cajan
cajan
1. We introduced varieties of Cajanus cajan(L.)
2000年木豆(Cajanus cajan(L.)
2. Cajanus cajan
n. 木豆
3. The Studies of VA Mycorrhizae on the Growth and Drought-Resitence of Cajanus Cajan and Leucaena Leucocephala
VA真菌对木豆、银合欢苗期生长及抗旱效应的研究
4. Germination Experiment of Varietied Cajanus cajan in Two Kinds of Matrix
不同品种的木豆在两种基质下的发芽出土试验
5. Influence of Land Preparation on Growth and Seed Setting of Cajanus cajan
不同整地方法对木豆植株生长及结实的影响
6. Effect of Water Treatment to Growth and Reproduction of Cajanus Cajan (L) Millspaugh in the Limestone Zone
不同水分处理对石灰岩适生物种木豆(Cajanus cajan(L) Millspaugh)生长和生殖的影响
7. cajan was evidently lower , particularly for N and Ca.
与油松、刺槐、板栗、锥栗等相比,木豆对养分的利用效率明显偏低。
8. 9 new varieties of Cajanus cajan were tested at Yuanjiang County,Lushui County and Yunxian County,Yunnan province,with a local variety as CK. The grain yield and adaptability of the varieties were analyzed.
以地方栽培品种为对照,在云南省元江县、泸水县、云县对从印度国际干旱热带作物研究所引进的9个木豆新品种进行了产量、稳定性及适生性鉴定。
9. However Cajanus Cajan(L).
但木豆在低温条件下不能越冬。
10. The nutrient cycling and the efficiency of nutrient utilization of the Cajanus cajan 2-year old plantation in Dry-hot Region
元谋干热区两年生木豆(Cajanus cajan)人工林营养循环和养分利用效率
11. Keywords White Tephrosia;Cajan;Pallid Rattle-box;slope;ecological rehabilitation;freeway;
关键词山毛豆;木豆;猪屎豆;边坡;生态恢复;高速公路;
12. Title: Changes in Apigenin and Luteolin Contents during Seed Germination and Seedling Growth of Cajanus cajan (L.) Millsp.
关键词:木豆;种子萌发;幼苗;芹菜素;木犀草素
13. TRIAL PLANTING OF INDIAN IMPROVED PIGEON PEA (CAJANNUS CAJAN) AND THE PROSPECT FOR ITS DEVELOPMENT AND UTILIZATION
印度改良木豆在江西的试种及开发应用前景研究
14. At the same time, the allelopathy of the seed of C. cajan L. was stronger than the leaf extract.
同时得出,木豆种子化感作用强于木豆叶片。
15. Application of White Tephrosia,Cajan and Pallid Rattle-box to Slope Ecological Rehabilitation Project of Freeway
山毛豆、木豆、猪屎豆在高速公路边坡生态恢复工程中的应用
16. The shrubs of White Tephrosia,Cajan and Pallid Rattle-box are drought resistance,endurable to lean soil,developed root system,exuberant growth of branches and leaves and quick growth variety.
山毛豆、木豆、猪屎豆这三种灌木耐旱耐瘠、抗逆性强、根系发达、枝叶繁茂、生长迅速,可涵养水土,提高地力。
17. A high-performance liquid chromatography(HPLC) method was established for determining contents of vitexin and isovitexin in the leaves,stems and roots of pigeonpea (Cajanus cajan(L.
建立了测定木豆叶、茎、根中牡荆苷和异牡荆苷含量的高效液相色谱分析方法。
18. The shrubs of White Tephrosia, Cajan and Pallid Rattle-box are drought resistance, endurable to lean soil, developed root system, exuberant growth of branches and leaves and quick growth variety.
摘要山毛豆、木豆、猪屎豆这三种灌木耐旱耐瘠、抗逆性强、根系发达、枝叶繁茂、生长迅速,可涵养水土,提高地力。
19. Objective To investigate the protective effect of water-soluble extracts from Cajanus cajan Leaf (CCL) against hypoxic-ischemic brain damage.
摘要目的探讨木豆叶水提物对脑缺血、缺氧损伤的保护作用。
20. Studies On the Control of Cajan Blight by Using Aspergillus niger
曲霉菌防治木豆枯萎病研究
21. cajan seed
木豆
22. The Preliminary Anatomy of the Vegetative Organ Cajanmus cajan
木豆(Cajamus.cajan)营养器官的解剖学观察
23. The Cajan blight was caused by Fusarium oxysporum f.
木豆[Cajanuscajan(L.)
24. C. cajan plantation
木豆人工林
25. The leaf N content of C. cajan was 37.6 mg/g,much higher than that of M.fortunei(14.8 mg/g),implying that the nitrogen-fixing capacity of the former causes its high photosynthetic capacity.
木豆单位叶重的含氮量季节均值为37.6mg/g,明显高于十大功劳的14.8 mg/g,说明木豆的高固氮能力导致了木豆的高光合能力。
26. cajan leaf
木豆叶
27. Keywords Pigeonpea [Cajanus cajan (L.) Millsp.] leaves;luteolin;apigenin;acid induction;enzyme induction;ultrasonic extraction;macroporous adsorption resin;column chromatography;
木豆叶;木犀草素;芹菜素;酸诱导;酶诱导;超声提取;大孔吸附树脂;柱层析;
28. Keywords Cajanus cajan (L.) Millsp.;Vitexin;HPLC;Content determination;
木豆叶;牡荆苷;HPLC;含量测定;
29. Keywords Pigeonpea [Cajanus cajan (L.) Millsp.] leaves;vitexin;isovitexin;ultrasonic extraction;macroporous adsorption resin;column chromatography;separation and purification;antimicrobial activity;
木豆叶;牡荆苷;异牡荆苷;超声提取;大孔吸附树脂;柱层析;分离纯化;抗菌活性;
30. Study on the Extraction and Purification Processes of Vitexin and Isovitexin from the Leaves of Cajanus Cajan (L.)Millsp and Their Antibacterial Activities
木豆叶中牡荆苷与异牡荆苷提取纯化工艺及其抗菌活性研究
31. extracts from Cajanus cajan L.
木豆叶提取物
32. Keywords Extract of Cajanus cajan L.;ovariectomy;osteoblast;osteoclast;osteoporosis;
木豆叶提取物;去卵巢手术;成骨细胞;破骨细胞;骨质疏松;
33. Keywords extracts from Cajanus cajan L.;osteoblast;osteoclast;cell proliferation;alkaline phosphatase;
木豆叶提取物;成骨细胞;破骨细胞;细胞增殖;碱性磷酸酶;
34. Effects of the extracts of Cajanus cajan L. on cell functions in human osteoblast-like TE85 cells and the derivation of osteoclast-like cells
木豆叶提取物对人的类成骨细胞TE85成骨功能和体外破骨细胞分化的影响
35. Water-soluble extracts from Cajanus cajan Leaf
木豆叶水提物
36. Studies on Water-soluble Extracts from Cajanus cajan Leaf against Hypoxic-ischemic Brain Damage
木豆叶水提物抗脑缺血缺氧损伤的作用研究
37. stilbene extract from Cajanus cajan L.
木豆叶芪类提取物
38. Keywords stilbene extracts from Cajanus cajan L.;ovariectomy rat;bone loss;
木豆叶芪类提取物;去卵巢大鼠;骨质丢失;
39. Effects of the stilbene extracts from Cajanus cajan L. On ovariectomy-induced bone loss in rats
木豆叶芪类提取物对雌激素缺乏性大鼠骨质丢失的影响
40. The Utilization Value of Cajanus cajan
木豆在中国的应用前景
41. The study on the ecological adaptability of Cajanus cajan(L.) Millspaugh in the degraded mountain land of dry-hot valley
木豆在干热河谷退化山地的生态适应性研究
42. Grain Yield and Adaptability of Cajanus cajan New Varieties
木豆新品种产量对比及适应性分析
43. Primary Study on the Cultivation and Management Technology of Cajanus cajan
木豆栽培管理技术初探
44. The contents of chlorophyll a,chlorophyll b and chlorophyll(a+b) in leaves of C. cajan had a peak in August and then declined while for M.fortunei,besides a peak in August,there was another peak in October.
木豆的叶绿素a/b的季节变化呈递减趋势,相反,十大功劳呈上升趋势。
45. Cajanus cajan seeds
木豆种子
46. Changes in Apigenin and Luteolin Contents during Seed Germination and Seedling Growth of Cajanus cajan (L.) Millsp.
木豆种子萌发和幼苗生长过程中的芹菜素与木犀草素含量变化
47. Assessment of Genetic Diversity of Pigeonpea(Cajanus Cajan(L.)Millspaugh) Germplasm Resources
木豆种质资源遗传多样性分析
48. Study on Chemical Constituents of Essential Oil from Cajanus Cajan
木豆精油化学成分研究
49. Flavonoids from Cajanus cajan L.
木豆黄酮类成分的研究
50. A tropical African shrub (Cajanus cajan) of the pea family, having trifoliolate leaves, yellow or orange flowers, hairy pods, and small edible seeds.
木豆:热带非洲一种豆科灌木(木豆木豆属),具有带三小叶的叶片、呈黄色或桔黄色的花、多毛豆荚以及小而可食的种子
51. This paper mainly presents the experimental results by using the manure of Aspergillus niger to control cajan blight. The effects of controlling reached over 80%.
本文报道了采用曲霉菌(Aspergillusniger)制剂防治木豆枯萎病试验研究,取得明显效果,田间防治效果达80%以上。
52. Treatment of Infected Open Fracture with Cajanus Cajan(L.) Millsp
柳豆叶治疗开放性骨折感染性创面40例临床总结
53. The results were as following:(1) Water stress can lessen stem length, stem diameter, burl length, the blooming of branches and leaves of Cajanus cajan.
水分胁迫不利于木豆植株主茎长度、主茎直径、节间长度、分枝数目以及叶数的增加; 水分胁迫也减弱了木豆植株的总生物量和各构件生物量的积累。
54. The extracting solution from Zoysia matrella slightly showed the inhibition effect to Merremia hederacea and Cajanus cajan(cultivar No.3) in general,but it decreased the seedling fresh weight of Cajanus cajan(cultivar No.4) significantly.
沟叶结缕草提取液总体上对鱼黄草种子萌发和幼苗生长的抑制作用较小,对木豆3号稍有抑制效应,对木豆4号苗鲜重有显著抑制作用。
55. The essential oil of Cajanus cajan leaves were separated by steam distillation and its consti-tuents were analzed by GC/MS/MSD method using glass cross--linking capillary column.
用水蒸汽蒸馏法从木豆的叶和嫩枝中提出挥发油,并用交联毛细管柱气相色谱/质谱/计算机(GC/MS/MSD)联用技术测定木豆精油的化学成分。
56. Effects of extracting solution from Hemarthria altissima,Ageratum conyzoides and Zoysia matrella on seed germination and seedling growth of Cajanus cajan(cultivar No.3,No.4)and Merremia hederaceawere studied through germination tests.
用牛鞭草,胜红蓟和沟叶结缕草3种植物提取液处理鱼黄草和木豆品种3号、4号种子,测定种子发芽率、苗高、根长和苗鲜重。
57. RESPONSE OF THE PHENOTYPIC PLASTICITY OF CAJANNUS CAJAN SEEDLINGS TO RELATIVE SOIL WATER CONTENT IN LIMESTONE AREAS
石灰岩地区土壤水分对木豆表型可塑性的影响
58. Study on Photosynthetic Physiological Ecology of Cajanus Cajan (L) Millspaugh and Mahonia Fortunei in the Limestone Zone
石灰岩地区木豆(Cajanus cajan(L) Millspaugh)与十大功劳(Mahonia fortunei) 的光合生理生态研究
59. Because of the serious disturbance, water stress has become the limiting factor of economic development in limestone districts.The paper aims at the experiment of Cajanus cajan.
石灰岩地区由于人为干扰,植被退化严重,水土流失加剧,强烈的水分流失己成为石灰岩地区经济发展的限制因子。
60. The phenotypic plasticity, morphology and biomass allocation in Cajannus cajan seedlings were studied under relative soil water contents (RWC) of 27.65% , 19.47% , 12.14% and 7.66%.
研究了土壤相对含水量分别为27.65%,19.47%,12.14%和7.66%水分条件下木豆(Cajannus cajan)幼苗生长 和形态的表型可塑性。
61. The results showed that Cajanus cajan(L.) Millspaugh could grow at degraded mountain land in the dry-hot valley,and its growth potential was better than original place.
结果表明,木豆能适应干热河谷的退化山地生长环境,其生长势优于原产地,表现出明显的速生性;
62. 10. The results showed that Cajanus cajan(L.) Millspaugh could grow at degraded mountain land in the dry-hot valley,and its growth potential was better than original place.
结果表明,木豆能适应干热河谷的退化山地生长环境,其生长势优于原产地,表现出明显的速生性;收藏指正
63. The results showed that the extracting solution from Hemarthria altissima dropped the seed germination rates of Cajanus cajan(cultivar No.3,No.4)and Merremia hederacea and inhibited seedlings growth in general.
结果表明,牛鞭草提取液总体上对鱼黄草、木豆3号和4号产生了抑制种子发芽和幼苗生长的作用;
64. The results indicated that the protoxylem of Cajanmus cajan in the main root was mostly tetrarched,less pentarched and hexad.
结果表明:木豆主根的初生木质部多为4原型,少数3原型;
65. Similar nutrient compositions are found in leaves of both the trialedspecies and the traditional species(Robinia pseudoacacia L,Leucaena leucocephala(Lam).D.wit and Cajanus cajan(Linn)Huth etc).
结果表明,有一些树种的叶子与常用树叶饲料(刺槐、银合欢、木豆等)比较,其中有相似的营养成分。
66. The results indicated that the protoxylem of Cajanmus cajan in the main root was mostly tetrarched, less pentarched and hexad.
结果表明:木豆主根的初生木质部多为4原型,少数3原型;
67. Effect of extracting solution from Hemarthria altissima,Ageratum conyzoides and Zoysia matrella on germination and seedling growth of Merremia hederacea and Cajanus cajan
胜红蓟,牛鞭草和沟叶结缕草提取液对木豆、鱼黄草种子萌发和幼苗生长的影响
68. Initial Report on the Introduction Experiments of Cajanus cajan L. In Granite Erosion Area
花岗岩侵蚀区木豆引种试验初报
69. Such results indicated that the suitable water niche for C. cajan seedlings is fairly dry soil environment and they adapt themselves to drought stress by adjustment of biomass allocation and morphological structure.
这些结果说明木豆幼苗的适宜水 分生态位是较干旱的土壤环境,木豆幼苗通过器官生物量分配和形态结构调整来适应干旱胁迫。
70. According to the dendrogram by UPGMA cluster analysis,almost all the accessions were distinct and revealed enough genetic diversity for identification and classification of accessions within Cajanus cajan.
遗传相似性系数UPGMA聚类图,揭示木豆种内存在足够的遗传多样性,可用于种质资源的准确鉴别与分类。
71. shield:spot sowing Cajanus cajan in spacing.
(6)幼林庇荫措施,采用直播木豆的方法。
