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
   full blooming 的翻译结果: 查询用时:0.029秒
图标索引 在分类学科中查询
所有学科
农作物
园艺
更多类别查询

图标索引 历史查询
 

full blooming
相关语句
  盛花期
     The accumlation of dry matter was 42.6g/m2 at seedling, 104 g/m2 at branching, 149 g/m2 at the beginning of flowering, 351 g/m2 at full blooming, 709g/m2 at pod formation, 916g/m2 at pod filling, 1197g/m2 at yellow ripenning.
     干物质积累苗期42.6g/m~2,分枝期104g/m~2,初花期149g/m~2,盛花期351g/m~2,结荚期709g/m~2,鼓粒期(R_2)916g/m~2,黄熟期1197g/m~2;
短句来源
     The NR activity appears two peaks during growth period: the highast one is on seedling (V_2-V_4) and another on full blooming stage (R_2).
     在整个生育期内,苗期(V_2-V_4)NR活性最高,盛花期(R_2)出现一个峰而呈双峰曲线。
短句来源
     leaf area index (LAI) increased from seed emergence to full blooming, it reached about 5.5 ane more at pod formation and it mai-mntained in 3.5-4.0 at yellow ripenning (R6-R7).
     叶面称指数(LAI)自出苗到盛花期不断增长,结荚期(R_3)最高达5.5左右,黄熟期(R_6—R_7)仍保持3.5—4.0;
短句来源
     In different growth stages, the average light compensation point of colony leaves and the most large LAI was: full squaring full blooming 21.8 μmol·m -2 ·s -1 and <4.02 full blooming full bolling 23.2 μmol·m -2 ·s -1 and <4.0;
     不同生育期群体叶片的平均光补偿点和最大叶面积系数指标分别为:盛蕾及盛花期21.8μmol·m-2·s-1和<4.02; 盛花至盛铃期23.2μmol·m-2·s-1和<4.0;
短句来源
     In order to reveal the correlation among the fertilizer rate, topping stage and main chemical component influencing of tobacco in different ecology areas, there carried out the tests of fertilizer amount, which was 72kg/hm2, 90kg/hm2, 108kg/hm2 respectively, and the tests of topping at buttoning stage, topping, at the early bloom and topping at full blooming stage.
     为探讨施肥量与打顶对不同生态点烟叶化学成分的关系,在云南楚雄、弥渡、南涧、祥云进行了施肥量(72kg/hm2、90kg/hm2、108kg/hm2)与打顶(扣心打顶、中心花开打顶、盛花期打顶)试验,结果表明:总糖、总氮、烟碱、蛋白质、钾含量不同生态点差异显著。
短句来源
更多       
  盛开
     and the LT 50 of pink flower buds and full blooming flowers was in -6~-9℃ and -4~-6℃ respectively.
     杏花蕾的LT50在-6~-9℃,盛开花朵的LT50在-4~-6℃.
短句来源
     Critical lethal temperature (LT 50 ) of apricot pink flower buds and full blooming flower in six different ecologic regions was determined with electrolyte leakage and logistic equation.
     用电导法配以Logistic方程,测定了6个不同生态地区杏(apricot)品种花蕾和盛开花朵的半致死温度(LT50)。
短句来源
     Full Blooming Rose in the Fence——On the Feminine Images in Jia Ping'ao's Novel
     盛开在樊篱中的玫瑰——浅析贾平凹小说中的女性形象
短句来源
  盛花
     It had its leaf area index 1.30 at blooming stage,2.80 at full blooming stage,3.90 at full balling stage,1.80 at full opening boll stage,total photosynthetic potential 231.35×10 4 m 2·d(the value after full balling stage accounted for 70.37% of total);
     叶面积指数在开花、盛花、盛铃、盛絮期分别为1.30、2.80、3.90、1.80; 总光合势231.35×104m2·d,其中盛铃期以后的光合势占总光合势的70.37%;
短句来源
     In different growth stages, the average light compensation point of colony leaves and the most large LAI was: full squaring full blooming 21.8 μmol·m -2 ·s -1 and <4.02 full blooming full bolling 23.2 μmol·m -2 ·s -1 and <4.0;
     不同生育期群体叶片的平均光补偿点和最大叶面积系数指标分别为:盛蕾及盛花期21.8μmol·m-2·s-1和<4.02; 盛花至盛铃期23.2μmol·m-2·s-1和<4.0;
短句来源
     L-1 2 weeks after full blooming fully.
     L-1在盛花后2周浸蘸无核处理过的‘玫瑰香’果穗,无核果粒的膨大及品质良好。
短句来源
     The result showed that the contents of N and K in leaves and petioles decreased with the growth of grape,and the decreasing rate of N in leaves was more significant from early blooming to the sixth week after the full blooming period;
     结果表明,叶片及叶柄中N,K含量在葡萄年生长季内的变化呈下降趋势,其中叶片N含量在初花期至盛花后第6周下降最为明显;
短句来源
     The zygotes began to divide on the nineteenth day after full blooming,then passed through the process of two-cell proembryo→multicellular proembryo→globular embryo,and thereafter showed degenerating embryos;
     合子在盛花后第19天进行第一次分裂,经过二细胞原胚→多细胞原胚→球形胚,此后胚开始退化;
短句来源
更多       
  “full blooming”译为未确定词的双语例句
     The results are as follows: 1)Along with the growing of M.sativa,the pectin content decreased gradually,the mean pectin contents of five varieties in the vegetation stage,bud stage,early blooming and full blooming were(11.2%),9.23%,9.07% and 8.28% respectively.
     结果表明,1)随着生育期的推移,苜蓿中果胶的含量逐渐降低,营养期、孕蕾期、开花初期和开花盛期5个品种的平均(干物质基础)果胶含量分别为11.2%,9.23%,9.07%和8.28%;
短句来源
     The mean pectin contents of five variety in the vegetation stage, budstage, early blooming and full blooming were 11.2%, 9.23%, 9.07% and 8.28%respectively.
     五个品种平均(DM 基础),营养期、孕蕾期、开花初期和开花盛期的果胶含量分别为 11.2%、9.23%、9.07%和 8.28%;
短句来源
     The highest digestible dry matter yield was 112.9 g. m~-2 at full blooming stage.
     可消化干物质(DDM)产量以开花期112.9g·m~(-2)最高。
短句来源
     The results showed that the digestibility of DM and OM significantly reduced(P<0.01)with extensive growing period:digesbility of DM was 63.56% and OM was 59.77% in vegetative period,while it was(47.64%),45.37% respectively in full blooming.
     结果表明,DM和OM消化率随着生育期的推移极显著(P<0.01)下降。 营养期最高,分别为63.56%和59.77%;
短句来源
     An experiment was conducted with +B (0.2% H3BO4) and -B (H2O) spraying before full blooming and early stage of fruit development of two citrus species.
     在盛花前和果实发育初期对缺硼胡柚和温州蜜柑进行叶面喷硼处理(喷施0.2%H3BO4溶液),以探讨硼对不同柑桔品种生理特性的影响。
短句来源
更多       
查询“full blooming”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
没有找到相关例句


From 1956 to 1958, the study of the effects of day length upon the Photostage, floral curve, number of boll and the development of reproductive organs of the Sea Island cotton (Gossypium barbadense L.) was carried on at Canton. The Sea Island cotton was first introduced to Kwangtung several years ago and has since gradually become a new important economic: Plant, and the timely investigation possesses both practical and theoretical importanee. Varieties used in these experiments were Kaiyuan perennial cotton....

From 1956 to 1958, the study of the effects of day length upon the Photostage, floral curve, number of boll and the development of reproductive organs of the Sea Island cotton (Gossypium barbadense L.) was carried on at Canton. The Sea Island cotton was first introduced to Kwangtung several years ago and has since gradually become a new important economic: Plant, and the timely investigation possesses both practical and theoretical importanee. Varieties used in these experiments were Kaiyuan perennial cotton. Wenghan perennial cotton: Cháang róng no. 3,910И,2И3 and 5476И. The results of these experiments may be briefly summarized as follows: All the six varieties of Sea Island cotton are found to be short day Plants. The budding arid the flowering period may be accelerated by shortening the day length, particularly 10—12—hour day length. In the short day treatment, the first fruiting branch will appear at the lower mainstem node, the number of flowers and the boll are greatly increased and the full blooming period occurs earlier. There are differences of photoperiodic responses among different varieties. 5476И is less sensitive to thep hotoperiodie responses, while Kaiyuan perennial cotton possesses the greatest photoperiodic responses. The latter fails to produce flower in the 16—hour illumination treatment, and the flower does not appear until October when the plant is under the natural day length, while in the 10—hour illumination conditions, the length of time required from sprouting to flowering is merely 62—67 days.According to the theory of phasic development of Plants, the blooming time is generally used as a determinator in the completion of the developmental phases. The completion of Photostage is from the 20th to 45th day for Kaiyuan perennial cotton, from the 10—15th to 30th day for wenghan perennial Cotton and 910И after sprouting.The development of the reproductive organs may be accelerated by the short day length. The number of days required for the development of the floral bud is reduced, the interval between the blooming of the two flowers located at the adjacent nodes on the same fruiting branch is shortened, the plant possesses more fruiting branches at the mainstem, more fruiting nodes are found on the same fruiting branch, more extra-axillary buds grow into flowers, and almost every floral bud develops into flower, and the fiber strength and the fiber length are found to be also improved. However, if the cotton plant is located under the long day length, the bud shedding is sure to be more profuse and the developmcnt of reproductive organs is delayed. Therefore, the planting season is preferably to be earlier iu the year in order to enable the cottoU plant to secure the natural short day. The higher yield and better quality of cotton fiber will be obtained under such a condition.

(1) 海島棉是短日性作物,对光照长度的反应是敏感的。在試驗的6个品种中,以开远离核木棉的敏感性最强,文山木棉、910И、长絨三号、2И3次之,而5476И則最弱。在10小时日照下的棉株較在自然日照及16小时光照下的棉株其现蕾期及开花期均提早,第一果枝着生节位下降,开花数及結鈴数均显著增加。(2) 开远木棉在16小时下不开花,在广州地区的自然条件下要在10月后才能开花,但以10—12小时日照处理則出苗至开花仅需62—67天,而且在生育期的第一年中其开花曲綫还出現三个开花頂峯;在8小时日照下則出苗至开花所需天数为76天。(3) 以现蕾期或开花期作为发育阶段通过的指标,測得文山木棉及910И在出苗后10—15天进入光照阶段,而在出苗后30天左右完成,光照阶段的通过需要15—20天的10小时日照。(4) 測定开远木棉的光照阶段,应当以它的开花期作为指标。开远木棉在出苗后20—25天进入光照阶段,而在38—45天結束,在10小时日照下光照阶段所需天数为18—25天。(5) 短日照促进棉株生殖器官的发育,表现在果枝数的增加,果枝上果节数的增加,蕾期发育所需的天数縮短,在同一果枝上相邻两花开放間隔的天数减少,同时出現較多...

(1) 海島棉是短日性作物,对光照长度的反应是敏感的。在試驗的6个品种中,以开远离核木棉的敏感性最强,文山木棉、910И、长絨三号、2И3次之,而5476И則最弱。在10小时日照下的棉株較在自然日照及16小时光照下的棉株其现蕾期及开花期均提早,第一果枝着生节位下降,开花数及結鈴数均显著增加。(2) 开远木棉在16小时下不开花,在广州地区的自然条件下要在10月后才能开花,但以10—12小时日照处理則出苗至开花仅需62—67天,而且在生育期的第一年中其开花曲綫还出現三个开花頂峯;在8小时日照下則出苗至开花所需天数为76天。(3) 以现蕾期或开花期作为发育阶段通过的指标,測得文山木棉及910И在出苗后10—15天进入光照阶段,而在出苗后30天左右完成,光照阶段的通过需要15—20天的10小时日照。(4) 測定开远木棉的光照阶段,应当以它的开花期作为指标。开远木棉在出苗后20—25天进入光照阶段,而在38—45天結束,在10小时日照下光照阶段所需天数为18—25天。(5) 短日照促进棉株生殖器官的发育,表现在果枝数的增加,果枝上果节数的增加,蕾期发育所需的天数縮短,在同一果枝上相邻两花开放間隔的天数减少,同时出現較多的椏果,以及在一果节上常有两个鈴存在。无疑这是棉株在短日照下蕾鈴数增多,开花較集中,盛花期提早的原因。(6) 纤維品貭也受光照长度所影响。在短日照下,纤維强力及长度均增加。(7) 16小时的长光照延緩棉株的发育同时也引起棉株严重的落蕾现象,10小时的短日照促进棉株的发育并且落蕾現象极少发生。

1.A close relationship is existed between the proper water content of soil and the incre-ment of flowers and prevention of pod-shedding of soybeans.Number of pods borne on a single soybean plant as well as seed yield would decrease and pod-shedding rate would increaseas the plant suffered from drought during flowering and pod-bearing stage.The suffering isparticularly severe if drought occurs in late July when soybeans are on full-blooming-stage.Under such condition the growth and development of...

1.A close relationship is existed between the proper water content of soil and the incre-ment of flowers and prevention of pod-shedding of soybeans.Number of pods borne on a single soybean plant as well as seed yield would decrease and pod-shedding rate would increaseas the plant suffered from drought during flowering and pod-bearing stage.The suffering isparticularly severe if drought occurs in late July when soybeans are on full-blooming-stage.Under such condition the growth and development of soybean plant would be hindered andless vigorous;pod-shedding rate would sharply increase while seed size would be larger.InAugust when pods are on forming-stage,drought would cause less damage on plant vigor butpod-shedding rate would be comparatively high,seed size would noticeably decrease,andpod-formation-stage 70%,and pod-filling-stage 60-65%.The experimental results of the past several years have showed that,in the leachedchernozen soil region of North East of China,the proper soil water content (in per centof water holding capacity) of the 0-5 50 cm.soil layer of the high yielding soybean field duringdifferent soybean growing stage should be:branching-stage 55-60%, blooming-stage 60-70,%,pod-forming-stage 70%,and pod-filling-stage 60-65%.2.If the density of stand and planting method are regulated according to soil fertility,number of pods per unit area would greatly increase,owing to that under such conditionsillumination and soil fertility can be fully utilized by soybean plants,and resulting in theincrement of photosynthetic rate and accumulation of photosynthetic products.Under lessfertile soil when variety Small Golden Yellow No.1 is used,and row distance is 60 cm.,thesuitable density of stand would be 250-300 thousands of plants per hectare.Under more fertileconditions the suitable density of stand should decrease to 100-150 thousands of plants perhectare.As to the method of planting,on fertile soil the 45×45 cm.square method with 3-5plants in each hill is much better than drilling method of which the distance between rows is50 cm.or 60 cm.Under square method,both of the rate of pod-bearing and the rate of pod-shedding of soybeans are high.When potato or wheat is interplanted between the rows of soybean,utilization of illumina-tion and soil fertility as well as microclimatic conditions are greatly improved.This wouldeffectively raise the number of pods of the individual soybean plants.For interplantation2:2 or 3:3 ratio is recommended for the fertile soil.3.The best time of topping (on comparatively fertile soil) of soybeans is preliminarilyconsidered to be on late blooming-stage.Topping on branching-stage is next,while on earlyblooming-stage ranks the third.Fertilizers containing NK Show the best result when theyare applied on late blooming-stage,while P fertilizer gives best result when it is applied onbranching-stage.The spraying of 3% of superphosphate solution for 2-3 times on leaves of soybeans duringthe pod-bearing stage (early August) can reduce the rate of pod-shedding.4.The spraying of minor-elements on soybean plants during full-blooming- and earlypod-forming-stage can increase intensity of respiration and photosynthetic capacity,andthus,beneficial for the increase of seed yield.The proper concentration of ammoniummolybdate solution sprayed during full-blooming-stage and early pod-forming-stage is 0.05%,while that of zinc sulphate sprayed during full-blooming-stage is 0.01%.5.Paying great attention to fieid management and adopting the practice of deep plowingare effective measures to promote soybean plants to have a vigorous growth and to bear moreflowers and pods.

本文根据几年来的调查及试验资料,研究了不同栽培条件对大豆花莢脱落的影响;提出了在吉林省一般栽培条件下的大豆增产措施。

Rice was grown in Hoagland solution added separately with Cd at 0, 0.01,0.05,0.1, l,5ppm and Hg at 0, 0.1, 0.5, 1, 3, 5ppm. Photosynthesis of the leaves was found decreased sharply as the enriched concentration in the solution and the content of heavy metals in the leaves increased. During the jointing stage, the rates of photosynthesis of rice expressed in percentage of photosynthesis of the leaves being treated with respect to controls, treated with different concentrations of cadmium and mercury, were reduced...

Rice was grown in Hoagland solution added separately with Cd at 0, 0.01,0.05,0.1, l,5ppm and Hg at 0, 0.1, 0.5, 1, 3, 5ppm. Photosynthesis of the leaves was found decreased sharply as the enriched concentration in the solution and the content of heavy metals in the leaves increased. During the jointing stage, the rates of photosynthesis of rice expressed in percentage of photosynthesis of the leaves being treated with respect to controls, treated with different concentrations of cadmium and mercury, were reduced to 17-43%and 22-66%respectively. During the full blooming stage, the rates of the photosynthesis for all of the leaves being treated were on the rise, particularly so for those being treated at low concentrations. And it may be explained of owing to the fact that resistance resulted from adaptation of the rice to the heavy metals absorbed. Cd gradually caused the leaves chlorosis and damaged the chlorophyll; while Hg inhibited the normal growth of the roots and hindered absorption of water, thus affecting photosynthesis. Preliminary observations showed that in case the photosynthesis rates were reduced to about 50%, the surface of the leaves carried clear marks of reaching the point of severe injury. Therefore, lowering of the photosynthesis rates may lead to reduction of the yield and thousand kernels weight of the rice.

栽培在Cd浓度0,0.01、0.05、0.1、1、5ppm和Hg浓度0、0.1、0.5、1、3、5ppm的荷格兰德溶液中的水稻,其叶片光合强度随处理浓度和叶片金属含量增加而明显地下降。用不同浓度Cd、Hg处理的植株,在拔节期光合比率(即处理叶片光合强度为对照叶片光合强度的百分比,下同)分别减少17—43%和22—66%。到了盛花期,各处理叶片光合比率有所提高,低浓度处理的尤为显著,这是成年植株对重金属逐渐产生抗性的结果。Cd使叶片逐渐褪绿,破坏叶绿素结构;Hg抑制根系正常生长,妨碍水分吸收,从而抑制光合作用。初步看出在光合比率约减少50%时,叶片的表面伤害巳很突出,可达到严重受害的界限。光合比率下降导致了产量及千粒重的降低。

 
<< 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full blooming的内容
在知识搜索中查有关full blooming的内容
在数字搜索中查有关full blooming的内容
在概念知识元中查有关full blooming的内容
在学术趋势中查有关full blooming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