| 1. | Cdna cloning and gene expression of apx in suaeda salsa in response to salt stress 基因的克隆及盐胁迫下的表达 |
| 2. | Research on the process conditions extracting total flavonoids from suaeda salsa 盐地碱蓬总黄酮的提取工艺条件研究 |
| 3. | Extraction of suaeda salsa oil by low intensity and multifrequency ultrasound technology 低强度多频超声浸取碱蓬籽油 |
| 4. | Under nacl stress , the activity of sod in leaves of suaeda salsa increased 胁迫大于naci胁迫的原因之一。玉米在nazco 。 |
| 5. | This proved that k + nutrition played an important role in the growth of suaeda salsa 可见, k ”营养在碱蓬生长中起关键作用。 |
| 6. | Study on the leaf succulence of suaeda salsa under differently natural saline environments 不同自然盐渍生境下盐地碱蓬叶片肉质化研究 |
| 7. | All of these mean that suaeda salsa can resist nacl stress effectively but can " t resist na2co3 stress effectively 这些都表明,碱蓬的耐盐性较强而耐碱性较差,即碱害大于盐害。 |
| 8. | Overabundant ros aggravated the injury to suaeda salsa and decreased its resistance ability to na2co3 stress 在ndico3胁迫下,不但na十区域化能力小,而且叶片内的na十含量也大于nao胁迫。 |
| 9. | Under na2co3 stress , the content of proline increased , so proline must be a kind of buffer in suaeda salsa Cos胁迫使na k十比增加的幅度都大于naci胁迫,即产生的离于不均衡现象更严重,这是ndico 。 |