期刊文献+
任意字段
题名或关键词
题名
关键词
文摘
作者
第一作者
机构
刊名
分类号
参考文献
作者简介
基金资助
栏目信息

小麦胚芽鞘与耐深播抗旱研究进展 被引量:12

Wheat coleoptile and emergence vigor and drought-resistance
下载PDF
导出
摘要 根据作者多年试验观察,综述澳美欧亚非30多个国家相关研究可知,胚芽鞘长、细、硬、快的小麦品种耐深播、抗旱、立苗好。小麦的"地中茎"由上胚轴组织派生且位于胚芽鞘基之上。小麦无中胚轴、无"根茎"。实证双胚苗的第二胚芽鞘自然开裂,并图释深播地中"拔节"现象值得研究者关注。小麦品种间胚芽鞘遗传长度变幅在1.5~18.0 cm,胚芽鞘长度的生理变异及环境变异小于品种间变异。多数矮秆基因都缩短鞘长,但鞘长基因加性遗传,有育成矮秆长鞘、出苗力强、苗期抗旱、长势壮的新品种的报道。长胚芽鞘品种的胚较大,这涉及到小麦脂肪优质育种的问题。建议:(1)尽快摸清中国的小麦长鞘品种资源,协商制定中国小麦胚芽鞘长与鞘色的描述标准;(2)加大常规育种中F2代的播量并加大播深,以便早代汰除出苗力差的个体;(3)强制描述小麦品种的鞘长、鞘色及批售种子的鞘长。 Sixty-nine always give better seedling research papers show that, wheat varieties with longer, thinner, stiffer and faster coleoptile, emergence vigor. Based on years' investigations, from the viewpoints of morphogenesis and cell behavior, the coleoptile internode of wheat is located above the coleoptile, not below the coleoptile. Both the coleop-tile and the coleoptile internode are produced by the hypocotyl. While the rhizome of corn is below its coleoptile, it is produced by the mesocotyl. Pictures show that the second coleoptile of the shoot is naturally split, and several leaf intern- odes can occur in deep - sown conditions, and vernalization researchers should attach important to this phenomenon. The genetic length, physiological length and the environmental length of wheat coleoptile are summarized. Breeding wheat for fat quality is mentioned. Three suggestions are proposed for Chinese wheat workers.
作者 潘前颖 文学飞 潘田园 史引红 潘田雨 潘幸来
机构地区 安徽工程大学 山西棉花研究所
出处 《干旱地区农业研究》 CSCD 北大核心 2012年第3期51-57,62,共8页 Agricultural Research in the Arid Areas
基金 农业行业专项"黄淮海小麦抗旱抗干热风生产技术研究与示范--黄淮小麦决策支持系统"(nyhyzx07-002-(3-2))
关键词 小麦 胚芽鞘 中胚轴 地中茎 矮秆 抗旱性 wheat coleoptile mesocotyl coleoptile internode dwarf stem drought resistance
分类号 S512.1 [农业科学—作物学]
  • 相关文献

参考文献68

  • 1-ilvinas L, Ruzgas V, Razbadauskiene K. Coleoptile length in Lithua- nian Winter wheat advanced breeding lines [ J ]. Zemdirbyste/ Zemdirbyste/Agricuhure, 2007,94(4) :3-11.
  • 2Schillinger W F, Donaldson E, Allan R E, et al, Winter wheat seedling emergence from deep sowing depths [ J ]. Agro J, 1998,90 : 582-586.
  • 3Sadras V O, Angus J F. Benchmarking water use efficiency of rainfed wheat in dry environments[J]. Australian J of Agricultural Research, 2006,57 : 847-856.
  • 4Lemerle D, Leys A R, Hinkley R B, et al. Tolerances of wheat culti- vars to pre-emergence herbicides[ J]. Aust J Exp Agri, 1985,25:922- 926.
  • 5Purchase J L, Roux J L, Tonder H A. The effects of various seed treatmems on the germination, coleoptile length and emergence of South African winter wheats ( T. aestivum L. )[J]. Sth Afr J P1 Soil, 1992,9 : 139-143.
  • 6Peacock J. Farrer and Further, The 1999 Farrlzr Memofual Oration [R] .1999.
  • 7Allan R E, Vogel 0 A, Peterson C J Jr. Seedling emergence rate of fall-sown wheat and its association with plant height and coleoptile length[J]. Agro J, 1962,54:347-350.
  • 8Allan R E, Vogel O A, Burleigh J R, et al, Inheritance of coleoptile length and its association with eulm length in four winter wheat crosses [J]. Crop Sei, 1961,1:328-332.
  • 9Rebetzke G J, Richards R A, Fischer V M, et al, Breeding long coleoptile, reduced height of wheat[J]. Enphytica, 1999, 106: 159- 168.
  • 10Matsui T, et al, Morphological characters related to varietal differ- ences in tolerance to deep sowing in wheat( T. aestivum)[J]. Plant Production Science, 2002,5(2) : 169-174.

二级参考文献8

共引文献3

同被引文献154

引证文献12

二级引证文献38

干旱地区农业研究
2012年 第3期

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部