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light and temperature condition
相关语句
  光温环境
     In order to investigate inner light and temperature condition as well as uptake of N, P and K in soil culture in winter spring and autumn winter crop in solar greenhouse, a cucumber variety (Cucumis sativas L vs Jinxinmici) was chosen in these experiments.
     以津新密刺黄瓜为试材 ,研究日光温室秋冬、冬春两个茬口温室内光温环境以及黄瓜对 N、 P、 K的吸收规律。
短句来源
     The results showed that inner greenhouse light and temperature condition of winter spring were better than that of autumn winter.
     结果表明 :温室内光温环境冬春茬较秋冬茬更符合黄瓜生育的要求。
短句来源
     The experiment was conducted in solar greenhouse using Zhongza 9 tomato variety, in order to investigate inner light and temperature condition, and the uptake and distribution of boron in soil culture in winter-spring and autumn-winter crop.
     以中杂9号番茄为试材,研究了秋冬、冬春两个茬口日光温室内不同光温环境下番茄对硼吸收和分配规律。
  “light and temperature condition”译为未确定词的双语例句
     The results showed that the distribution of total N, P2O5 and K2O was influenced by light and temperature condition in greenhouse.
     结果表明,2个栽培茬口的干物质及全N、P2O5、K2O的总体分配趋势一致,均表现为果实膨大期前,以向茎叶分配为主,进入果实膨大期之后以向果实中分配为主。
短句来源
     In autumn-winter crop, because of the abominable light and temperature condition, the distributing proportion of N, P2O5 and K2O in early stage of picking and middle stage of picking was higher than that in winter-spring crop. The concrete proportion changed with different elements and growth stages.
     秋冬茬番茄干物质及全N、K2O 、P2O5在采收初期和采收中期向果实中分配的比例高于冬春茬,而向茎叶中的分配比例降低。
短句来源
  相似匹配句对
     Light the Future
     点亮未来
短句来源
     Travelling light
     轻质的塑料自行车
短句来源
     The Transmit of Light and Reaction
     光的传播与相互作用
短句来源
     Light Pollution and Control
     光污染及其防治
短句来源
     T is temperature, ℃.
     T为温度,℃。
短句来源
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  light and temperature condition
diazotrophicus and maintained under the appropriate light and temperature condition used for micropropagation up to 7 days.
      
diazotrophicus and maintained under the appropriate light and temperature condition used for micropropagation up to 7 days.
      


Dry matter accumulation pattern of high yielding hybrid rice colony appeared as Logistic curve with the higheSt accumulation speed at meiosis stage.The accumulation amount was the maximurn in middle period(panicle initiative differentiation to heading),the second in later period(after heading)and the little in earlier period(before oanicle initiative differentiation).There were relevantlv different dry matter distribution centers in various growth stageS of rice.The distribution center in earlier period was...

Dry matter accumulation pattern of high yielding hybrid rice colony appeared as Logistic curve with the higheSt accumulation speed at meiosis stage.The accumulation amount was the maximurn in middle period(panicle initiative differentiation to heading),the second in later period(after heading)and the little in earlier period(before oanicle initiative differentiation).There were relevantlv different dry matter distribution centers in various growth stageS of rice.The distribution center in earlier period was leaves and sheaths,in middle period was leaves,sheaths and stems,and in later period was pani-cles, About 73 %~75 % of panicle filling matter was from photosynthesis after heading,and 27 %~25 % from the transportable storage matter in vegetatibve organs.Among the total transporting matter of vegetative organs,about 80% was storage carbohydrates and 6 % was N P K The advantageous light and temperature condition in middle and later periods of earller crop promoted the dry matter production of hybrid rice,which made the grain yield of earlier crop rice much higher than that of later crop rice

杂交稻高产群体干物质的积累动态呈Logistic生长曲线,积累半量期在减数分裂期,以中期积累最多,后期次之,前期较少。水稻各生育时期有其相应的干物质分配中心,前期为叶片和叶鞘,中期为叶片。叶鞘和茎秆,后期为穗。籽粒干物质的73%~75%来自抽穗后的光合作用,27%~25%由营养器官贮藏的干物质转运而来。在营养器官转运的干物质总量中,贮藏碳水化合物占86%,NPK占6%。杂交早稻中,后期的光温优势,促进了中。后期的于物质生产,产量显著高于杂交晚稻。

Experiments show that afforestation technology with strip clearing shrubs(ATSCS) is effective to develop forest. Aside from soil and water conservation, and protection of bio-diversity, this technology can mix natural trees with artificial trees in the same system. The clearing of shrub belts improved light and temperature condition in the ecosystem, and, there-fore , stimulated the decomposition rate of organic matter and accelerated the growth of young forest. It is a good technology to form a tree-shrub-grass...

Experiments show that afforestation technology with strip clearing shrubs(ATSCS) is effective to develop forest. Aside from soil and water conservation, and protection of bio-diversity, this technology can mix natural trees with artificial trees in the same system. The clearing of shrub belts improved light and temperature condition in the ecosystem, and, there-fore , stimulated the decomposition rate of organic matter and accelerated the growth of young forest. It is a good technology to form a tree-shrub-grass multi-layer system.

实验研究表明,清带造林技术是将山地植被自然恢复和目的树种人工重建有机结合的有效的森林重建技术措施。它能有效地防止水土流失,改善林地的光、温、有机质分解条件,促进林木生长,维持物种多样性,利于形成乔-灌-草-地被物多层次立体结构。

In order to investigate inner light and temperature condition as well as uptake of N, P and K in soil culture in winter spring and autumn winter crop in solar greenhouse, a cucumber variety (Cucumis sativas L vs Jinxinmici) was chosen in these experiments. The results showed that inner greenhouse light and temperature condition of winter spring were better than that of autumn winter. With development of the plant, root volume increased rapidly, root activity reached at the apex at early fruit...

In order to investigate inner light and temperature condition as well as uptake of N, P and K in soil culture in winter spring and autumn winter crop in solar greenhouse, a cucumber variety (Cucumis sativas L vs Jinxinmici) was chosen in these experiments. The results showed that inner greenhouse light and temperature condition of winter spring were better than that of autumn winter. With development of the plant, root volume increased rapidly, root activity reached at the apex at early fruit stage in winter spring, whereas root volume increased slowly, root activity declined in autumn winter. The uptake rate of total N, P 2O 5 and K 2O enhanced with plant development in winter spring. The rate was lower at plantlet stage, reached at the apex at bloom and declined at following stage in autumn winter. The uptake ratio of total N, P 2O 5 and K 2O varied with seasons and developmental stages. The accumulated uptake amount (kg/667 m 2) of total N, P 2O 5 and K 2O was 12 96,13 99 and 36 43 in winter spring and 3 56,2 64 and 8 39 in autumn winter, respectively. The percentage of each developmental stage to total uptake amount varied. During fruit bearing stage, it was about 90% with 22%, 55% and 13% at early fruit, mid fruit and late fruit stage in winter spring, respectively, while about 70% with 32%, 30% and 10% in autumn winter. The causes of nutrient absorbtion difference were analyzed and nutrient application according to environment as well as plant developmental stage was also discussed in the article.

以津新密刺黄瓜为试材 ,研究日光温室秋冬、冬春两个茬口温室内光温环境以及黄瓜对 N、 P、 K的吸收规律。结果表明 :温室内光温环境冬春茬较秋冬茬更符合黄瓜生育的要求。随生育进程 ,黄瓜冬春茬根体积增加较快、根系活力变化呈单峰曲线 ,秋冬茬根体积增加缓慢、根系活力逐步下降 ;植株全 N、P2 O5和 K2 O的吸收速率 ,冬春茬呈增加趋势 ,秋冬茬苗期较低、初花期达最高、结瓜期逐步下降。植株吸收全 N、 P2 O5和K2 O的比例 ,不同茬口不同生育阶段有变化。每 667m2 全生育期黄瓜全 N、 P2 O5和 K2 O吸收量 ,冬春茬依次为 1 2 .96、 1 3 .99和 3 6.43 kg,秋冬茬为 3 .5 6、 2 .64和 8.3 9kg。不同茬口不同生育阶段全 N、P2 O5、K2 O吸收量占总吸收量的比例有变化 ,冬春茬结瓜期占 90 %以上 ,初瓜、盛瓜和末瓜期分别约占总吸收量的 2 2 %、 5 5 %和 1 3 % ;秋冬茬结瓜期占 70 %左右 ,初瓜、盛瓜和末瓜期分别为 3 2 %、 3 0 %和 1 0 %。还分析了引起养分吸收差异的原因 ,并对依据植株生长环境和生育阶段调整养分...

以津新密刺黄瓜为试材 ,研究日光温室秋冬、冬春两个茬口温室内光温环境以及黄瓜对 N、 P、 K的吸收规律。结果表明 :温室内光温环境冬春茬较秋冬茬更符合黄瓜生育的要求。随生育进程 ,黄瓜冬春茬根体积增加较快、根系活力变化呈单峰曲线 ,秋冬茬根体积增加缓慢、根系活力逐步下降 ;植株全 N、P2 O5和 K2 O的吸收速率 ,冬春茬呈增加趋势 ,秋冬茬苗期较低、初花期达最高、结瓜期逐步下降。植株吸收全 N、 P2 O5和K2 O的比例 ,不同茬口不同生育阶段有变化。每 667m2 全生育期黄瓜全 N、 P2 O5和 K2 O吸收量 ,冬春茬依次为 1 2 .96、 1 3 .99和 3 6.43 kg,秋冬茬为 3 .5 6、 2 .64和 8.3 9kg。不同茬口不同生育阶段全 N、P2 O5、K2 O吸收量占总吸收量的比例有变化 ,冬春茬结瓜期占 90 %以上 ,初瓜、盛瓜和末瓜期分别约占总吸收量的 2 2 %、 5 5 %和 1 3 % ;秋冬茬结瓜期占 70 %左右 ,初瓜、盛瓜和末瓜期分别为 3 2 %、 3 0 %和 1 0 %。还分析了引起养分吸收差异的原因 ,并对依据植株生长环境和生育阶段调整养分的供给进行了讨论

 
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