海绵组织

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  • spongy tissue
海绵组织海绵组织
  1. 但单一增施Ca和K,并不能完全有效抑制海绵组织病害的发生。

    But single playing Ca and K fertilizer , they were not restrainted all effectually spongy tissue disorder .

  2. 樱桃不同品种间叶片气孔密度、栅栏组织与海绵组织厚度比值与Pn存在极显著正相关。

    The anatomic characteristics of the three sweet cherry cultivars , such as stomatal density , thickness of palisade tissue and spongy tissue , were all positive at 0.01 significance level to their Pn .

  3. GA处理的海绵组织细胞中淀粉粒几乎全是复淀粉粒,油滴很少;

    GA makes starch grains in sponge cells nearly all being complexes , and makes lipid droplets few .

  4. 广玉兰叶片随栅栏组织厚度、栅栏-海绵组织比值、叶片总厚度、气孔长度和气孔宽度这些相关结构的增大,PAHs含量呈上升的趋势。

    For species Magnolia grandiflora , the PAHs concentrations increased with the increases of palisade tissue thickness , ration of palisade to spongy tissues , total leaf thickness , stomatal length and stomatal width .

  5. 1GA、IBA、6-BA使叶片变长,GA的效果最强,它能使叶片增长13.7%;它们也使栅栏组织细胞体积变大,使海绵组织的液泡更发达。

    1.1 GA , IBA , and 6-BA all lengthen leaves , and being the most potent GA can lengthen leaves by 13.7 % , and they all increase the volume of cells in palisade tissue and make tonoplasts developed in sponge tissue .

  6. 环绕尿道海绵体的海绵组织也是这样。

    This is also true of spongy tissue surrounding the urethra .

  7. 海绵组织细胞排列较松散,细胞间隙大。

    Spongy tissue cells with a more loose and large cell gap .

  8. 而海绵组织则相反。

    But the result is opposite in spongy tissues .

  9. 叶肉细胞分化出栅栏组织和海绵组织。

    Mesophyll cells of palisade tissue and spongy tissue .

  10. 海绵组织越厚,对成虫产卵越不利;

    The thicker sponge tissue was , the less oviposition of adult was .

  11. 这层海绵组织是为蛋壳的形成提供钙质的。

    This spongy tissue serves as a source of calcium for eggshell formation .

  12. 栅栏组织细胞间隙、海绵组织细胞间隙以适熟烟叶最大;

    The palisade and spongy tissues of ripe leaves had the largest cell clearances .

  13. 芽下第二叶的叶肉已经分化出栅栏组织和海绵组织。

    Under the second leaf buds had differentiated mesophyll palisade tissue and spongy tissue .

  14. 叶肉由栅栏组织、海绵组织和通气组织组成,通气组织非常发达。

    The mesophyll was composed of palisade tissue , spongy tissue and ventilating tissue .

  15. 叶对生、大型,栅栏、海绵组织分化明显。

    The leaf is large and opposite , its palisade and sponge tissue distinguish clearly .

  16. 吴茱萸叶中分泌囊分布于下表皮内的海绵组织中。

    Secretory cavities in the leaf of Evodia rutaecarpa are distributed among the spongy tissue .

  17. 海绵组织厚度与株高生长量显著正相关;

    The thickness of spongy tissue had positive significant correlation with the increment of tree height .

  18. 土壤水分和钾用量能提高叶片栅栏组织和海绵组织的含钾量。

    Soil moisture and potassium amount could improve potassium content of palisade tissue and spongy tissue .

  19. 骨髓:它是一种存在于骨骼中柔弱的海绵组织。

    The Bone Marrow : This is soft spongy tissue which is found in the bony cavities .

  20. 海绵组织细胞间隙大。

    Spongy tissue big gap .

  21. 烤烟成熟时栅栏组织与海绵组织厚度比值的变化

    The Change of Thickness Rate of Palisade and Sponge Tissue in Flue-cured Tobacco Green Leaves during Mature Period

  22. 栅栏组织和海绵组织细胞内叶绿体数量变得更少,海绵组织细胞中大部分几乎没有叶绿体存在。

    The number of chloroplast was much less , especially in spongy tissue , chloroplast hardly could been observed .

  23. 芝麻叶片栅栏组织有1层细胞,海绵组织有3~4层细胞。

    The laminae of Sesamum indicum has a layer palisade tissue cells , and has 3-4 layers spongy tissue cells .

  24. 栅栏组织呈细长圆柱形,有1~2层,海绵组织细胞形状不规则,排列稀疏。

    Palisade tissue were slender cylindrical , 1 ~ 2 layers , irregularly shaped spongy tissue cells , with sparse .

  25. 徒长苗叶片薄,栅栏组织细胞变短,海绵组织排列疏松,细胞间隙变大。

    Leggy seedlings leaves were thin , palisade tissues became shorter , spongy tissue arranged in loose with larger intercellular space .

  26. 海绵组织发达、具有大而明显的薄壁细胞或细胞裂溶后形成空腔(分泌腔或气腔);

    The spongy parenchyma is developed and possesses abundant big parenchymatous cells or hollow cavities ( secretory canals or air cavities );

  27. 随着烟株移栽后天数的增加,各部位烟叶栅栏与海绵组织厚度比值的变化无明显规律性。

    With the increasing days after transplanting , there was not distinct change regularity about thickness rate of palisade and sponge tissue .

  28. 海绵组织孔隙度增加,但海绵组织厚度、海绵细胞形状变化不大。

    Althoughthe porosity of spongy tissue increased , no significant changes of spongy tissue thickness and spongy parenchymatous cell shape were observed .

  29. 对18个引种越橘品种的叶片组织细胞结构进行了观察、描述,并测定了叶片、栅栏组织及海绵组织厚度等结构参数。

    Tissue parameters such as leaf thickness , stoma density , and stockade tissue thickness of 18 different blueberry cultivars were observed and measured .

  30. 与全光照相比,在遮光80%条件下金叶过路黄与多花筋骨草,其叶片的栅栏组织与海绵组织细胞差异较大,表现为栅栏组织宽度减小,海绵组织细胞之间间隙加大。

    Compared with full sun , the ratio of leaf thichness of palisade mesophyll and epidermal mesophyll of plant was lower under 80 % shading .