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堇菜属两个不同倍性物种在不同光周期下的花型变化及形态差异

王杜丽1#, 贺佳思2#, 孙坤1, 李巧峡1*   

  1. 1. 西北师范大学生命科学学院, 兰州 730070; 2. 西北师范大学地理与环境科学学院, 兰州 730070
  • 收稿日期:2026-02-02 修回日期:2026-05-09 接受日期:2026-05-22
  • 通讯作者: 李巧峡
  • 基金资助:
    赤霉素与B类MADS-box基因互作调控紫花地丁两型花进化发育机制研究(32360059)

Flower type changes and morphological differences of two different ploidy species in Viola under different photoperiods

Duli Wang1#, Jiasi He2#, Kun Sun1, Qiaoxia Li1*   

  1. 1 College of Life Sciences, Northwest Normal University, Lanzhou 730070, China 

    2 College of Geography and Environmental Science, Northwest Normal University, Lanzhou 730070, China

  • Received:2026-02-02 Revised:2026-05-09 Accepted:2026-05-22
  • Contact: Qiaoxia Li

摘要: 堇菜属(Viola)物种紫花地丁(V. philippica)与早开堇菜(Viola prionantha)为典型的两型闭花受精植物, 同一植株均可诱导开放花(chasmogamous flower, CH花)与闭锁花(cleistogamous flower, CL花)两种花型, 光周期是诱导其两型花发育的关键生态因子。紫花地丁为二倍体, 早开堇菜为四倍体, 目前二者倍性与形态学的相关性尚不清楚。本研究以紫花地丁和早开堇菜为材料, 分别培养于10 h、12 h和16 h光照条件下, 利用染色体核型分析及显微观察等实验方法, 开展2个不同倍性物种在不同光周期处理下的花型响应变化研究。结果表明, 紫花地丁与早开堇菜分别有24条染色体(2n = 24)和48条染色体(4n = 48); 光周期虽调控这两种植物两型花的形成, 但存在一定差异, 在短日照(10 h)与中日照(12 h)下, 早开堇菜开放花的比率低于紫花地丁, 而在长日照(16 h)下, 早开堇菜形成完全闭锁花, 紫花地丁仍保留少量偏向闭锁花的过渡闭锁花。因此, 倍性差异可能影响了两个物种不同光周期下的花型变化, 四倍体基因剂量效应可能会强化光周期信号调控响应。此外, 四倍体早开堇菜相对于二倍体紫花地丁, 营养与繁殖器官均较大, 且气孔孔径也较大, 而气孔密度较小, 这些特征可作为两个物种鉴定的辅助指标。该研究为堇菜属多倍体与繁育系统协同进化及物种鉴别研究提供了依据。

关键词: 堇菜属, 倍性, 两型花, 光周期调控, 细胞学形态

Abstract

Aims: Viola philippica and V. prionantha are typical cleistogamous dimorphic flowers. The same plant can induce two flower types: chasmogamous (CH) flower and cleistogamous (CL) flower. Photoperiod plays an important role in the dimorphic flower development. Viola. philippica is diploid, while V. prionantha is tetraploid. At present, the correlation between chromosome ploidy and morphology remains unclear. 

Methods: Viola philippica and V. prionantha were grown under 10 h, 12 h and 16 h daylight, respectively. Experimental methods such as karyotype analysis and microscopic observation were utilized, which were employed to investigate the flower type changes between diploid V. philippica and tetraploid V. prionantha under different photoperiods. Chromosomal karyotype analysis was performed via carbol fuchsin staining and observed under optical microscope. Dissection and photography were conducted under a stereomicroscope to count the numbers of CH, intermediate CL and CL flower buds under different photoperiods. Morphological indices of leaves, flower buds and fruits were measured with a vernier caliper. Additionally, the number and size of stomata were counted by the epidermal peeling method under optical microscope. Seeds weight was determined with an electronic balance. 

Results: Viola philippica and V. prionantha, have 24 chromosomes (2n = 24) and 48 chromosomes (4n = 48), respectively. Although photoperiods regulated the development of dimorphic flowers in Viola, there were certain differences. Under short daylight (10 h) and medium daylight (12 h) conditions, the ratio of CH flowers in V. prionantha was lower than that in V. philippica. However, under long daylight conditions (16 h), V. prionantha produced only complete CL flowers, while V. philippica still retained a small amount of intermediate CL flowers that were more inclined towards CL flowers. In addition, the nutritional and reproductive organs of tetraploid V. prionantha were significantly larger than those of diploid V. philippica. Moreover, the pore diameter of the stomata of V. prionantha was significantly larger than that of V. philippica, while the pore density was significantly lower than that of V. philippica. These characteristics can serve as auxiliary indicators for the identification of the two species. 

Conclusion: The ploidy difference may have affected the flower type changes of V. philippica and V. prionantha under different photoperiods. The tetraploid gene dose effect in V. prionantha may have strengthened the regulatory response to photoperiodic signals. This study provides a basis for the research on the co-evolution of polyploids and breeding systems, and the identification of Viola species.

Key words: Viola, ploidy, dimorphic flowers, photoperiodic regulation, cytological morphology