亮度 L^*			饱和度 C^*
白色系 White	26	26	81.67 ~ 93.67	-2.33 ~ 2.67	-4.33 ~ 0.67	0.33 ~ 4.64	-83.66 ~ 85.60
粉白色系 Pink white	27	27	54.00 ~ 75.67	17.67 ~ 50.67	-14.67 ~-1.33	19.83 ~ 52.39	-28.78 ~-2.90
粉色系 Pink	21	21	38.00 ~ 53.33	49.67 ~ 65.33	-7.33 ~ 11.00	49.67 ~ 65.46	-7.46 ~ 11.05
红色系 Red	10	10	32.00 ~ 42.00	53.67 ~ 65.67	22.33 ~ 42.33	60.08 ~ 71.41	19.52 ~ 37.42
紫红色系 Purplish red	16	16	24.00 ~ 39.33	44.33 ~ 64.33	9.00 ~ 22.33	46.11 ~ 66.54	10.92 ~ 24.07

图3 观赏海棠不同色系L*、a*、b*值箱线图

Fig. 3 The box plots of L*，a* and b* values of different colors of ornamental crabapple

图4 海棠不同色系a*、b*值二维（A）和L*、a*、b*三维（B）分布图

Fig. 4 Two dimensional distribution map of a* and b* values in different color schemes of crabapple（A）and three-dimensional distribution map of L*，a*，and b*（B）

图5 海棠不同色系品种L*值与C*值关系（A）及基于黄金分割线海棠不同色系散点分布图（B ~ F）

Fig. 5 Correlation between L* and C* values across different flower color groups of ornamental crabapple（A）and corresponding scatter plots based on the golden section line（B-F）

参考文献 26

[1]	Ding Suqin, Sun Yi, Li Xi, Tang Dongqin, Shi Yimin. 2019. Study on the numerical classification of flower color phenotype in Freesia hybrida. Northern Horticulture,(4):85-91. (in Chinese)
	丁苏芹, 孙忆, 李玺, 唐东芹, 史益敏. 2019. 小苍兰品种花色表型数量分类研究. 北方园艺,(4):85-91.
[2]	Dogan A, Uyak C, Keskin N, Akcay A, Sensoy R I G, Ercisli S. 2018. Grapevine leaf area measurements by using pixel values. Comptes Rendus De L Academie Bulgare Des Sciences, 71 (6):772-779. doi: 10.7546/CRABS.2018.06.07
[3]	Li Nan, Tian Xiaoxia, Mao Peichun, Zheng Mingli, Meng Lin, Yun Lan. 2024. Phenotype and pigment analysis of flower organs of Iris lactea var. chinensis. Bulletin of Botanical Research, 44 (1):51-61. (in Chinese)
	李楠, 田小霞, 毛培春, 郑明利, 孟林, 云岚. 2024. 马蔺花器官表型特征及色素分析. 植物研究, 44 (1):51-61. doi: 10.7525/j.issn.1673-5102.2024.01.008
[4]	Li Pu, Wang Ping, Shen Xiangqun, Zhang Yujing, Li Na, Wu Zhigang. 2012. Analysis on tonal value of Tagetes erecta L. petal color with HSB in breeding. Southwest China Journal of Agricultural Sciences, 25 (5):1856-1859. (in Chinese)
	李浦, 王平, 沈向群, 张玉静, 李娜, 吴志刚. 2012. HSB色值法对万寿菊花色色彩取值研究. 西南农业学报, 25 (5):1856-1859.
[5]	Liu Yiping, Wu Fangfang, He Dan, Zhuang Yuan, Kong Dezheng. 2020. Numerical classification of lotus cultivars based on flower color phenotype. Journal of Zhejiang University(Agriculture and Life Sciences), 46 (3):319-326. (in Chinese)
	刘艺平, 吴芳芳, 贺丹, 庄苑, 孔德政. 2020. 基于花色表型的荷花品种数量分类. 浙江大学学报(农业与生命科学版), 46 (3):319-326.
[6]	Lü Guifang, Zang Yunping, Tao Zhengguo, Liu Cuicui, Zhang Huali, Bao Manzhu, He Yanhong. 2025. The quantitative classification of flower color phenotype and genetic study for population flower color in marigold. Acta Horticulturae Sinica, 52 (3):646-654. (in Chinese) doi: 10.16420/j.issn.0513-353x.2024-0351
	吕桂芳, 臧运平, 陶正国, 刘翠翠, 张华丽, 包满珠, 何燕红. 2025. 万寿菊花色表型数量分类与群体花色遗传研究. 园艺学报, 52 (3):646-654. doi: 10.16420/j.issn.0513-353x.2024-0351
[7]	Man Liting, Zhang Jinmei, Liu Guiying. 2022. Establishment and application of ornamental evaluation system for Malus spp. varieties based on analytic hierarchy process. Northern Horticulture,(23):61-67. (in Chinese)
	满丽婷, 张锦梅, 刘桂英. 2022. 基于层次分析法的海棠品种观赏性评价体系构建与应用. 北方园艺,(23):61-67.
[8]	Ouyang Shasha, Cao Shoujin, Xiong Ying, Wu Sizheng, Yu Lin, Bai Wenfu, Nie Dongling, Li Jianhui, Yan Jiawen. 2024. Measurement of color values and active substances of different flowering cherry petals and analysis of antioxidant capacity. Journal of Central South University of Forestry & Technology, 44 (2):166-173,183. (in Chinese)
	欧阳莎莎, 曹受金, 熊颖, 吴思政, 禹霖, 柏文富, 聂东伶, 李建挥, 严佳文. 2024. 不同樱花花瓣色值和花色素测定及抗氧化能力分析. 中南林业科技大学学报, 44 (2):166-173,183.
[9]	Qiu Jing. 2011. Study on the color evaluation technology of ornamental crabapple cultivar group[M. D. Dissertation]. Nanjing: Nanjing Forestry University. (in Chinese)
	裘靓. 2011. 观赏海棠品种群色彩评价技术研究[硕士论文]. 南京: 南京林业大学.
[10]	Shen Yiqian, Zhang Wangxiang, Li Shuqing. 2024. Color dynamic change regulation of Begonia flower period based on matlab image recognition. Non-wood Forest Research, 42 (4):297-308. (in Chinese)
	申轶乾, 张往祥, 李舒情. 2024. 基于Matlab图像识别的海棠花期色彩动态变化规律. 经济林研究, 42 (4):297-308.
[11]	Tarafdar A, Shahi N C, Singh A. 2020. Color assessment of freeze‐dried mushrooms using Photoshop and optimization with genetic algorithm. Journal of Food Process Engineering, 43 (1):e12920. doi: 10.1111/jfpe.v43.1 URL
[12]	Wang G J, Lv X G, Kuang S T, Chen H L, Peng J. 2011. Study on fruits preservation in view of surface glossiness. Advanced Materials Research,338:521-524.
[13]	Wang Jing, Xu Leifeng, Wang Ling, Qi Xianyu, Song Meng, Cao Yuwei, He Guoren, Tang Yuchao, Yang Panpan, Ming Jun. 2022. The numerical classification of flower color phenotype in lily. Acta Horticulturae Sinica, 49 (3):571-580. (in Chinese) doi: 10.16420/j.issn.0513-353x.2020-1029
	王静, 徐雷锋, 王令, 祁先宇, 宋蒙, 曹雨薇, 何国仁, 唐玉超, 杨盼盼, 明军. 2022. 百合花色表型数量分类研究. 园艺学报, 49 (3):571-580. doi: 10.16420/j.issn.0513-353x.2020-1029
[14]	Wang Qinghua, Lin Jianlong, Ma Bingyao, Hu Dingmeng, Dun Xingjian, Gao Jia, Zhang Xinwei, Wang Xia, Du Zhenyu, Xu Jingwei. 2024. Advances in germplasm resources and breeding of crabapple. Journal of Shandong Forestry Science and Technology, 54 (2):114-118. (in Chinese)
	王清华, 林建龙, 马丙尧, 胡丁猛, 囤兴建, 高嘉, 张新慰, 王霞, 杜振宇, 许景伟. 2024. 海棠种质资源与育种研究进展. 山东林业科技, 54 (2):114-118.
[15]	Wang Shiyao, Zhang Guo, Yang Shucai, Jiang Shuanli, Wang Ruihua, Wang Jun. 2023. Numerical classification of Phalaenopsis flower colour based on phenotype. Chinese Journal of Tropical Crops, 44 (11):2227-2235. (in Chinese) doi: 10.3969/j.issn.1000-2561.2023.11.011
	王世尧, 张果, 杨书才, 蒋拴丽, 王瑞华, 王俊. 2023. 基于表型的蝴蝶兰花色数量分类. 热带作物学报, 44 (11):2227-2235. doi: 10.3969/j.issn.1000-2561.2023.11.011
[16]	Wang Yujiao, Gao Lan, Yang Yong, Yu Xiaonan. 2018. Numerical classification of peony cultivars based on flower color phenotype. Journal of Beijing Forestry University, 40 (7):96-103. (in Chinese)
	王玉蛟, 高岚, 杨勇, 于晓南. 2018. 基于花色表型的芍药品种数量分类研究. 北京林业大学学报, 40 (7):96-103.
[17]	Wu Fangfang, Miao Runtian, Wang Anyin, Li Xiaokang, He Dan, Zhang Man. 2021. Numerical classification of tree peony and herbaceous peony cultivars based on flower color phenotype. Northern Horticulture,(3):66-75. (in Chinese)
	吴芳芳, 苗润田, 汪安印, 李小康, 贺丹, 张曼. 2021. 基于花色表型的牡丹和芍药品种数量分类研究. 北方园艺,(3):66-75.
[18]	Xu B J, Chen Y X, Zhang W X, Zhang D L. 2021. ‘Luokeke Nueuroshi’crabapple. HortScience, 56 (10):1289-1290. doi: 10.21273/HORTSCI15989-21 URL
[19]	Xu Fangqi, Ke Lingjun, Yu Huiwen, Lu Luanmei. 2024. Analysis of flower color and pigment content of different species of Ixora chinensis. Fujian Science & Technology of Tropical Crops, 49 (3):30-33,36. (in Chinese)
	许芳祺, 柯玲俊, 余惠文, 陆銮眉. 2024. 不同龙船花的花色与色素含量分析. 福建热技, 49 (3):30-33,36.
[20]	Yin Hantai, Yin Junmei, Liao Yi, Lu Shunjiao, Li Chonghui. 2021. Phenotype classification based on flower color,pigment distribution and epidermal cell shape of Dendrobium hybrids. Acta Horticulturae Sinica, 48 (10):1907-1920. (in Chinese) doi: 10.16420/j.issn.0513-353x.2021-0406
	殷涵泰, 尹俊梅, 廖易, 陆顺教, 李崇晖. 2021. 基于秋石斛花朵颜色、色素分布及表皮细胞形态的表型分类. 园艺学报, 48 (10):1907-1920. doi: 10.16420/j.issn.0513-353x.2021-0406
[21]	Yu Zhicheng, He Xuejiao, Lin Xiuxiang, Chen Zhendong, Zou Longyun. 2022. Analysis of anthocyanin composition and color factors in five species of Melastoma. Journal of Tropical and Subtropical Botany, 30 (5):687-696. (in Chinese)
	余智城, 何雪娇, 林秀香, 陈振东, 邹龙运. 2022. 5种野牡丹属植物花色素成分及影响花色呈色因子分析. 热带亚热带植物学报, 30 (5):687-696.
[22]	Zhang Man, Zheng Yunbing, Fan Keke, Chen Junzhou, Shang Yuping, Liu Yiping, He Dan. 2019. Study on the colour changes of leaf and flower of ornamental crabapple in different periods. Journal of Henan Agricultural Sciences, 48 (5):106-112. (in Chinese)
	张曼, 郑云冰, 范可可, 陈军洲, 尚玉萍, 刘艺平, 贺丹. 2019. 不同时期观赏海棠叶色和花色变化规律研究. 河南农业科学, 48 (5):106-112.
[23]	Zhang Wangxiang, Jiang Zhihua, Qiu Jing, Wei Hongliang, Cao Fuliang. 2013. Studies on sequence dynamic distribution pattern of flower color parameters of ornamental crabapple. Acta Horticulturae Sinica, 40 (3):505-514. (in Chinese)
	张往祥, 江志华, 裘靓, 魏宏亮, 曹福亮. 2013. 观赏海棠花色时序动态分布格局研究. 园艺学报, 40 (3):505-514.
[24]	Zhang Zhifang, Yuan Lei, Cheng Nini, Liu Zongzhao, Chen Zhiqun. 2021. A new ornamental crabapple cultivar‘Fengguanhong’. Acta Horticulturae Sinica, 48 (S2):2979-2980. (in Chinese) doi: 10.16420/j.issn.0513-353x.2021-1019
	张志芳, 袁蕾, 成妮妮, 刘宗钊, 陈之群. 2021. 观赏海棠新品种‘凤冠红’. 园艺学报, 48 (S2):2979-2980.
[25]	Zhong Huaiqin, Chen Yuanquan, Huang Minling, Lin Bing, Ye Xiuxian, Wu Jianshe. 2009. The component and stability of anthocyanidins in petals of Freesia refracta cultivars. Journal of Tropical and Subtropical Botany, 17 (6):571-577. (in Chinese)
	钟淮钦, 陈源泉, 黄敏玲, 林兵, 叶秀仙, 吴建设. 2009. 小苍兰花色色素成分及稳定性分析. 热带亚热带植物学报, 17 (6):571-577.
[26]	Zhou T, Jiang H, Zhang W X, Zhang D L, Fan J J, Zhang Q Q, Wang G B, Cao F L. 2020. ‘Zi Dieer’crabapple. HortScience, 55 (2):272-274. doi: 10.21273/HORTSCI14590-19 URL