不同结荚习性大豆品种顶端花序发育过程的形态解剖学特征
[1]姜德锋, 张伟, 徐锐亭, 梁凤美, 孙贤明.
不同株型高产大豆的生长特性研究. 莱阳农学院学报, 2004, 21: 288-292
Jiang D F, Zhang W, Xu R T, Liang F M, Sun X M.
Studies on the growing characteristic of high yield soybean in different plant-types. J Laiyang Agric Coll, 2004, 21: 288-292 (in Chinese with English abstract)[本文引用:1][2]Hu N, Lu C G, Yao K M, Chen J, Zhang X C.
Analysis and simulation of plant type on canopy structure and radiation transmission in rice. Rice Sci, 2013, 20: 229-237[本文引用:1][CJCR: 0.3579][3]刘顺湖, 王晋华, 张孟臣, 盖钧镒.
大豆茎生长习性类型鉴别方法研究. 大豆科学, 2005, 24: 81-89
Liu S H, Wang J H, Zhang M C, Gai J Y.
A study on identification procedure for soybean stem growth habit type. Soybean Sci, 2005, 24: 81-89 (in Chinese with English abstract)[本文引用:1][4]Jiang Y, Wu C, Zhang L, Hu P, Hou W, Zu W, Han T.
Long-day effects on the terminal inflorescence development of a photoperiod-sensitive soybean [Glycine max (L. ) Merr. ] variety. Plant Sci, 2011, 180: 504-510[本文引用:7][JCR: 2.922][5]Hicks D R, Pendleton J W, Bernard R L, Johnston T J.
Response of soybean plant types to planting patterns. Agron J, 1969, 61: 290-293[本文引用:1][JCR: 1.518][6]Woodworth C W.
Genetics and breeding in improvement of soybean. Univ Illinois Agric Exp Sta Bull, 1932, 384: 297-404[本文引用:1][7]Ting C L.
Genetic studies on the wild and cultivated soybeans. J Am Soc Agron, 1946, 38: 381-393[本文引用:1][8]刘顺湖, 王玮.
大豆结荚习性的主要成分性状的筛选. 济宁师专学报, 1995, (3): 60-63
Liu S H, Wang W.
Selection of main components characters for soybean stem growth habit type. J Jining Teachers Coll, 1995, (3): 60-63 (in Chinese)[本文引用:1][9]田佩占.
大豆育种的结荚习性问题. 遗传学报, 1975, 2: 337-343
Tian P Z.
On the pod-bearing habit in soybean breeding. Acta Genet Sin, 1975, 2: 337-343 (in Chinese)[本文引用:1][10]Bernard R L.
Two genes affecting stem termination in soybean. Crop Sci, 1972, 12: 235-239[本文引用:3][JCR: 1.513][11]Thseng F S, Hosokswa S.
Significance of growth habit in soybean breeding: I. Varietal differences in characteristics of growth habit. Jpn J Breed, 1972, 22: 261-268[本文引用:1][12]曹大铭.
大豆结荚习性的研究: 不同结荚习性大豆的主要区别与识别. 作物学报, 1982, 8: 81-96
Cao D M.
Studies on the pod-setting habit of soybean: the main differences of soybean with different pod-setting habit and their identification. Acta Agron Sin, 1982, 8: 81-86 (in Chinese with English abstract)[本文引用:2][CJCR: 1.667][13]祝其昌.
大豆结荚习性的研究: 1. 不同结荚习性的本质区别及其分类. 大豆科学, 1984, 3: 318-326
Zhu Q C.
Studies on the growth habit of soybean: 1. The substantial difference of different habit of soybean and their classification. Soybean Sci, 1984, 3: 318-326 (in Chinese with English abstract)[本文引用:3][14]王晋华, 汪越胜, 盖钧镒.
大豆茎生长习性分类方法的研究: 有限型与无限型茎顶的特征与识别标记. 大豆科学, 2001, 20: 5-8
Wang J H, Wang Y S, Gai J Y.
A study on identification method of stem-growth habit types (SGHT) in soybeans- characteristics and identification marks of stem termination of the determinate and indeterminate. Soybean Sci, 2001, 20: 5-8 (in Chinese with English abstract)[本文引用:1][15]王晋华, 张孟臣, 盖钧镒.
大豆茎生长习性分类方法的研究: 茎顶花序-1/3节位相对值法. 大豆科学, 2002, 21: 47-51
Wang J H, Zhang M C, Gai J Y.
A study on identification method of stem-growth habit types (sght) in soybean: apical raceme -1/3 the relative value of node location. Soybean Sci, 2002, 21: 47-51 (in Chinese with English abstract)[本文引用:1][16]蒋青, 李扬汉.
有限性和无限性大豆的解剖初探. 大豆科学, 1990, 9: 213-219
Jiang Q, Li Y H.
Anatomical study on the determinate and the indeterminate soybeans. Soybean Sci, 1990, 9: 213-219 (in Chinese with English abstract)[本文引用:3][17]游明安, 盖钧镒.
大豆花序性状的研究现状. 中国油料, 1995, 17(1): 74-77
You M A, Gai J Y.
Study status of soybean inflorescence characters. Oil CropChina, 1995, 17(1): 74-77 (in Chinese)[本文引用:1][18]Liu B, Watanabe S, Uchiyama T, Kong F, Kanazawa A, Xia Z, Nagamatsu A, Arai M, Yamada T, Kitamura K, Masuta C, Harada K, Abe J.
The soybean stem growth habit gene Dt1 is an ortholog of Arabidopsis TERMINAL FLOWER1. Plant Physiol, 2010, 153: 198-210[本文引用:1][JCR: 6.555][19]Tian Z, Wang X, Lee R, Li Y, Specht J E, Nelson R L, McClean P E, Qiu L, Ma J.
Artificial selection for determinate growth habit in soybean. Proc Natl Acad Sci USA, 2010, 107: 8563-8568[本文引用:1][JCR: 9.737][20]Yamagishi N, Yoshikawa N.
Expression of FLOWERING LOCUS T from Arabidopsis thaliana induces precocious flowering in soybean irrespective of maturity group and stem growth habit. Planta, 2011, 233: 561-568[本文引用:1][JCR: 3.347][21]韩天富, 王金陵.
大豆开花后光周期反应的研究. 植物学报, 1995, 37: 863-869
Han T F, Wang J L.
Studies on the post-flowering photoperiodic responses in soybean. Acta Bot Sin, 1995, 37: 863-869 (in Chinese with English abstract)[本文引用:2][JCR: 0.599][22]吴存祥, 刘金, 李兴宗, 苗以农, 杨华, 韩天富.
扁茎大豆的花序形态受光周期调控. 中国油料作物学报, 2004, 26(1): 36-41
Wu C X, Liu J, Li X Z, Miao Y N, Yang H, Han T F.
Photoperiod regulates morphology of terminal inflorescence in fasciated soybean. Chin J Oil Crop Sci, 2004, 26(1): 36-41 (in Chinese with English abstract)[本文引用:2][CJCR: 0.95][23]Han T, Wu C, Mentreddy R S, Zhao J, Xu X, Gai J.
Post-flowering photoperiod effects on reproductive development and agronomic traits of long-day and short-day crops. J Agron Crop Sci, 2005, 191: 255-262[本文引用:2][JCR: 2.151][24]Li X M, Wu C X, Ma Q B, Zhang S, Li C L, Zhang X Y, Han T F.
Morphology and anatomy of the differentiation of flower buds and the process of flowering reversion in soybean cv. Zigongdongdou. Acta Agron Sin, 2005, 31: 1437-1442[本文引用:2][CJCR: 1.667][25]Xu M, Xu Z, Liu B, Kong F, Tsubokura Y, Watanabe S, Xia Z, Harada K, Kanazawa A, Yamada T, Abe J.
Genetic variation in four maturity genes affects photoperiod insensitivity and PHYA-regulated post-flowering responses of soybean. BMC Plant Biol, 2013, 13: 91[本文引用:2][JCR: 4.354][26]Battey N H, Lyndon R F.
Reversion of flowering. Bot Rev, 1990, 56: 162-189[本文引用:1][JCR: 1.533][27]韩天富, 盖钧镒, 王金陵, 周东兴.
大豆开花逆转现象的发现. 作物学报, 1998, 24: 168-171
Han T F, Gai J Y, Wang J L, Zhou D X.
Discovery of flowering reversions in soybean plant. Acta Agron Sin, 1998, 24: 168-171 (in Chinese with English abstract)[本文引用:1][CJCR: 1.667][28]Washburn C F, Thomas J F.
Reversion of flowering in Glycine max. Am J Bot, 2000, 87: 1425-1438[本文引用:1][JCR: 2.586][29]吴存祥, 韩天富.
植物开花逆转研究进展. 植物学通报, 2002, 19: 523-529
Wu C X, Han T F.
Progress in study of flowering reversion in plants. Chin Bull Bot, 2002, 19: 523-529 (in Chinese with English abstract)[本文引用:1][30]Wu C, Ma Q, Yam K M, Cheung M Y, Xu Y, Han T, Lam H M, Chong K.
In situ expression of the GmNMH7 gene is photoperiod-dependent in a unique soybean (Glycine max [L. ] Merr. ) flowering reversion system. Planta, 2006, 223: 725-735[本文引用:1][JCR: 3.347][31]Fehr W R, Caviness C E.
Stages of Soybean Development. Spec. Rep. No. 80, Iowa State University, Ames, IA, USA, 1977[本文引用:1][32]李正理.
植物解剖学. 北京:
科学出版社, 1973. pp47-48
Li Z L.
Plant Anatomy. Beijing:
Science Press, 1973. pp47-48(in Chinese)[本文引用:1][33]李文雄, 曾寒冰. 春小麦穗分化的特点及其与高产栽培的关系. 中国农业科学, 1979, (1): 1-9
Li W X, Zeng H B. The characteristics of spike differentiation and its relationship to high-yielding culture in spring wheat. SciAgric Sin, 1979, (1): 1-9 (in Chinese with English abstract)[本文引用:1][34]姜妍, 冷建田, 费志宏, 冯涛, 祖伟, 王连铮, 韩天富, 吴存祥. 广适应大豆品种中黄13的光周期反应. 大豆科学, 2009, 28: 377-393
Jiang Y, Leng J T, Fei Z H, Feng T, Zu W, Wang L Z, Han T F, Wu C X. Photoperiod responses of a widely-adapted soybean cultivar of Zhonghuang 13. Soybean Sci, 2009, 28: 377-393 (in Chinese with English abstract)[本文引用:1][35]米国华, 李文雄. 温光互作对春性小麦小穗建成的效应. 作物学报, 1999, 25: 186-192
Mi G H, Li W X. Effects of photo-thermal interaction on spikelet formation in spring wheat. Acta Agron Sin, 1999, 25: 186-192 (in Chinese with English abstract)[本文引用:1][CJCR: 1.667][36]常汝镇. 中国大豆遗传资源的分析研究: III. 大豆生育习性和结荚习性分布特点. 作物品种资源, 1990, (2): 1-2
Chang R Z. Analysis and study of soybean genetic resources in China: III. Distribution characteristics of soybean growth habits and pod bearing habit. Crop Genet Resours, 1990, (2): 1-2 (in Chinese)[本文引用:1][JCR: 1.593][37]孙培乐, 宋兆华. 不同结荚习性大豆品种生育特性的研究. 大豆科技, 2008, (5): 17-20
Sun P L, Song Z H. Study on growth characteristics of soybean varieties with different pod-bearing habits. Soybean Sci Technol, 2008, (5): 17-20 (in Chinese)[本文引用:1]
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