助手标题  
全文文献 工具书 数字 学术定义 翻译助手 学术趋势 更多
查询帮助
意见反馈
   甘蔗叶 的翻译结果: 查询用时:0.026秒
图标索引 在分类学科中查询
所有学科
生物学
一般化学工业
农作物
更多类别查询

图标索引 历史查询
 

甘蔗叶
相关语句
  sugarcane leaves
     CYTOCHEMICAL LOCALIZATION OF ATPase ACTIVITY IN THE CELLS OF VASCULAR BUNDLE OF DIFFERENT PARTS IN SUGARCANE LEAVES
     甘蔗叶不同部位ATP酶活性细胞化学定位
短句来源
     Study on the Feeding Value of Ammoniated and Microbialtreated Sugarcane Leaves for Water Buffaloes
     氨化与微贮处理甘蔗叶梢饲喂水牛试验
短句来源
     The experiment was conducted to study the effects of ammoniated and microbialtreated sugarcane leaves water buffaloe in performance and economic benefit,Eighteen buffaloes were randomly divided into three groups and feed ammoniated,microbialtreated and control sugarcane leaves respectively.
     选用18头水牛随机分为氨化、微贮和对照三组,每组6头,分别饲喂氨化、微贮和对照甘蔗叶,探讨不同处理甘蔗叶对水牛日增重和瘤胃内48h降解率影响。
短句来源
  sugarcane leaf
     Studies on the Effects of Major Nutrients on Suspension Culture of Sugarcane Leaf Cell
     主要营养成分对甘蔗叶悬浮细胞生长影响的研究
短句来源
     Research situation and prospects of sugarcane leaf shattering and returning technology
     甘蔗叶粉碎还田技术研究现状与发展趋势
     The level of nucleic acid decreased and activities of both nucleases increased are markedly greater in sugarcane leaf protoplast than in tobacco one.
     甘蔗叶原生质体内的核酸降低量和RNA酶与DNA酶活性的增加程度均高于烟草。
短句来源
     Considering the favorable opportunity for the mechanization of sugarcane processing brought about by the adjustment of industrial structure, proposals on the development of sugarcane leaf shattering and returning machines in China are put forward.
     并结合当前产业结构调整对甘蔗生产机械化带来良好的发展机遇,提出了发展我国甘蔗叶粉碎还田技术的建议。
  sugarcane leave
     Comparison of the Major Growth Indexes of Sugarcane Leave Suspension Cell Under Phosphate Sufficiency and Deficiency
     全磷和缺磷条件下甘蔗叶悬浮细胞主要生长指标的比较
短句来源
  “甘蔗叶”译为未确定词的双语例句
     Determination of K,Na,Ca,Mg,Fe,Mn,Zn in Special Fertilizer for Sugarcane by Flame Atomic Absorption Spectrometry
     火焰原子吸收法测定甘蔗叶肥中的K、Na、Ca、Mg、Fe、Mn、Zn
短句来源
     Determination of K, Na, Ca. Mg, Fe, Mn, Zn in speciai fertilizer for sugarcane by flame atomic absorption spectrometry has been studied.
     本文采用火焰原子吸收法同时测定甘蔗叶肥中K、Na、Ca、Mg、Fe、Mn、Zn这7种微量元素。
短句来源
     Rf values of POD isoenzymes were as followed: jerusalem artichoke leave(0.85) > cane leave(0.70)> bamboo shell(0.61)> soybean hull(0.57)> horseradish(0.55). jerusalem artichoke peroxidase isoenzyme is of negative ion.
     POD同工酶电泳最大迁移率(Rf)大小顺序是:菊芋叶(0.85)>甘蔗叶(0.70)>竹笋壳(0.61)>大豆壳(0.57)>辣根(0.55),HLP同工酶属阴离子型。
短句来源
     A Preliminary Study on Leaf Types of Sugarcane
     甘蔗叶型研究初探
短句来源
     PRELIMINARY ANALYSIS OF FREE AMINO ACID IN CALLUS AND EMBRYONIC CELL AGGREGATE IN LEAF CULTURES ON SUGAR CANE
     甘蔗叶培养愈伤组织和胚性细胞团中游离氨基酸的初步分析
短句来源
更多       
查询“甘蔗叶”译词为用户自定义的双语例句

    我想查看译文中含有:的双语例句
例句
为了更好的帮助您理解掌握查询词或其译词在地道英语中的实际用法,我们为您准备了出自英文原文的大量英语例句,供您参考。
  sugarcane leaves
The effects of varied conditions on carbon dioxide fixation in sugarcane leaves
      
In vivo nitrate reductase activity in green sugarcane leaves (field grown) was unaffected by NADH in the reaction system.
      
High levels of GUS expression were obtained in leaf segments isolated from young, expanding sugarcane leaves cultured for 1, 3, or 6 d prior to bombardment.
      
Identification of genes responsive to the application of ethanol on sugarcane leaves
      
The cDNA macroarray technique was adopted to identify transcript changes in sugarcane leaves (Saccharum spp.
      
更多          
  sugarcane leaf
No penetration of NADH into the sugarcane leaf discs was, however, recorded under identical conditions.
      
Using a transverse thin cell layer culture system, we have identified some of the developmental and physiological constraints that limit high-frequency regeneration in sugarcane leaf tissue.
      
The structural variations exhibited by the plasmodesmata of the sugarcane leaf are compared with those proposed for a widely-adopted model of plasmodesmatal structure.
      
To characterize the sugarcane leaf transcriptome, field-grown mature leaves from cultivar "SP80-3280" were analyzed using Serial Analysis of Gene Expression (SAGE).
      
Sugarcane leaf transcriptome provided new insights for functional studies associated with sucrose synthesis and accumulation.
      
更多          


The cultivation of shii-take with bagasse substratum in sugarcane field was studied from 1981-1982 to 1986-1987 cultivated seasons in Xianyou County, Fujian Province.The results showed that the shii-take yield increased sig- nificantly by setting the polypropylene bags filled with bagasse substratum in sugarcane field,compared with the cultivation in room or in built awning in cane field.The effects of bagasse substratum on the shii-take strains were dif- ference,the responces of strains Sc12,Cr02and Se22 to...

The cultivation of shii-take with bagasse substratum in sugarcane field was studied from 1981-1982 to 1986-1987 cultivated seasons in Xianyou County, Fujian Province.The results showed that the shii-take yield increased sig- nificantly by setting the polypropylene bags filled with bagasse substratum in sugarcane field,compared with the cultivation in room or in built awning in cane field.The effects of bagasse substratum on the shii-take strains were dif- ference,the responces of strains Sc12,Cr02and Se22 to bagasse substratum were better.The biological effects were different significantly for prescrip- tions in which the high-yield-element 2 played the most important role, and for weights and volumes of fungus column in which 675 g of substratum to fill the bag of 50×17.5×0.06 cm was the best.The study also showed that the relative biological effect of the cultivation of shii-take in sugarcane field by synthetic technique was 131.97% which was higher than that by single technique or uncomplete technique.In addition,the cultivation of shii- take in cane field accelerated the cane growth and reduced the freeze in- jury of sugarcane in winter because it increased the CO_2 density in canopy and the temperature and moisture in field.After shii-take had been pluck- ed the fungus columns were spread into field as fertilizer which increased the types and numbers of profitable microorganism and improved the enzyme activity and increased the effective nutrients in soil,thereby increased the cane yield significantly.

1981—1982年至1986-1987年生产季的研究结果表明,利用蔗田畦沟直接放养香菇菌棒,不但比室内栽培的香菇增产,而且也比田间搭棚栽培的显著增产;不同香菇品种对蔗渣培养料的反应不同,其中以 Sc12、Cr02和 Sc22 3个品种的反应最佳;配方之间存在着显著不同的生物效应,其中高产素2的作用最大;不同的菌棒重量和体积的生物效应差别显著,其中以50cm×17.5cm×0.06cm 聚丙烯袋、每袋装675g 干培养料为最理想。研究还表明,利用配套的综合技术在蔗田培养香菇,平均相对生物效应达131.9%,明显高于单项技术或不完全配套技术。田间研究的结果进一步表明,放养香菇提高了甘蔗叶层的 CO_2量和蔗田温、湿度,既对甘蔗长高有促进作用,也可减轻冬季甘蔗冻害。蔗田施用生产香菇后的废菌棒,有利于良性微生物数量的增加,促进土壤酶活性和土壤有效养分的提高,对甘蔗有明显的增产效益。

This paper reports the distribution,accumulation and residue of ran earth elements(REE) in sugarcans and its effect on cell membrane permeability,content of bleeding sap,free water,bound water and free proline in sugarcane by using isotope tracer technique,instrument analysis (ICP-AES method) and plant physiologycal-biochemical analysis.The results showed that the REE can be absorbed into the sugarcane plants through leaves.Within 1~7 days after treatment,the absorption rate of cerium(141Ce) in organs of the...

This paper reports the distribution,accumulation and residue of ran earth elements(REE) in sugarcans and its effect on cell membrane permeability,content of bleeding sap,free water,bound water and free proline in sugarcane by using isotope tracer technique,instrument analysis (ICP-AES method) and plant physiologycal-biochemical analysis.The results showed that the REE can be absorbed into the sugarcane plants through leaves.Within 1~7 days after treatment,the absorption rate of cerium(141Ce) in organs of the plant gradually increased with the increase of days and reached maxium values which was about 2~3 times as large as that of 1st day,and after that it gradually decreased.The utilization efficiency of cerium (141Ce) by sugarcane plant was 0.836%~3.24%.The distribution of cerium (141Ce) in sugarcane plant was in the order of leaf>stem>root.The accumulation and residue of REE in sugarcane was in the order of leaf>stem (bagasse) >root>sucrose juice of cane.It was showed that a large amount of REE were accumulated and remained in the leaves and few amount in sucrose Juice of cane.For instance,in the treatment with 300 ppm REE,the residue in leaves,stem (bagasse),root and sucrose juice of cane were 6.776±0.035 ppm,4.419±0.012 ppm,2.940±0.018 ppm and 0.391±0.048 ppm,respectively.Within the 100~900 ppm REE treatment,the REE residue in the organs of sugarcane were increased with the increase of REE concentration.Both of them presented a significantly positive correlation relationship.The above results indicated that,in general,the content of bleeding sap,bound water and free proline in leaves could be increaased and the permeability of leaf cell membrane,content of free water could be reduced by treatments with certain REE concentration.Therefore,it can by said that the stress resistance and the yield of sugarcane could be improved by the REE treatment.

本文报道应用放射性核素铈(~(141)Ce)标记硝酸铈[~(141)Ce(NO_2)_2),利用ICP-AES法及植物生理生化分析技术,研究测定了稀土元素(REE)在甘蔗体内各器官的吸收、分配、残留累积和REE处理对甘蔗叶片细胞膜透性、伤流量,叶片自由水和束缚水含量以及游离脯氨酸含量等抗性生理指标的影响。甘蔗叶面喷施REE铈后的第1~7天,根、茎、叶器官吸收累积铈量是随着时间的增加而增加,第7天达吸收最大值,随后开始缓慢下降。甘蔗植株对REE铈的吸收率仅为0.836%~2.165%。REE铈在甘蔗叶片有较多的分配,其次为茎,最小为根部;REE在甘蔗叶片有较多的残留累积量,茎(甘蔗渣,下同)次之,根部又次之,蔗糖汁中最小,100~900ppm浓度范围的REE处理,甘蔗叶、茎、根及蔗糖汁中的REE残留累积量是随着REE处理浓度的增加而增加。当处理浓度在900ppm以上时(900~1 500ppm),REE在蔗糖汁中的残留量趋于平衡饱和状态。一定浓度的REE处理甘蔗可显著地提高甘蔗伤流量,降低甘蔗叶片细胞膜透性,减少叶片中自由水含量,提高束缚水...

本文报道应用放射性核素铈(~(141)Ce)标记硝酸铈[~(141)Ce(NO_2)_2),利用ICP-AES法及植物生理生化分析技术,研究测定了稀土元素(REE)在甘蔗体内各器官的吸收、分配、残留累积和REE处理对甘蔗叶片细胞膜透性、伤流量,叶片自由水和束缚水含量以及游离脯氨酸含量等抗性生理指标的影响。甘蔗叶面喷施REE铈后的第1~7天,根、茎、叶器官吸收累积铈量是随着时间的增加而增加,第7天达吸收最大值,随后开始缓慢下降。甘蔗植株对REE铈的吸收率仅为0.836%~2.165%。REE铈在甘蔗叶片有较多的分配,其次为茎,最小为根部;REE在甘蔗叶片有较多的残留累积量,茎(甘蔗渣,下同)次之,根部又次之,蔗糖汁中最小,100~900ppm浓度范围的REE处理,甘蔗叶、茎、根及蔗糖汁中的REE残留累积量是随着REE处理浓度的增加而增加。当处理浓度在900ppm以上时(900~1 500ppm),REE在蔗糖汁中的残留量趋于平衡饱和状态。一定浓度的REE处理甘蔗可显著地提高甘蔗伤流量,降低甘蔗叶片细胞膜透性,减少叶片中自由水含量,提高束缚水和叶片游离脯氨酸含量,从而提高甘蔗的抗逆性能和单位面积产量。

Ulteastructural changes of chloroplasts and mitochondria in mesophyll cells of sugar cane leaves under water stress were described.The outer membranes of the chloroplasts were broken.Many osmiophilic globules were found and the disapppearance.of grana and disruption of lamellae were observed wighin the chloroplasts.The outer membranes of the mitochondria were also broken.The cristae disappeared ?and some lipid droplets in the cytoplasm were observed.The degree of organelles disruption was lighter in the variety...

Ulteastructural changes of chloroplasts and mitochondria in mesophyll cells of sugar cane leaves under water stress were described.The outer membranes of the chloroplasts were broken.Many osmiophilic globules were found and the disapppearance.of grana and disruption of lamellae were observed wighin the chloroplasts.The outer membranes of the mitochondria were also broken.The cristae disappeared ?and some lipid droplets in the cytoplasm were observed.The degree of organelles disruption was lighter in the variety Co331 than in the variety Yue Tang 57/423.

电镜观察发现,干旱胁迫使甘蔗叶内细胞叶缘体基粒消失,外膜破裂,片层解体,出现较多嗜饿颗粒;线粒体嵴消失,外膜破裂,胞质中出现脂质滴。印度331叶片细胞器结构被碇环程度轻于粤糖57/423。

 
<< 更多相关文摘    
图标索引 相关查询

 


 
CNKI小工具
在英文学术搜索中查有关甘蔗叶的内容
在知识搜索中查有关甘蔗叶的内容
在数字搜索中查有关甘蔗叶的内容
在概念知识元中查有关甘蔗叶的内容
在学术趋势中查有关甘蔗叶的内容
 
 

CNKI主页设CNKI翻译助手为主页 | 收藏CNKI翻译助手 | 广告服务 | 英文学术搜索
版权图标  2008 CNKI-中国知网
京ICP证040431号 互联网出版许可证 新出网证(京)字008号
北京市公安局海淀分局 备案号:110 1081725
版权图标 2008中国知网(cnki) 中国学术期刊(光盘版)电子杂志社