symbiotic fixation
英 [ˌsɪmbaɪˈɒtɪk fɪkˈseɪʃn]
美 [ˌsɪmbaɪˈɑːtɪk fɪkˈseɪʃn]
网络 共生固氮
双语例句
- The Effect of Symbiotic Nitrogen Fixation of Gene Engineering Rhizobium Strains in Soybean in the Field
大豆基因工程根瘤菌田间结瘤和共生固氮效应 - Trends and Characteristics of Soybean Rhizobium Symbiotic Nitrogen Fixation in Xinjiang Area
新疆地区大豆共生固氮动态及特性 - Effect of molybdenum on symbiotic nitrogen fixation of rhizobium peanut in acid purple soils
酸性紫色土中钼对花生&根瘤菌共生固氮的影响 - Effect of magnetic field on symbiotic nitrogen fixation of soybean nodules
磁场对大豆共生固氮的效应 - Quantitative Distribution of Native Peanut Rhizobia and Their Symbiotic Nodulation and Nitrogen Fixation Characteristics in Shanxi Province
山西土著花生根瘤菌的数量分布及其共生结瘤固氮特性 - Heavy metals could directly and indirectly affect the symbiotic nitrogen fixation in many manners and thus it is a research hotspot to find some pioneering gangue-colonizing legumes.
重金属能从不同方面直接和间接地影响共生固氮,寻找适合作尾矿先锋植物的豆科植物是当前的一个研究热点。 - Quantitative Estimation of Symbiotic Nitrogen Fixation of Soybean with Reference to Graminaceous Crops
用禾本科作物作参比估测大豆共生固氮量 - NO-3-N of the environment plays an important role in rhizobium-legume symbiotic nitrogen fixation of legume.
NO-3-N是环境介质中影响豆科植物共生固氮的重要因素。 - Rice field ecosystems in northern China ⅱ. Study of symbiotic nitrogen fixation of Azolla in rice-Azolla combination systems
北方稻田生态系统研究Ⅱ.稻萍结合系统细绿萍共生固N量研究 - An effective method of enhancing symbiotic nitrogen fixation of legume nodule bacteria
一种提高豆科作物-根瘤菌共生固氮有效性的方法 - Advance in the Study of Symbiotic Nitrogen Fixation of Alfalfa Rhizobium and Comment on It
苜蓿根瘤菌固氮研究进展及浅评 - A hypothesis is put forward that sulphur may have relation to symbiotic nitrogen fixation of Frankia and can promote formation of root nodules and nitrogen fixation. The Frankia isolates grown in N-deficient BAP medium exhibited an acetylene reducing activity.
提出硫元素与Frankia放线菌的共生固氮有关,有利于根瘤形成和固氮。这些分离株在无氮BAP培养基上表现出乙炔还原活性。 - Whether the rice plant can respond to signalling molecules ( i.e. Nod factors) is an important question, as it could establish the potential for symbiotic nitrogen fixation in rice.
水稻是重要的粮食作物,能否对结瘤因子信号产生应答反应是最终实现水稻结瘤固氮的关键因素。 - Effects of boron deficiency, light intensity and exogenous carbohydrate supply on symbiotic nitrogen fixation in soybean plants
缺硼、不同光强及外源葡萄糖对大豆根瘤固氮活性的影响 - Study on The Characteristics Related to Symbiotic Nitrogen Fixation of Legumes in Qinghai
毛萼田菁茎瘤菌共生状态下吸氢与固氮关系的研究青海豆科植物根瘤及固氮特性的研究 - Effect of trifluralin on symbiotic nitrogen fixation of soybean and soil microorganisms
氟乐灵(Trifluralin)对大豆共生固氮及土壤微生物影响的研究 - The characteristics related to symbiotic nitrogen fixation in legumes in arid area were discussed.
对干旱区豆科共生固氮生理生态的特性进行了讨论。 - These genes related to symbiotic nitrogen fixation are transmitted and expressed differently between Rhizobium and Leguminous plant in root nodule development.
在根瘤发育过程中,这些基因在根瘤菌与植物之间进行着信息交换,并且具有不同的表达水平。 - The utilizable respiratory substrates were the effective energy sources of symbiotic nitrogen fixation of bacteroids.
类菌体呼吸作用的有效基质,即是类菌体固氮作用的有效能源。 - The Relation of Phosphorous Nutrition to Growth and Symbiotic Nitrogen Fixation of Soybean Cultivars
磷素营养与大豆生长和共生固氮的关系 - Maize intercropped peanut is a kind of intercropping system of legumina and non-legumina that has the excellence of high yield, high benefit and symbiotic nitrogen fixation.
玉米花生间作是一种豆科作物与禾本科作物间作模式,具有高产高效和生物固氮等优点。 - Stylosanthes is the important leguminosae forage in south China. Legume-rhizobium symbiotic nitrogen ( N) fixation is an important character of stylo and also the base of improving soil fertility. But there is barely rhizobium inoculant adapted to acid soils.
柱花草是我国南方重要的豆科牧草,柱花草与根瘤菌共生固氮是提高柱花草生产的重要措施,对改良南方酸性土壤有重大意义,但是目前还缺乏适宜我国南方推广的根瘤菌菌剂。 - The legumes have unique ability of symbiotic nitrogen fixation in nodules, and their seeds are rich in oil and proteins, alkaloids and flavonoids and other secondary metabolites, having very high economic value.
它具有根瘤固氮特性,种子中富含油分和蛋白质,以及生物碱和类黄酮等次级代谢产物,具有极高的经济价值。 - Our study provides a way to find new symbiotic nitrogen fixation gene and a foundation for the further exploration of Rhizobia PPI network evolution and bacteria-plant PPI networks.
这为研究根瘤菌蛋白质互作网络演化、发现新的共生固氮基因、建立菌-植互作网络等提供了基础。 - The sense of symbiotic nitrogen fixation between Frankia and non-legume is as important as which between leguminous plants and Rhizobium, and which has a broader research and development prospect.
弗兰克氏菌(Frankia)与植物共生固氮的意义不亚于豆科植物的根瘤菌,并有更广阔的研究开发前景。