spicular

简明释义

[ˈspɪkjələr][ˈspɪkjələr]

针样的

刺样的

英英释义

Relating to or resembling a spine or thorn; having a spiny or pointed structure.

与脊或刺相关或相似;具有刺状或尖锐结构。

In biology, referring to structures that are needle-like in shape.

在生物学中,指形状像针一样的结构。

单词用法

同义词

spike-like

尖刺状的

The plant has spike-like structures that deter herbivores.

这种植物有尖刺状的结构,可以抵御食草动物。

thorny

多刺的

The thorny bushes provided excellent cover for the birds.

多刺的灌木为鸟类提供了良好的掩护。

prickly

刺状的

The prickly texture of the fruit made it difficult to handle.

这种水果刺状的质地使得处理起来很困难。

反义词

smooth

光滑的

The surface of the table is smooth.

桌子的表面是光滑的。

blunt

钝的

He used a blunt knife to cut the bread.

他用一把钝刀切面包。

例句

1.Pipeline steel adopting the spicular ferrite owns the better properties of forming and anti corrosion for its low ratio of yield strength and tensile strength and uniform microstructure.

由于低屈强比和组织均匀,管线钢采用针状铁素体组织可以具有较好的(管)成型性及耐腐蚀性。 用针状铁素体管线钢平板或卷板制造的焊管的力学性能彼此相差不大。

2.Pipeline steel adopting the spicular ferrite owns the better properties of forming.

采用针状铁素体的管线钢具有较好的成形性能。

3.Pipeline steel adopting the spicular ferrite owns the better properties of forming and anti corrosion for its low ratio of yield strength and tensile strength and uniform microstructure.

由于低屈强比和组织均匀,管线钢采用针状铁素体组织可以具有较好的(管)成型性及耐腐蚀性。 用针状铁素体管线钢平板或卷板制造的焊管的力学性能彼此相差不大。

4.Under the microscope, the spicular 针状的 particles were clearly visible in the sediment sample.

在显微镜下,沉积样本中的spicular 针状的颗粒清晰可见。

5.The marine biologist studied the structure of the coral, noting its spicular 针状的 components.

海洋生物学家研究了珊瑚的结构,注意到其spicular 针状的成分。

6.In geology, the spicular 针状的 formations can indicate the presence of certain minerals.

在地质学中,spicular 针状的构造可以表明某些矿物的存在。

7.The spicular 针状的 structures of the sponge provide it with strength and flexibility.

海绵的spicular 针状的结构赋予它强度和灵活性。

8.The spicular 针状的 crystals found in the rock sample were analyzed for their chemical composition.

在岩石样本中发现的spicular 针状的晶体被分析其化学成分。

作文

In the realm of biology, many terms describe various structures and functions in living organisms. One such term is spicular, which refers to something that is shaped like a spike or thorn. This term is often used in the context of certain types of organisms, particularly in the study of sponges and other marine life. The spicular structures can serve various purposes, including providing support and protection. For instance, in the case of sponges, these spicular elements are crucial for maintaining the organism's shape and integrity while allowing it to filter water efficiently.The importance of spicular structures extends beyond their physical characteristics. They play a significant role in the ecological interactions within marine environments. By understanding how these spicular features function, scientists can gain insights into the adaptations of different species and their survival strategies. For example, some sponges possess highly developed spicular structures that deter predators, allowing them to thrive in competitive ecosystems. This adaptation illustrates the intricate relationship between form and function in nature.Moreover, the study of spicular structures is not limited to marine biology. In botany, certain plants exhibit spicular features as well. These can be seen in the thorns of cacti or the sharp edges of some leaves, which serve to protect the plant from herbivores. The presence of spicular elements in plants highlights the diverse ways in which life has evolved to cope with environmental challenges.In addition to their biological significance, spicular structures have also inspired various fields of research and technology. For instance, engineers and material scientists study the properties of spicular materials to develop innovative solutions in design and architecture. The strength and lightweight nature of certain spicular formations can lead to advancements in building materials and construction techniques.As we continue to explore the natural world, the concept of spicular will likely remain relevant. Understanding these structures helps us appreciate the complexity of life forms and their adaptations. It also emphasizes the interconnectedness of different disciplines, from biology to engineering, showcasing how nature can inform and inspire human innovation.In conclusion, the term spicular encapsulates a fascinating aspect of biological and ecological study. Whether in marine environments or terrestrial ecosystems, spicular structures serve vital roles in supporting life. Their study not only enhances our understanding of biology but also opens doors to new technological advancements, proving that nature remains one of our greatest teachers.

在生物学领域,许多术语用来描述生物体内的各种结构和功能。其中一个术语是spicular,指的是像尖刺或荆棘一样的形状。这个术语通常用于某些类型的生物,特别是在海洋生物的研究中。spicular结构可以发挥多种作用,包括提供支撑和保护。例如,在海绵的情况下,这些spicular元素对于维持生物体的形状和完整性至关重要,同时允许其有效过滤水。spicular结构的重要性不仅限于其物理特征。它们在海洋环境中的生态相互作用中也发挥着重要作用。通过理解这些spicular特征的功能,科学家可以深入了解不同物种的适应性及其生存策略。例如,一些海绵具有高度发达的spicular结构,可以威慑捕食者,使它们能够在竞争激烈的生态系统中繁衍生息。这种适应性展示了自然界中形态与功能之间的复杂关系。此外,spicular结构的研究并不限于海洋生物学。在植物学中,某些植物也表现出spicular特征。这可以在仙人掌的刺或某些叶子的尖锐边缘中看到,这些特征旨在保护植物免受食草动物的侵害。植物中spicular元素的存在突显了生命以多样方式进化以应对环境挑战。除了生物学意义外,spicular结构还启发了各个研究和技术领域。例如,工程师和材料科学家研究spicular材料的特性,以开发设计和建筑中的创新解决方案。某些spicular形态的强度和轻量特性可能导致建筑材料和施工技术的进步。随着我们继续探索自然世界,spicular的概念可能仍将保持相关。理解这些结构有助于我们欣赏生命形式及其适应性的复杂性。它还强调了不同学科之间的相互联系,从生物学到工程学,展示了自然如何启发和影响人类创新。总之,术语spicular概括了生物和生态研究的一个迷人方面。无论是在海洋环境还是陆地生态系统中,spicular结构在支持生命方面发挥着至关重要的作用。它们的研究不仅增强了我们对生物学的理解,还为新的技术进步开辟了大门,证明自然仍然是我们最伟大的老师之一。