1) microtuber
微型块茎
1.
Impact factors in in vitro induction of microtubers from Dioscorea opposita;
山药微型块茎诱导形成的影响因子研究
2.
Studying on rooting with adventitious buds and microtuber propagationof Rehmannia glutinosa;
怀地黄不定芽诱导生根和微型块茎繁殖的研究
3.
Effects of Auxin and Cytokinin on the Induction of Microtuber of Disocorea opposita Thunb.;
生长素和细胞分裂素对怀山药微型块茎诱导形成的影响
2) Microtube
微块茎
1.
Primary Research on Tissue Culture of Dioscorea Opposite "Foshou" Microtubers and Doubling in Vitro;
佛手山药微块茎组织培养与离体加倍的初步研究
4) Micro bulb
微型鳞茎
5) tuber
[英]['tju:bə(r)] [美]['tubɚ]
块茎
1.
Fators effecting on the formation of test-tube tubers of Sinningia speciosa plantlets;
影响大岩桐试管块茎形成的若干因素
2.
Effect of Storage Temperature on Reducing Sugar Content in Potato Tubers;
贮藏温度对马铃薯块茎还原糖含量的影响
3.
The Key Factors Affecting Tuber Development of Potato in vitro and the Relation with Protein Fractions;
马铃薯离体块茎发育过程中的关键因子及其与蛋白质组分的关系
6) stem tuber
块茎
1.
The results were following,Baodi Yam planted in furrow had the longest stem tubers and higher yield,but with higher rate of malformation at the same time,thus furrow cultivation was not proper in this area;Compared with the high bed method,Baodi Yam stem tubers in flat bed and low bed had lowe.
通过对宝坻山药进行高畦种植、平畦种植、低畦种植(对照)和打沟种植4种种植方式的试验比较,结果表明,打沟种植宝坻山药虽然块茎产品最长,产量较高,但由于产品畸形率较高,不适宜在该地区使用;相对于高畦种植宝坻山药来说,平畦种植和低畦种植的山药块茎产量较低、品质较差,不适宜使用;高畦种植是比较适宜的宝坻山药种植方式。
2.
The results showed,the growth of taproot stagnated after seed germinating,then hypocotyl expanded into stem tuber with the structure of stem.
仙客来营养器官的解剖试验表明 ,仙客来种子萌发后 ,主根早期停滞发育 ,由下胚轴膨大具有茎结构特征的块茎 ,随着发育产生异常结构 ,致使块茎不断长大。
补充资料:块茎葛素
分子式:
CAS号:
性质:又称图伯罗辛。针状结晶(由氯仿-己烷中)。熔点213℃。旋光度[α]D+216º(丙酮)。植物来源有豆科植物块茎葛(Pueraria tuberosa DC.)块茎,茄科植物马铃薯(Solarium tuberosum L.)块茎。具有抗炎、抗菌作用,对葡萄球菌、结核菌、真菌均有抑菌作用,并能对抗角叉菜胶引起的浮肿。
CAS号:
性质:又称图伯罗辛。针状结晶(由氯仿-己烷中)。熔点213℃。旋光度[α]D+216º(丙酮)。植物来源有豆科植物块茎葛(Pueraria tuberosa DC.)块茎,茄科植物马铃薯(Solarium tuberosum L.)块茎。具有抗炎、抗菌作用,对葡萄球菌、结核菌、真菌均有抑菌作用,并能对抗角叉菜胶引起的浮肿。
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