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
   growth and fruitage 的翻译结果: 查询用时:0.111秒
图标索引 在分类学科中查询
所有学科
园艺
更多类别查询

图标索引 历史查询
 

growth and fruitage
相关语句
  生长和结果
     EFFECT OF WATER STRESS ON THE GROWTH AND FRUITAGE OF PRECOCIOUS WALNUTS
     水分胁迫对早实核桃生长和结果的影响
短句来源
  “growth and fruitage”译为未确定词的双语例句
     The results show that the growth and fruitage of single plant are the most excellent and the seed yield get to 33.8 g when the biggest row spacing in the rows is 50×30 cm, but the yield/mu is the most getting to 368.2 kg when the biggest row spacing in the rows is 50 × 10 cm.
     而亩产量则以大行距小株距(50×10cm)为最高,达368.2公斤。
短句来源
  相似匹配句对
     The growth of E.
     重组HBD 2对E.
短句来源
     the growth’s footprint
     成长的足迹
短句来源
     Growth and metabolism of D.
     结果表明 :石斛的生长与代谢随温度由低到高 ,表现出弱 -强 -弱的变化规律 ;
短句来源
     R&D and Economic Growth
     科研开发与经济增长——兼论科研开发的溢出效应
短句来源
     The root of benevolence and the fruitage of hypocrisy
     “仁义”之根与伪善之果
短句来源
查询“growth and fruitage”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


The effects of plant densities in fields on the growth and fruitage of Vaccaria segetalis are bigger. The branch, flower, fruit numbers of the single plant of V. segetalis in 12 kinds of different density fields are investigated in the paper. The results show that the growth and fruitage of single plant are the most excellent and the seed yield get to 33.8 g when the biggest row spacing in the rows is 50×30 cm, but the yield/mu is the most getting to 368.2 kg when the biggest row spacing in the rows...

The effects of plant densities in fields on the growth and fruitage of Vaccaria segetalis are bigger. The branch, flower, fruit numbers of the single plant of V. segetalis in 12 kinds of different density fields are investigated in the paper. The results show that the growth and fruitage of single plant are the most excellent and the seed yield get to 33.8 g when the biggest row spacing in the rows is 50×30 cm, but the yield/mu is the most getting to 368.2 kg when the biggest row spacing in the rows is 50 × 10 cm.

田间密度对王不留行的生长及结实性能有较大的影响。本试验对12个不同密度处理小区的王不留行单株分枝数、开花数、结果数及种子产量的调查统计,发现单株生长及结实性能以最大行株距50×30cm最佳,种子产量达33.8克;而亩产量则以大行距小株距(50×10cm)为最高,达368.2公斤。

After measuring the photosynthetic rate and transpiration rate of the leaves of seven-year field and two-year potted Malus pumila CV. Goldspur under different soil water and illumination conditions, together with the calculation of water use efficiency (WUE), the result showed that because photosynthetically active radiation (PAR) and soil water content (SWC) affected the photosynthetic rate and transpiration rate of Goldspur, they thus influenced WUE. The response of WUE to different illumination conditions...

After measuring the photosynthetic rate and transpiration rate of the leaves of seven-year field and two-year potted Malus pumila CV. Goldspur under different soil water and illumination conditions, together with the calculation of water use efficiency (WUE), the result showed that because photosynthetically active radiation (PAR) and soil water content (SWC) affected the photosynthetic rate and transpiration rate of Goldspur, they thus influenced WUE. The response of WUE to different illumination conditions had some relation to the soil water. When water stress existed, under different SWC conditions, WUE would change greatly with PAR. When SWC was approximately 10% (50% of field capacity - FC), the maximum WUE was the highest among all the soil water treatment and reached about 230 μmolCO 2/gH 2O. When the water supply was adequate (SWC>15%), the maximum was only about 160 μmolCO 2/gH 2O. The differences among SWC levels were not obvious and the simulated curves almost overlapped although WUE decreased slowly after reaching the maximum. This showed that when severe water stress existed, because photoinhibition occurred earlier and severely influenced photosynthesis, it made the decrease rate of photosynthetic rate faster than that of transpiration rate. The phenomenon of rapid decrease of WUE occurred when PAR was not high and severely influenced the increase of WUE. With different SWC condition, WUE would change and this change was related to the illumination conditions. Under weak light (PAR<500 μmol/(m 2·s)), the maximum WUE was relatively low and after it reached the maximum, the decrease rate was comparatively high, together with the increase of SWC. Under strong light (PAR>1000 μmol/(m 2·s)), due to the photoinhibition, the maximum WUE was also relatively low, and the higher the light intensity was, the higher SWC was when the maximum occurred. WUE was the highest within the scope of 500growth and fruitage of trees. From the overall consideration of WUE, Pn and Tr, the scopes of RS and Ψ 1 should be 2~6 s/cm and -2.1~-1.65 MPa respectively in order to guarantee the normal photosynthesis of Goldspur and improve WUE. The scope of the corresponding SWC was 11%~15%, which was equal to 55%~75% of FC and this scope could be used as a theoretical index of field water supply of Goldspur.

通过对金矮生苹果 ( Malus pumila CV.goldspur)在不同土壤水分和光照条件下叶片光合速率 ( Pn)和蒸腾速率( Tr)进行测定 ,并计算水分利用效率 ( WUE)。结果表明 ,由于光合有效辐射 ( PAR)和土壤水分 ( SWC)决定了金矮生苹果Pn和 Tr,从而影响到 WUE。在水分胁迫存在时 ,不同 SWC条件下的 WUE随 PAR的变化规律相差较大 ,SWC为 1 0 %(田间持水量 F C的 5 0 % )左右时 ,WUE最大值在所有土壤水分处理中居于最高 ( 2 30 μmol CO2 /g H2 O)。在水分供应充足时 ,尽管 WUE在达到最大值之后下降缓慢 ,但最大值只有 1 6 0 μmol CO2 /g H2 O左右 ,并且各 SWC水平之间差异不显著 ,模拟曲线基本重叠。 WUE随 SWC的变化与光照条件有关 ,光强范围在 5 0 0

通过对金矮生苹果 ( Malus pumila CV.goldspur)在不同土壤水分和光照条件下叶片光合速率 ( Pn)和蒸腾速率( Tr)进行测定 ,并计算水分利用效率 ( WUE)。结果表明 ,由于光合有效辐射 ( PAR)和土壤水分 ( SWC)决定了金矮生苹果Pn和 Tr,从而影响到 WUE。在水分胁迫存在时 ,不同 SWC条件下的 WUE随 PAR的变化规律相差较大 ,SWC为 1 0 %(田间持水量 F C的 5 0 % )左右时 ,WUE最大值在所有土壤水分处理中居于最高 ( 2 30 μmol CO2 /g H2 O)。在水分供应充足时 ,尽管 WUE在达到最大值之后下降缓慢 ,但最大值只有 1 6 0 μmol CO2 /g H2 O左右 ,并且各 SWC水平之间差异不显著 ,模拟曲线基本重叠。 WUE随 SWC的变化与光照条件有关 ,光强范围在 5 0 0

By means of the determination of net photosynthetic rate and transpiration rate of the leaves of seven-year field and two-year spotted Malus pumila(Goldspur) under different soil water contents and illumination and calculation of water use efficiency (WUE), the optimum soil water supply range of Malus pumila was determined. The results showed that: because photosynthetic advantageous radiation (PAR) and soil water content (SWC) decided the value of photosynthetic rate and transpiration rate of Goldspur, thus...

By means of the determination of net photosynthetic rate and transpiration rate of the leaves of seven-year field and two-year spotted Malus pumila(Goldspur) under different soil water contents and illumination and calculation of water use efficiency (WUE), the optimum soil water supply range of Malus pumila was determined. The results showed that: because photosynthetic advantageous radiation (PAR) and soil water content (SWC) decided the value of photosynthetic rate and transpiration rate of Goldspur, thus they influenced the value of WUE. The response of WUE to illumination had relations with soil water. When SWC was 10% (50% of field capacity-FC) or so, the maximum of WUE was the highest value among all the soil water treatment and reached about 230 umolCO2.. g-1 H2O. When the water supply was adequate (SWC>15% ), the maximum was only 160 umolCO2.g-1H2O or so, the difference between each SWC level was not obvious and simulated curve fundamentally overlapped, although WUE decreased slowly after reached the maximum. The variation of WUE with SWC had relations with illumination. WUE was the highest while PAR was in the range of 500~1 000 umol.m-2. s-1). Because the state of soil water decided the values of stomatic resistance (RS) and leaf water potential, RS and also had influence on the changes of WUE.When RS and were respectively 2.0 s. cm-1 and -3.0 MPa, WUE was the highest, but Pn was relatively low, which was not good to the normal growth and fruitage of trees. From the overall consideration of WUE, Pn and Tr, the scopes of RS and were 2 ~6 s.cm-1 and -2.1 ~-1.65 MPa, respectively, which not only guaranteed the normal photosynthesis of Goldspur, but also benefited the increase of WUE. The scope of the corresponding SWC was 11% ~ 15% , which was equal to 55% ~ 75 % of FC and this scope could be used as theoretical index of field water supply for Goldspur.

对7年生田间和2年生盆栽金矮生苹果(Malus pumila)不同土壤水分(SWC)条件下水分利用效率(WUE)研究表明,SWC约为10%时,WUE最大值在所有处理中最高(230 μmolCO_2·g~(-1)H_2O);在水分供应充足时,WUE最大值只有160μmolCO_2·g~(-1)H_2O左右,各SWC水平间差异不显著。WUE随SWC的变化与光照条件有关,光强范围在500

 
图标索引 相关查询

 


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