Study on Flower Bud Morphological Differentiation of 'Tianxiang' Strawberry

文献类型: 外文期刊

第一作者: Lei, H. J.

作者: Lei, H. J.;Zhao, X. J.;Shen, X. J.;Li, T. H.;Zhang, Y. T.

作者机构:

关键词: strawberry;flower bud;morphological differentiation;paraffin section

期刊名称:VII INTERNATIONAL STRAWBERRY SYMPOSIUM

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: Flower bud differentiation is very important for the yield and quality of strawberry fruit. In order to identify flower bud development, the paraffin section method was adopted to observe the morphological differentiation of apical meristems of 'Tianxiang' strawberry (Fragaria x ananassa Duch.) runner plants in Beijing, 2009. The results showed that top flower bud differentiation lasted for about 44 days, might be divided into seven stages. On 15 September, the buds came into the primary differentiation stage, the apical points became semi-circular, broader, and nearly 70% of the buds started differentiation on 20 September. Then the inflorescence primordia were visible on the apical points, and about 60% of the buds went into the inflorescence primordium differentiation stage on 25 September. Thereafter, the sepal primordia appeared at the base of inflorescence primordia, 60% of the buds were in the sepal primordium differentiation stage by 1 October. On 6 October, in about 90% of the buds the petal primordia could be seen inside of sepal primordial. About 10 d later, the stamen primordia developed in around 80% of the buds. On 22 October, the pistil primordia appeared on the surface of the receptacles. The main pistil primordium differentiationstage was from 22 to 29 October, and about 70% of the buds had finished their pistil primordium differentiation on 29 October. At the end of sampling on 29 October, the secondary buds were mainly in the stamen primordium differentiation stage, and the tertiary buds were mainly in the petal primordium differentiation stage. Our results provided the details of flower bud development in 'Tianxiang' strawberry in Beijing, which will contribute to its production and management.

分类号: S6

  • 相关文献

[1]VARIATION OF SULFORAPHANE LEVELS IN BROCCOLI (BRASSICA OLERACEA VAR. ITALICA) DURING FLOWER DEVELOPMENT AND THE ROLE OF GENE AOP2. Li, Zhansheng,Liu, Yumei,Fang, Zhiyuan,Yang, Limei,Zhuang, Mu,Zhang, Yangyong,Sun, Peitian,Zhao, Wen.

[2]Transcriptome profiling reveals differentially expressed genes associated with wizened flower bud formation in Chinese pear (Pyrus bretschneideri Rehd.). Liu, Ya,Zhang, Hu Ping,Gu, Chao,Tao, Shu Tian,Qi, Kai Jie,Zhang, Shao Ling,Wang, Dong Sheng,Guo, Xian Ping.

[3]Circular Multi-Storied Culture Mode among Strawberry, Mushroom and Leaf Vegetables in Greenhouse. Zhong, Chuanfei,Zhang, Yuntao,Wang, Guixia,Dong, Jing,Chang, Linlin,Wang, Lina. 2011

[4]Genetically Transformed Strawberry (Fragaria x ananassa Duch.) with Cold-Inducible Transcription Factor CBF1. Jin, W. M.,Dong, J.,Liu, Y.,Zhang, Y. P.,Pan, Q. H.. 2009

[5]Study of Volatile Compound Contents in a Progeny Issued from Cross between 'Camarosa' and 'Benihoppe'. Wang, Guixia,Zhang, Yuntao,Dong, Jing,Zhong, Chuanfei,Chang, Linlin,Wang, Lina. 2011

[6]Inheritance of Fruit Characters in the Strawberry (Fragaria xananassa Duch.). Wang, Z. W.,Zhao, M. Z.,Yuan, J.,Qian, Y. M.,Wang, J.. 2014

[7]RdreB1BI enhances drought tolerance by activating AQP-related genes in transgenic strawberry. Gu, Xianbin,Gao, Zhihong,Yan, Yichao,Qiao, Yushan,Gu, Xianbin,Chen, Yahua,Wang, Xiuyun,Gu, Xianbin. 2017

[8]Study on the Production and Consumption of Strawberry in Beijing. Wang, L. N.,Zhang, Y. T.,Zhong, C. F.,Wang, G. X.,Dong, J.,Chang, L. L.. 2014

[9]Genome-wide identification and analysis of FK506-binding protein family gene family in strawberry (Fragaria x ananassa). Leng, Xiangpeng,Liu, Dan,Sun, Xin,Li, Yu,Mu, Qian,Zhu, Xudong,Li, Pengyu,Fang, Jinggui,Zhao, Mizhen. 2014

[10]Optimization of postharvest ultrasonic treatment of strawberry fruit. Cao, Shifeng,Hu, Zhichao,Pang, Bin. 2010

[11]The Study of the Irradiation Effect on Runner Plants of Strawberry with Co-60-Gamma Ray. Wu Weimin,Zhao Mizhen,Wang Zhuangwei,Qian Yaming,Yuan Ji. 2009

[12]Transgene expression in strawberries driven by a heterologous phloem-specific promoter. Zhao, Y,Liu, QZ,Davis, RE. 2004

[13]Near-Infrared Spectra Combining with CARS and SPA Algorithms to Screen the Variables and Samples for Quantitatively Determining the Soluble Solids Content in Strawberry. Li Jiang-bo,Guo Zhi-ming,Huang Wen-qian,Zhang Bao-hua,Zhao Chun-jiang. 2015

[14]EFFECT OF DIFFERENT RETAILING AND HOME PRESERVATION METHODS ON QUALITY OF STRAWBERRY AFTER FORCED-AIR COOLING AND LOW TEMPERATURE TRANSPORTATION. Yan, Can,Liu, Sheng,Jia, Li-e,Duan, Xiaoming,Wang, Da,Zhang, Xiaofang,Yan, Can,Zhang, Xiaofang. 2016

[15]Isolation of DNA-Methyltransferase Genes and Their Promoter Sequences from Strawberry (Fragaria x ananassa Duch.). Chang, Linlin,Zhang, Yuntao,Chang, Linlin,Zhang, Zhihong,Li, He,Yang, Yue,Dai, Hongyan. 2011

[16]PHENOLIC COMPOSITION AND ANTIOXIDANT CAPACITY OF NEWLY DEVELOPED STRAWBERRY LINES FROM BRITISH COLUMBIA AND QUEBEC. Ranieri, Marta,Khanizadeh, Shahrokh,Yu, Cui,Lv, Deguo,Yu, Cui,Ranieri, Marta,Zhang, Maojun,Charles, Marie Therese,Rekika, Djamila,Khanizadeh, Shahrokh,Zhang, Maojun,Tsao, Rong.

[17]Cryopreservation of in vitro cultured shoot tips of strawberry. Zhao, Mizhen,Wang, Zhuangwei,Su, Jiale,Qian, Yaming. 2006

[18]Dissipation Rates and Final Residues of Kresoxim-Methyl in Strawberry and Soil. Jia, Chunhong,Zhu, Xiaodan,Zhao, Ercheng,He, Min,Yu, Pingzhong,Chen, Li. 2013

[19]Effect of blue light treatment on fruit quality, antioxidant enzymes and radical-scavenging activity in strawberry fruit. Xu, Feng,Shi, Liyu,Chen, Wei,Yang, Zhenfeng,Cao, Shifeng,Su, Xinguo.

[20]A non-destructive method to predict polyphenol content in strawberry. Fan, Li,Dube, Claudine,Tremblay, Nicolas,Khanizadeh, Shahrokh,Fan, Li,Fang, Chengquan.

作者其他论文 更多>>

微信小程序