«Previous Article|Table of Contents|Next Article»

¡¶±±·½Ô°ÒÕ¡·[ISSN:1001-0009/CN:23-1247/S]

Issue:

2016Äê02

Page:

33-36

Research Field:

Publishing date:

Info

Title:

Study on the Relation of Flower Bud Differentiation of Rubus crataegifolius Bge.With Temperature and Sunshine Duration Change

Author(s):

ZHANG Zhenghai; ZHANG Yue; ZHANG Yayu; LI Aimin; LI Yuhuan; CHEN Xiaodan

(Institute of Special Economic Animal and Plant Science£¬Chinese Academy of Agricultural Sciences£¬Changchun£¬Jilin 130112)

Keywords:

Rubus crataegifolius Bge.; flower bud differentiation; temperature; sunshine duration

PACS:

-

DOI:

10.11937/bfyy.201602009

Abstract:

This study aim to investigate the relation of the flower bud development process of R.crataegifoliusª« Bge.with annual temperature and sunshine duration change using median longitudinal paraffin sections.The results showed that the flower bud differentiation stages had corresponding relationship with temperature and sunshine duration£¬new plant was mainly for vegetative growth from May to late July£¬during this period of time£¬axillary bud produced seven bracts.Inflorescence differentiated from early August£¬flower bud primordium differentiated from mid-August£¬most of the flower bud primordium differentiated at September£¬sepal primordium differentiated from late September£¬flower bud stopped differentiation at sepal stage before into dormancy.After about five months of dormancy£¬floral organs differentiated from early April in the next year£¬which completed at late April to early May.

References:

 

[1]Öйú¿ÆѧԺÖйúÖ²ÎïÖ¾±à¼­Î¯Ô±»á.ÖйúÖ²ÎïÖ¾[M].±±¾©:¿Æѧ³ö°æÉç,1985:117.

[2]ÕÔΰΰ,Àî°®Ãñ,ÕÅÕýº£,µÈ.Ò°ÉúÊ÷Ý®ÅîÌ{Ðü¹³×Ó¹âºÏÌØÐÔÑо¿[J].Öйú¹ûÊ÷,2014(1):28-30.

[3]¶Å¸Ö¾ü£¬ÁÖº£ºì£¬ÐíÆôÌ©£¬µÈ.ÍÐÅ̸ùÌáÈ¡Îï¶Ô²»Í¬Ï¸°ûµÄÓ°Ïì[J].ÖйúÒ©¿Æ´óѧѧ±¨£¬2001£¬32£¨6£©£º468ª²470.

[4]NI W H,ZHANG X,BI H T,et al.Preparation of a glucan from the roots of Rubus crataegifoliusª« Bge.and its immunological activity[J].Carbohydrate Research,2009,344:2512ª²2518.

[5]´úººÆ¼,¶Åäì,ÕÅÓ¨Ó¨.Ê÷ݮԽ¶¬ÐÔÑо¿[J].¹ûÊ÷ѧ±¨,2012,29(2):231-234.

[6]ÕÅÓ¨Ó¨,´úººÆ¼,ÁõÕò¶«.Ê÷ݮƷÖÖÓëÅ£µþ¶Ç¼°Ã©Ý®ÖÖ¼äÔÓ½»Ñо¿[J].¹ûÊ÷ѧ±¨,2009,26(6)£º899-901.

[7]ÀîÓñ÷,¹ùÐÞÎä,´úººÆ¼.Å£µþ¶ÇÓ×Ãç¶ÔÑμîвÆȵÄÉúÀíÏìÓ¦¼°ÆäÄÍÑÎãÐÖµ[J].Î÷±±Ö²Îïѧ±¨£¬2014,34(6):1213-1219.

[8]CHAO Y H£¬THOMAS M£¬HEINZ S.The origin of floral morphological novelties[J].FEBS Letters,2004,567:147-151.

[9]KOORNNEEF M£¬ALONSO-BLANCO C£¬PEETERS A J M,et al.Genetic control of flowering time in Arabidopsisª«[J].Annu Rev Plant Physiol Plant Mol Biol,1998,49£º345-370.

[10]¤AARAKI T.Transition from vegetative to reproductive phase[J].Curr Opin Plant Biol,2001(4):63-68.

[11]¤ALEE J H£¬YOO S J£¬PARK S H£¬et al.Role of SVP in the control of flowering time by ambient temperature in Arabidopsisª«[J].Genes Dev,2007,21:397-402.

[12]¤ACORBESIER L£¬COUPLAND G.Photoperiodic flowering of Arabidopsisª«£ºintegrating genetic and physiological approaches to characterization of the floral stimulus[J].Plant Cell Environ,2005,28£º54-66.

[13]¤ASEARLE L£¬COUPLAND G.Induction of flowering by seasonal changes in photoperiod[J].EMBO J,2004,23:1217-1222.

[14]¤AYANOVSKY M J£¬KAY S A.Living by the calendar£ºhow plants know when to flower[J].Nat Rev Mol Cell Biol,2003(4):265-275.

Memo

Memo:

-

Common functions

Last Update: 2016-03-17