1) Glycine max
栽培大豆
1.
Effects of chloride channel blockers on ion contents and other physiological indexes of Glycine soja and Glycine max seedlings under NaCl stress;
氯离子通道抑制剂对盐胁迫下野生和栽培大豆幼苗离子含量等生理指标的影响
2.
Changes of polyamines level in Glycine soja and Glycine max seedlings under NaCl stress;
氯化钠胁迫下野生和栽培大豆幼苗体内的多胺水平变化
3.
Re-Transportation of Ions in Glycine soja and Glycine max Seedlings Under NaCl Stress;
NaCl胁迫下野生和栽培大豆幼苗体内离子的再转运
2) Cultivated soybean
栽培大豆
1.
Studies on karyotypes and evolutional level of wild soybean Glycine soja Merr. (L.) and cultivated soybean Glycine max Merr. (L.).;
野生大豆和栽培大豆的根尖细胞核型与进化
2.
Throngh the studies on form anatomy of annual natural, seminaturaland cultivated soybean, the authors find that the pith grows out of nothing and itsdevelopment accords with Zimmer mann s basipetal shift theory.
通过对一年生野生大豆、半野生大豆,栽培大豆的形态解剖学研究,结果发现髓的发育是从无到有的过程,它的发育是符合Zimmer mann的向基移位理论。
3.
The results showed that wild soybean could potentially produce more forages than soybean cultivars,its main stem was 73 cm longer that cultivated soybean,its leaf and stem yield were 54.
野生大豆Glysine soja为栽培大豆G。
3) soybean
[英]['sɔɪ,bi:n] [美]['sɔɪ,bin]
栽培大豆
1.
Analysis of Protein Subunit 7S/ 11S Constitution and Allergen Lacking of Soybean [ Glycine max (L.) Merrill] Cultivars;
栽培大豆蛋白亚基11S/7S组成及过敏蛋白缺失分析
2.
A proteomics approach was applied to analyze differential expression of proteins in wild (Glycine soja) and cultivated (Glycine max) soybean seeds.
运用蛋白质组学方法比较研究3个野生大豆(Glycinesoja)和3个栽培大豆(Glycinemax)的种子贮藏蛋白差异情况。
3.
Selection of Three Lines and Localization of the Restorer Genes in Soybean Using SSR Markers;
以栽培大豆ZD8319为母本,分别与SG01、JX03和PI004杂交,再用父本回交5次,选育出阜CMS1A、阜CMS2A和阜CMS3A三个高度不育的不育系。
4) Soy Planting
大豆栽培
1.
The Application of Data Warehouse Technology in Soy Planting;
数据仓库技术在大豆栽培上的应用
5) Soybean (G. max)
栽培大豆(G.max)
6) Semicultivated soybean
半栽培大豆
补充资料:大豆栽培(soybean culture)
大豆栽培(soybean culture)
建立合理的轮作制,一年一熟的中国北方春大豆区,多实生小麦-小麦-大豆;小麦-杂粮(玉米)-大豆;大豆-谷子-玉米等三年轮作;一年两熟或二年三熟的黄淮夏大豆区,多为冬小麦-夏大豆,冬小麦-夏大豆-春玉米(春甘薯)等;南方多熟大豆区,多为一年三熟和两年五熟制,有冬作物-夏大豆,冬作物-春大豆(套)-晚稻,冬作物-春大豆-晚稻,冬作物-早中稻-秋大豆,冬大豆-早稻-晚稻等,还有间、套、混作等种植方式。
播种期以气温稳定在10℃时播种为宜,黄淮夏大豆地区,抢墒早播全苗是高产的基础。秋大豆区,在前茬水稻收获后,愈早播的产量愈高,采用原茬点播或撒播。北方春大豆区在秋翻基础上,施肥耙地播种。黄淮夏大豆区,采用耙地来茬或板茬抢墒播种。南方多熟大豆区,春、夏大豆多采用耕地播种。
肥水条件好、播期较早、生育期较长植株高大繁茂的品种,密度宜稀,一般每公顷15-25万株;反之宜密,一般每公顷30万-50万株。出苗后,为达到苗齐、苗匀、苗壮,在第一片真叶展开前后进行间苗,随即中耕除草。分枝前进行第二次中耕除草,封行前进行第三次中耕除草。生育期间,及时追肥灌水。当豆叶脱落,茎秆仍有韧性、豆荚豆粒呈现固有颜色,摇动豆荚有响声时,即可收获,采取机械割晒的可提早2-3天,使用机械联合收获时则应晚2-3天。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条