- 更多网络例句与臭椿相关的网络例句 [注:此内容来源于网络,仅供参考]
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Progress on Research of chemical constituents of Ailanthus, especially alkaloids and triterpenes is reviewed.
综述了臭椿属植物化学成分的研究进展,详细总结了主要化学成分生物碱及2000年至今所发现的三萜类化合物的研究进展。
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The development,structure and distribution of the secretory ducts are studied systematicly in primary structure of Ailanthus alitissima .
系统地研究了臭椿初生结构中分泌道的发生发育、结构及分布规律。
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Since quassins isolated from plants of Simarubaceae possess pesticide activity, we try to find pesticide activity compounds in Ailanthus fordii nooteboom .
常绿臭椿为苦木科臭椿属植物,由于前人从苦木科植物中分离得到的苦木素具有杀虫活性,因此我们希望从常绿臭椿中也能获得具有杀虫活性的化合物。
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Five years after the creation of the plots, the biggest ailanthus in the rural test site measured about five feet tall. The city site boasted a 20-footer.
制成这几块试验点五年后,在乡村试验点的最大臭椿树只有大约五英尺高,而在城市试验点的臭椿树却已长到了20英尺高。
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Level of CaM of leaves in Ginkgo and Ailanthus is sensitive to drought stress:theCaM level of Ginkgo first decreased and then increased,CaM level of Ailanthus went ondecreasing along with stress strengthen.
银杏和臭椿叶片CaM水平对干旱胁迫敏感:随着胁迫加强,银杏CaM水平出现先下降后上升的趋势,臭椿CaM水平持续下降。
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50Mmol/L NaCl stress had no influence on level of ATP in root of Ginkgo andAilanthus.Level of ATP in roots of Ginkgo,Ailanthus and Robinia decreased greatly under200mmol/L NaCl stress.The extent of decrease of ATP level accord to plant salt tolerance:Ginkgo is more salt tolerance,and ATP decreases more slowly than that of Ailanthus andRobinia.
11.50mmol/L的NaCl胁迫没有引起银杏和臭椿根尖ATP水平的明显改变;200mmol/L的NaCl胁迫引起银杏、刺槐和臭椿ATP水平指数性的衰减,ATP的下降幅度的变化与植物耐盐性一致:耐盐性强的银杏,ATP的下降幅度明显比刺槐和臭椿小。
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Part III the root bark of Ailanthus altissima Plant characteristic and pharmacological activity of Ailanthus, Ailanthus altissima and the root bark of Ailanthus altissima are introduced.
第三部分樗白皮介绍了臭椿属Ailanthus、臭椿Ailanthus altissima及樗白皮the root bark of Ailanthus altissima的植物特征及药用性能。
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The relative content of inactive PSII centerof Ailanthus altissima andGinkgo biloba under salt stress.
盐胁迫下,银杏和臭椿PSII无活性的反应中心相对比例增加,银杏无活性中心上升幅度低于臭椿。
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The infection test of ZYMV,WMV and PRSV-Wto ailanthus indicated ZYMV and PRSV-W could not infect ailanthus whereaseWMV could.
用来自小西葫芦的ZYMV、PRSV-W和WMV摩擦接种臭椿,经ELISA检测表明ZYMV、PRSV-W不能侵染臭椿,而WMV可以侵染臭椿。
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The observation and comparison on morphology of the powdery mildew being collected on tree of heaven from Gansu, Beijing and Chengdu have been made. The result showed that the pathogen on leafs collected from three locations mentioned above was identified as Phyllactinia ailanthi.
对采自甘肃、北京和成都的臭椿白粉病标样进行了病原菌形态观察比较,结果显示,三个地区采集的标样为同一病原,均为子囊菌亚门、球针壳属真菌―臭椿球针壳。
- 更多网络解释与臭椿相关的网络解释 [注:此内容来源于网络,仅供参考]
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ailanthus:臭椿属
热带亚洲至热带大洋洲分布有5属,木本有柘树属(Cudrania)、臭椿属(Ailanthus)和香椿属(Toona)3属,其余为草本. 热带亚洲至热带非洲分布有12属,木本杠柳属(Periploca)1属,其余为草本,常见的有蝎子草属(Girardinia)和荩草属(Arthrax,
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ailanthus:臭椿植物名
ailannoydistressvexationdistressedtobeinmiserybotherationgripelanguishmentwormwood 苦恼 | ailanthus 臭椿植物名 | aileron 副翼
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Ailanthus altissima:臭椿
产品备注: 臭椿(Ailanthus altissima)原名樗(chū),又名椿树和木砻树,因叶基部腺点发散臭味而得名. 属于苦木科,是一种落叶树. 它原产于中国东北部、中部和台湾. 生长在气候温和的地带. 这种树木生长迅速,可以在25年内达到15米的高度. 此物种寿命较短,
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Ailanthus altissima:樗(chu,阴平) 即"臭椿
楷(jie,阴平)木 即"黄连木" Pistacia chinensis | 樗(chu,阴平) 即"臭椿" Ailanthus altissima | 檫(cha,阳平)木 Sassafras tzumu
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Ailanthus altissima:臭椿(有红叶、垂叶、小叶等类型)
Ailanthus altissima 'Umbreculifera' 千头臭椿 | Ailanthus altissima 臭椿(有红叶、垂叶、小叶等类型) | Albizia kalkora 白花合欢
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Ailanthus altissima:{多头椿}{臭椿}{栲树}
Ailanthus allissima {栲树} | Ailanthus altissima {多头椿}{臭椿}{栲树} | Ajania fruticulosa {灌木亚菊}
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A.altissima Swingle:臭椿
臭椿属Ailanthus | 臭椿A.altissima Swingle | 大果刺臭椿A. altissma Swingle var. sutchuenensis Rehd. et Wils.
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tree of heaven;ailanthus:臭椿
巴西西柚木 pau-marfim | 臭椿 tree of heaven;ailanthus | 大臭椿 Ganges tree of heaven
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Ganges tree of heaven:大臭椿
臭椿 tree of heaven;ailanthus | 大臭椿 Ganges tree of heaven | 马拉巴臭椿 white siris
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white siris:马拉巴臭椿
大臭椿 Ganges tree of heaven | 马拉巴臭椿 white siris | 菲律宾合欢木 akle