Fruit a berrylike drupe with membranous or papery endocarp, rarely drupaceous or loculicidal. 很少,果浆果状核果具膜质或纸质内果皮具核果或。
We simply removed from the cracked endocarp with sterile tweezers. 我们简单地用消过毒的镊子从裂开的内果皮中取出种子。
The change of fruit anatomical structure shows cell of exocarp, sarcocarp and endocarp division and enlargement. 果实生长发育在解剖结构上表现为果实外果皮、中果皮及内果皮三部分细胞的分裂与膨大。
Studies of Changes in Sugar Accumulation and Lignin Deposition During Peach Fruit Endocarp Development 桃果实内果皮发育过程中糖积累与木质素沉积的变化
This paper reviews the extraction, component analysis and Biological activity on Polysaccharide in endocarp of Ginkgo biloba ( GBEP). 本文综述了银杏外种皮多糖(GBEP)的提取、成分分析及生物学活性。
The endocarp is hardened before the final swell. 在果实最后膨大期以前内果皮变硬。
Changes of Enzyme Activity during the Depositive Process of Lignin in Peach Endocarp 桃内果皮木质素沉积过程中酶活性的变化
Leaf blade base broadly cuneate to rounded, margin obtusely serrate; drupe and endocarp ellipsoid to oblong. 叶片基部宽楔形到圆形,边缘钝锯齿;核果和内果皮椭圆形的到长圆形。
The endocarp and seed-coat inhibit the germination in different degree, the stratification time of the seeds without endocarp was ahead of schedule, both removing the endocarp and seed-coat could break the dormancy immediately, the percentage of the germination reached 78%; 野生樱桃李的种壳和种皮不同程度抑制种子萌发,去除种壳可使萌发日提前,同时去除种壳和种皮,可立即解除种子休眠,使种子萌发率达到78%;
The content of tannin in episperm was the highest, the hypocotyl and endocarp followed. 种皮中最高,其次是胚轴和内果皮;
The anatomical reasons for the main color ( brown) of longan exocarp surface and easier browning in endocarp than in exocarp of the fruit, longan pericarp morphology and structure in relation with fruit storability and transport were discussed. 讨论了龙眼外果皮表面主色为褐色和内果皮比外果皮更容易褐变的解剖学原因及龙眼果皮形态结构与果实耐贮运的关系。
The cell division stopped later in endocarp than that in mesocarp. 中果皮细胞分裂终止早于内果皮。
Transverse section, powder characteristics, physicochemical characteristics of fruits was observed and described. The identification methods of fruits were also studied. Stone cells of endocarp were observed for the first time. 本研究对大翅蓟成熟果实进行了组织构造特征、粉末显微特征、理化特性的观察和鉴别研究,并首次从大翅蓟果实的组织切片及粉末中观察到了内果皮石细胞结构。
The cause of Acanthopanax Senticosus seed dormancy is studied in this article from the structure characteristic of seed shell ( endocarp), the growth condition of the embryo, the endogene germination inhibitor. 本文从种皮(内果皮)结构特性、种胚发育状况、内源萌发抑制物三个方面研究刺五加种子休眠的原因。
Micromorphology of the endocarp and the testa morphology of four medicinal Cinnamomum plants in Guizhou 贵州樟属四种药用植物内果皮、种皮微形态特征
The smooth endocarp surface further suggests a warm temperate or temperate palaeoclimate. 榆社川蔓藻果实和种子的大量出现说明该植物可能在该水域形成了单一的优势类群,其光滑的内果皮表面指示当时当地为暖温带或温带气候。
The pericarp was made of epicarp, mesocarp and endocarp. 果皮由外果皮、中果皮和内果皮构成:外果皮是一种复合结构,由表皮毛和表皮细胞组成;
The effects of endocarp, seed-coat, GA3 and stratification on seed dormancy and germination were studied with wild cherry plum. 试验以野生樱桃李种子为材料,通过用机械去壳、去种皮、低温及赤霉素对野生樱桃李种子进行不同处理,研究了不同处理对野生樱桃李休眠及萌发的影响。
Colorful epidermis could attract birds to eat the fruit, endocarp which was made up of stone cells could prevent seed from being digested by digestive juice in birds 'stomach, and gelatinous cell of mesocarp could make the seed stick to the trunk of its host. 鲜艳表皮可以吸引鸟类来啄食,石细胞的内果皮可以保护其种子免遭鸟胃内消化液的消化,中果皮的粘胶质细胞可以使果核从鸟体内排出后牢牢粘在寄主枝条上;
The novel use "loses the paradise" the narration pattern, this kind of pattern has the cultural endocarp illustration; it is a generation of person spirit crisis. 小说采用失乐园的叙述模式,此种模式有着文化内质的注解,它是一代人精神的危机。
The mesocarp was the main part of pericarp, and the cell of endocarp was small and transparent in early stage, and it became into hard shell that was made of lignification stone cells. 内果皮的细胞在前期小而透明,后期迅速木质化而形成硬壳,其外的维管束组织高度发达呈网络状。
The frugivorous birds can obtain necessary nutrients from the fruits, and promote the dispersal of the seeds of the fleshy fruits enclosed by hard seed coat or by hard endocarp within their habitats. 鸟类取食果实虽然对园林树种的观赏性产生了一定的影响,但是鸟类通过取食树木果实获得了营养,同时也促进了肉质果实中那些种皮坚硬,或者包被于坚硬果核中的种子的自然传播。
During the process of natural stratification, the TEM of endocarp and the SEM of endosperm showed that: the shell is mainly formed by the sclerenchyma, sclerenchyma was strongly thickened, and arrayed densely. 对自然层积过程内果皮的扫描电镜和胚乳的透射电镜观察发现:种壳主要由厚壁组织构成,厚壁组织发生强烈的次生增厚,且排列致密。