lamellae

简明释义

[lə'meli:][ləˈmeli]

n. 骨板;片晶;薄片,薄层;(真菌的)菌褶(lamella的复数)

英英释义

Thin plates or layers of material, often found in biological structures or in materials science.

薄片或层,通常存在于生物结构或材料科学中。

单词用法

thin lamellae

薄层

lamellae of tissue

组织层

interconnected lamellae

相互连接的层

lamellae of bone

骨层

lamellae in gills

鳃中的层

lamellae in plants

植物中的层

同义词

layer

The lamellae of the gills in mushrooms are crucial for spore production.

蘑菇的鳃层对孢子的产生至关重要。

plate

The cell structure consists of multiple layers that form the lamellae.

细胞结构由多个层次组成,形成了薄层。

sheet

薄片

In biology, the term 'plate' is often used interchangeably with lamellae.

在生物学中,‘板’这个术语常常与薄层互换使用。

反义词

bulk

整体

The bulk of the material was too heavy to lift.

材料的整体太重了,无法抬起。

mass

The mass of the rock was impressive.

这块岩石的体量令人印象深刻。

例句

1.Thee spores are produced on small teeth or lamellae rather than gills.

孢子都是由子实体的小齿或小孔中产生而不是在菌褶上产生。

2.H bonds on facing folded chain crystal surfaces lead to a decrease of surface free energy and this fact is a main reason for the formation of double lamellae.

在双层片晶界面上的H键降低了表面自由能,这是形成双层片晶的主要原因。

3.When the lamellae made an angle with the tensile axis, the crack propagated alternatively in cementite and ferrite.

当珠光体层片与拉伸轴斜交时,裂纹通过渗碳体和铁素体交替断裂而扩展;

4.The lamellae (10) have a resin body and a recess (13) in the inner surface (12), in the plane of symmetry.

薄板(10)在内表面(12)有一个树脂体和一个凹槽(13),位于对称平面内。

5.Cell chloroplast density and higher granum lamellae decreased as well. 

叶绿体高基粒片层逐渐减小。

6.Tectonic stress result in increasing diameter and the stack height of basic structural unit(BSU), and decreasing the BSU lamellae spacing.

结果表明,构造应力作用提高了“煤晶核”BSU的延展度和堆砌度,使面网间距减小。

7.The average number of primary lamellae varies with sub-families, genera, and species.

初级嗅板的平均数在亚科、属,种之间具有。

8.The Morpho above, however, gets its iridescence through the ridge lamellae (a very thin structure, similar to scales) on its wings.

上文所说的闪蝶的彩色则是由翅膀上的脊状壳层产生的(一种非常细微的,类似于鳞屑的结构)。

9.The lamellae of bone tissue provide strength and structure to the skeletal system.

骨组织的lamellae为骨骼系统提供强度和结构。

10.The lamellae in the lungs increase the area for gas exchange, making breathing more efficient.

肺部的lamellae增加了气体交换的面积,使呼吸更加高效。

11.In fish, the lamellae in the gills facilitate gas exchange by increasing the surface area.

在鱼类中,鳃中的lamellae通过增加表面积来促进气体交换。

12.In the context of plants, lamellae can refer to the layers within chloroplasts where photosynthesis occurs.

在植物的背景下,lamellae可以指叶绿体内进行光合作用的层。

13.The gills of mushrooms are made up of thin, flat structures called lamellae, which help in spore production.

蘑菇的鳃由称为lamellae的薄而平坦的结构组成,这有助于孢子的产生。

作文

In the study of biology, particularly in the fields of cellular and structural biology, the term lamellae refers to thin layers or plates that are part of various biological structures. These lamellae can be found in different organisms and serve various functions depending on their context. For instance, in the anatomy of certain plants, lamellae are crucial components of chloroplasts, where they facilitate the process of photosynthesis. The arrangement of lamellae within chloroplasts maximizes the surface area available for light absorption, thereby enhancing the efficiency of photosynthesis.Moreover, in the context of fungi, lamellae refer to the gills found under the cap of mushrooms. These lamellae are essential for the reproduction of fungi as they house the spores. The structure and arrangement of these lamellae can vary greatly among different species of mushrooms, influencing their spore dispersal mechanisms and ultimately their survival and propagation.In addition to plants and fungi, lamellae also appear in the structure of certain animal tissues. For example, in bone tissue, lamellae are concentric layers of mineralized matrix that provide strength and resilience to bones. The organization of lamellae in bone is critical for its mechanical properties; the orientation of these layers can affect how forces are distributed throughout the skeletal system.Understanding the significance of lamellae across different biological systems highlights the intricate design of life at the microscopic level. Each layer plays a vital role in the overall function of the organism, whether it is through facilitating energy conversion in plants, enabling reproduction in fungi, or providing structural integrity in animals. The diversity and specialization of lamellae reflect the evolutionary adaptations that have occurred over millions of years, showcasing nature's ingenuity.In conclusion, the concept of lamellae extends beyond a mere definition; it encapsulates a fundamental aspect of biological architecture that is vital for the survival of various life forms. By studying lamellae, scientists gain insights into the complex interactions within ecosystems and the evolutionary processes that shape biodiversity. As we continue to explore the microscopic world, the importance of understanding structures like lamellae will only grow, revealing more about the interconnectedness of life on Earth.

在生物学的研究中,特别是在细胞和结构生物学领域,术语lamellae指的是各种生物结构中的薄层或板。这些lamellae可以在不同的生物体中找到,并根据其上下文发挥不同的功能。例如,在某些植物的解剖学中,lamellae是叶绿体的重要组成部分,促进光合作用的过程。叶绿体内lamellae的排列最大化了可用于光吸收的表面积,从而提高光合作用的效率。此外,在真菌的背景下,lamellae指的是蘑菇伞盖下方的鳃。这些lamellae对真菌的繁殖至关重要,因为它们容纳孢子。这些lamellae的结构和排列在不同种类的蘑菇之间可能有很大差异,影响其孢子的传播机制以及最终的生存和繁殖。除了植物和真菌,lamellae还出现在某些动物组织的结构中。例如,在骨组织中,lamellae是矿化基质的同心层,为骨骼提供强度和韧性。这些lamellae在骨骼中的组织对其机械特性至关重要;这些层的方向可以影响力量在整个骨骼系统中的分布。理解lamellae在不同生物系统中的重要性突显了微观生命设计的复杂性。每一层在生物体的整体功能中都发挥着至关重要的作用,无论是通过促进植物的能量转化、使真菌繁殖,还是为动物提供结构完整性。lamellae的多样性和专业化反映了数百万年来发生的进化适应,展示了自然的智慧。总之,lamellae的概念不仅仅是一个简单的定义;它概括了生物建筑的一个基本方面,这对于各种生命形式的生存至关重要。通过研究lamellae,科学家们获得了关于生态系统内部复杂相互作用和塑造生物多样性的进化过程的见解。随着我们继续探索微观世界,理解像lamellae这样的结构的重要性只会增加,揭示地球上生命的相互联系。