|Table of Contents|

Difference of Flower and Pod Organ Abscission and Its Correlation Analysis Between Main Agronomic Characters in Soybean in Northeast of China(PDF)

《大豆科学》[ISSN:1000-9841/CN:23-1227/S]

Issue:
2018年05期
Page:
730-735
Research Field:
Publishing date:

Info

Title:
Difference of Flower and Pod Organ Abscission and Its Correlation Analysis Between Main Agronomic Characters in Soybean in Northeast of China
Author(s):
SUN Xiao-huanWANG Yan-ping ZONG Chun-meiBAI Yan-fengQI Yu-xinWANG Xiao-meiREN Hai-xiangDU Wei-guang
(Mudanjiang Branch of Heilongjiang Academy of Agricultural Sciences/Mudanjiang Experiment Station of the National Center for Soybean Improvement,Mudanjiang 157041,China)
Keywords:
SoybeanFlower and pod organ abscissionGermplasm resourcesCorrelative analysis
PACS:
-
DOI:
10.11861/j.issn.1000-9841.2018.05.0730
Abstract:
The flower and pod organ abscission is one of the important factors affecting soybean yield. The 34 soybean germplasm resources in Northeast,were selected as experimental materials to study the difference of flower and pod organ abscission and its correlation with main agronomic characters. The results showed that there was abundant genetic diversity in flower pod organ abscission between different soybean germplasm in Northeast of China, the coefficient of variation of flower pod abscission rate was 24.37%, average of flower pod abscission number and average of flower pod abscission rate were 37.67,34.30%,and the range of variation were 11.33-92.57,16.29%-57.94%,respectively. The number of flower pod abscission and flower pod abscission rate increased gradually with the maturing period.The largest correlation coefficient among the main agronomic characters was the number of nodes of main stems(0.442),followed by plant height(0.423). The correlation of each trait and flower and pod abscission were determined in order to be nodes in main stem>plant height> weight per plant>seeds per plant>empty pod per plant>pods per plant >branches number. The results could provide basis for improving soybean yield and breeding new cultivated varieties.

References:

[1]Suzuki M, Fujino K, Nakamoto Y, et al. Fine mapping and development of DNA markers for the qPDH1 locus associated with pod dehiscence in soybean[J].Molecular Breeding,2010, 25(3):407-418.
[2]Bleecker A B, Patterson S E.Last exit:Senescence,abscission,and meristem arrest in Arabidopsis[J].Plant Cell,1997,9(7):1169-1179.
[3]王翔,陈晓博,李爱丽,等.植物器官脱落分子生物学研究进展[J].作物学报,2009,35(3):381-387.(Wang X,Chen X B,Li A L,et al.Advances in molecular biology study of plant organ abscission[J].Acta Agronomica Sinica,2009, 35(3): 381-387.)
[4]Lyu S W,Wu W G,Wang M H,et al.Genetic control of seed shattering during African rice domestication[J].Nature Plants,2018, 4:331-337.
[5]王欢,孙霞,岳岩磊,等.东北春大豆花荚脱落性状与SSR标记的关联分析[J].土壤与作物,2014,3(1):32-40.(Wang H, Sun X,Yue Y L,et al.Association mapping of flower and pod abscission with SSR markers in Northeast spring sowing soybeans[J].Soil and Crop,2014,3(1): 32-40.)
[6]徐琰,孙晓环,孙霞,等.大豆花荚脱落及单株荚数的QTL定位[J].土壤与作物,2015,4(2):25-30.(Xu Y,Sun X H,Sun X,et al,QTL mapping of flower and pod abscission and pod number per plant in soybean[J].Soil Crop,2015,4(2):25-30.)
[7]Wang X B,Li Y H,Zhang H W,et al. Evolution and association analysis of GmCYP78A10gene with seed size/weight and pod number in soybean[J].Molecular Biology Reports,2015,42(2): 489-496.
[8]向仕华,王吴彬,何庆元,等.多环境下野生大豆染色体片段代换系群体农艺性状相关QTL/片段的鉴定[J].中国农业科学,2015,48 (1):10-22. (Xiang S H,Wang W B, He Q Y, et al. Identification of QTL/segments related to agronomic traits using CSSL population under multiple environments[J]. Scientia Agricultura Sinica,2015,48(1):10-22.)
[9]Begum S N, Takeshi I. Effect of different concentrations of Figaron on production and abscission of reproductive organs,growth,and yield in soybean (Glycine max L.)[J].Field Crops Research,2002,78(1):41-45.)
[10]苏黎,董钻,宋书宏.大豆不同类型品种开花次序观察再报[J].杂粮作物, 2004, 2(24): 84-85.(Su L,Dong Z,Song S H. The second report of blooming sequence of different soybeans[J]. Rain Fed Crops,2004,2(24): 84-85.)
[11]赵双进,唐晓东,赵鑫,等.大豆开花落花及时空分布的观察研究[J].中国农业科学,2013,46(8):1543-1554.(Zhao S J, Tang X D, Zhao X, et al.Observation and research on the temporal and spatial distribution of flowering and flower dropping of soybean[J].Scientia Agricultura Sinica,2013,46(8): 1543-1554.)
[12]石连旋,刘立侠,朱长甫,等.不同株型大豆形态与花荚脱落率的研究[J].东北师大学报(自然科学版),2005,37(3): 81-84.( Shi L X, Liu L X, Zhu C F, et al. Studies on morpho,flower and pod abscission rate of different soybean plant -types [J].Journal of Northeast Normal University(Natural Science Edition),2005,37(3): 81-84.)
[13]宋书宏,董钻.不同大豆品种开花结荚习性比较[J].中国农业科学,2002(11):1420-1423.(Song S H,Dong Z.Comparative study on blooming sequence and podding habit of soybeans[J].Scientia Agricultura Sinica,2002(11):1420-1423.)
[14]章建新,李金霞,崔可夫,等.不同熟期大豆品种花荚形成和时空分布[J].新疆农业大学学报,2012,35(2):93-98. (Zhang J X,Li J X,Cui K F,et al.Formation of flower and pod and space-time distribution of soybean varieties in different maturation periods[J].Journal of Xinjiang Agricultural University,2012,35(2):93-98.)
[15]Fehr W R,Caviness C E,Burmood D T,et al.Stage of development descriptions for soybeans (Glycine max L. Merr.)[J].Crop Science,1971,11(6):929-931.
[16]胡润芳,林国强.菜用大豆落花落荚率与品种生育阶段的关系[J].中国农学通报,2009,25(20):116-117.(Hu R F,Ling G Q.The relationship between the flower and pod abscission rate of vegetable soybean and the reproductive stage of species[J].Chinese Agricultural Science Bulletin, 2009,25(20):116-117.)
[17]胡志辉,汪艳杰,陈禅友.喷施细胞分裂素对豇豆花荚脱落率及花荚酶活性的影响[J].植物科学学报,2016,34(3):439-445.(Hu Z H,Wang Y J,Chen C Y. Effects of spraying cytokinin on abscission rate and enzymic activity of flowers and pods of cowpea[J].Plant Science Journal,2016,34(3):439-445.)
[18]邱丽娟,常汝镇.大豆种质描述规范和数据标准[M].北京:中国农业出版社,2006:9-11.(Qiu L J. Chang R Z.Descriptors and date standard for soybean (Glycine max L.Merr.) [M].Beijing:Chinese Agricultural Press,2006:9-11.)
[19]刘来福,毛盛贤,黄远樟.作物数量遗传[M].北京:农业出版社,1984:112-113.( Liu L F, Mao S X, Huang Y Z. Crop quantitative genetics[M].Beijing:Agriculture Press,1984:112-113.)
[20]傅蒙蒙,王燕平,任海祥,等.东北春大豆熟期组的划分与地理分布[J].大豆科学,2016,35(2):181-192.(Fu M M,Wang Y P,Ren H X,et al. A study on criterion, identification and distribution of maturity groups for spring-sowing soybeans in Northeast China[J].Soybean Science,2016,35(2):181-192.)
[21]张勇,傅蒙蒙,杨兴勇,等.东北大豆种质群体在克山的表现及其潜在的育种意义[J].大豆科学,2016,35(6):881-889. (Zhang Y,Fu M M,Yang X Y,et al. Performance and breeding potential of the Northeast China soybean germplasm population in Keshan area[J].Soybean Science,2016,35(6):881-890. )
[22]程延喜,孙晓环,郑朝春,等.东北大豆种质群体在长春的表现及其潜在的育种意义[J].大豆科学,2017,36(2):165-173. (Cheng Y X,Sun X H, Zheng C C,et al.Performance and breeding potential of the Northeast China soybean germplasm population in Changchun area[J].Soybean Science,2017,36(2):165-173.)
[23]任海祥,白艳凤,王燕平,等.东北大豆种质群体在牡丹江的表现及其潜在的育种意义[J].大豆科学,2017,36(3):335-344.(Ren H X,Bai Y F,Wang Y P,et al.Performance and breeding potential of the Northeast China soybean germplasm population in Mundanjiang area[J].Soybean Science,2017,36(3):335-344.)
[24]邢光南,谭连美,刘泽稀楠,等.大豆地方品种叶片叶柄茸毛性状的形态变异及其与豆卷叶螟抗性的相关分析[J].大豆科学,2012,31(5):691-696.(Xing G N,Tan L M,Liu Z X N,et al.Morphological variation of pubescence on leaf blade and petiole and their correlation with resistance to bean pyralid lamprosema indicata fabricius in Soybean Landraces[J].Soybean Science,2012,31(5):691-696.)
[25]盖钧镒.有限与无限结荚习性夏大豆开花结荚特性的研究[J].南京农学院学报,1984(4):6-17.(Gai J Y. Bloom and pod set in determinate and indeterminate summer soybeans[J].Journal of Nanjing Agricultural College,1984,4:6-17.)
[26]王敏,杨万明,侯燕平,等.不同类型大豆花荚期抗旱性形态指标及其综合评价[J]. 核农学报,2010,24(1):154-159.(Wang M,Yang W M,Hou Y P,et al. Morphological indexes of drought resistance of soybean accessions and its comprehensive evaluation on flowering and podding stage[J].Journal of Nuclear Agricultural Sciences, 2010,24(1):154-159.)

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Last Update: 2018-10-08