根区

  • 网络root-zone;Root zone;Root region
根区根区
  1. 利用此方法对340个指根区和354个外侧区的油墨捺印掌纹图像进行了测试,在指根区的正确率为95.6%,在外侧区则为96.9%。

    Tests with 340 inked palmprint images of the finger - root region and 354 inked palmprint images of the outside region had a correct identification rate of 95.6 % for the finger region and 96.9 % for the outside region .

  2. 矿质肥料对杉木苗根区土壤生化性的影响

    Effect of Mineral Fertilizer on Biochemical Properties of Root Region Soil under Chinese Fir

  3. 降低根区温度虽然增加了黄瓜幼苗一些元素的含量,但同时也使叶片中除K以外的其他元素含量都降低。

    Lowering root zone temperature increased contents of some elements in seedlings , but contents of elements ( do not include K ) in leaf decreased .

  4. 根区土壤多酚含量与土壤pH值、有机质含量、铅的化学形态和叶片铅吸附能力的相关关系显著。

    Polyphenol content in the soil of root zone had significant correlation with soil pH , organic matter content , chemical species of lead , and lead adsorption capacity of leaf .

  5. 她警告称,德国议会可能阻止列支敦士登今年11月加入欧盟免签的申根区(Schengenzone)。

    She warned that the German parliament could block Liechtenstein 's entry in November into the European Union 's border-free Schengen zone .

  6. 通过盆栽试验,研究了Cd和Pb污染对烤烟根区微生物和烟叶品质的影响。

    A pot experiment was conducted to study the impacts of Cd and Pb pollution on soil microbes in tobacco root zone and the quality of tobacco leaves .

  7. 相关性分析发现湿地植物根区的细菌总数与BOD5的去除率之间存在显著相关性;

    (ⅳ) Significant positive correlation between total number of bacteria in the wetland plant root-zones and removal rate of BOD5 was found ;

  8. 英国对华签证联盟(UKChinaVisaAlliance)数据显示,在来欧洲观光的中国旅游团当中,约有90%略过了英国——英国不在欧盟免签申根区内——这使英国每年损失12亿英镑收入。

    According to the UK China Visa Alliance , about 90 per cent of Chinese tour groups visiting Europe omit Britain - which is not part of the EU 's visa-free Schengen zone - resulting in £ 1.2bn of lost revenue each year .

  9. 在50%土壤饱和持水量下,分根区施保水剂显著降低了叶片气孔导度,叶片CO2吸收量和H2O蒸腾量也同时降低,但H2O蒸腾量下降幅度更大;

    And under 50 % soil saturated capacity , leaf stomatal conductance decreased evidently , and the volume of CO_2 absorption and H_2O transpiration both decreased as well but the H_2O transpiration reduced with more extent .

  10. 重碳酸氢根对水稻根区重要有机酸分布的影响与水稻品种耐缺Zn关系的研究不同耐缺锌水稻对HCO3~-的生理反应

    Studies on the Effect of HCO_3 ~ - on Distribution of Main Organic Asids in Root Zones and the Relation to Rice Cultivar Adaptation to Zinc Deficiency Physiological Response of Rice Cultivars with Different Zn-deficiency Sensitivity to Bicarbonate

  11. 3个采样时期各根区DGGE图谱条带数、土壤细菌多样性指数和均匀度指数均无显著差异(p0.05),转Bt基因玉米种植对土壤细菌遗传多样性无显著影响。

    DGGE fingerprints indicated that DGGE bands , diversity index and homogeneous degree index of bacteria were not significantly different in three sampling stages ( P0.05 ) . Planting transgenic Bt maize was not affected the soil bacterial diversity significantly . 3 .

  12. 处理设40cm、60cm和80cm3种间距,对比了人工阻水层的效果,并对控制性分根区交替渗灌进行了初步探讨。

    For the three pipe-internals of 40 cm , 60 cm and 80 cm , the effects of artificial water-resistant layer are compared each other . Meanwhile , the controlled roots-divided alterna-tive infiltration irrigation is discussed preliminarily .

  13. 水盐胁迫下根区水分运动的数值模拟结果表明,本文建立的根系吸水动力学模型优于目前使用的F-VG模型。

    The results of water transfer numerical simulation in root zone under water and salinity stresses showed that the newly established dynamic root water uptake model is better than F-VG model .

  14. 在棉花根区20~50cm形成盐分淡化区域,地下水位在临界深度以下,棉花主根区盐碱化程度明显降低,有利于棉花生长。

    In the cotton root area 20 ~ 50 cm formation the salt downplay the district , underground water level in the boundary depth below , main root of cotton area salt alkali the degree obviously lower , benefit to the cotton growth .

  15. 施氮量对玉米根区土壤微生物区系的影响

    Effects of Nitrogen Application on Maize Root in Soil Microbial Flora

  16. 野山参根区土壤无机元素的测试研究

    Studied on the Inorganic Elements of Root Soil of Wild Ginseng

  17. 苹果根区土壤镰刀菌对再植砧木苗生长的影响

    Effects of apple rhizosphere Fusarium on growth of replanted rootstock seedlings

  18. 酿酒葡萄根区微生物特性研究

    Studies on Microbial Properties of Different Vines in Root Zone Soil

  19. 苹果砧木幼苗根系构型及根区土壤生物学特性研究

    Studies on Root Architecture and Biological Characteristics of Rhizosphere in Apple Stock

  20. 天然荒漠植物干旱期根区土壤贮水量的确定

    Determination of Natural Desert Plant Root-Zone Soil Water Storage in Drying Periods

  21. 作物根区局部控水无压灌溉的土壤水动力学机理

    Experiment Using Soil Water Dynamics for Non-pressure Subsurface Irrigation in Crop Root

  22. 根区温度对作物生长和生理代谢的影响综述

    Effects of Root Zone Temperature on Growth and Physiological Metabolism of Crop

  23. 根区不同灌溉方式对苹果幼苗水流阻力的影响

    Effects of different root zone irrigation modes on apple seedlings hydraulic resistance

  24. 根区加温对一品红生长发育和盆花品质的影响

    Effect of Root-zone Heating on Growth , Development and Visual Quality of Poinsettia

  25. 根区施药试验研究的新进展

    Further Studies on the Principles of Root - zone Application of Systemic Insecticides

  26. 根区光照过强会影响对藻类的抑制;

    Light intensity could affect the allelopathic effect .

  27. 重茬种植西洋参对其根区土壤微生物与土壤理化性质影响

    The Effects of Continuous Cropping American Ginseng on Soil Microbes and Soil Physicochemical Properties

  28. 在土壤-植物-大气连续统中,植物根区土壤贮水量是一个重要水源。

    In soil-plant-atmosphere continuum , plant root-zone water storage is an important water source .

  29. 申根区内航空旅行的边境检查,将自明年3月份起取消。

    Border controls on air travel within the zone will be dropped next March .

  30. 水旱轮作下根区与非根区黄褐土钾素动态研究

    Potassium dynamics in root-zone and non root-zone in yellow cinnamon soil with paddy-upland rotation