trilobate
简明释义
英[ˈtraɪləˌbeɪt;traɪˈləʊbeɪt]美[traɪˈloʊbeɪt]
adj. 三裂的;[植]具三裂片的(等于 trilobated)
英英释义
具有三个叶片或分区的。 |
单词用法
三叶形叶子 | |
三叶设计 | |
三叶生物 | |
三叶特征 | |
三叶形态学 | |
三叶图案 |
同义词
三叶的 | The trilobate leaf structure is common in certain plant species. | 三叶的叶片结构在某些植物种类中很常见。 | |
三瓣的 | The tri-lobed design of the flower adds to its aesthetic appeal. | 花朵的三瓣设计增加了其美学吸引力。 |
反义词
单叶的 | The unilobate structure of the leaf makes it unique among its species. | 这种叶子的单叶结构使它在其物种中独特。 | |
双叶的 | Bilobate fruits are commonly found in several plant families. | 双叶果实在几种植物科中常见。 |
例句
1.Objective To checkout the curative effect of trilobate set a broken bone armor plate fixation inside cure the shoulder bone chirurgery neck fracture.
目的检验三叶接骨钢板内固定治疗肱骨外科颈骨折的疗效。
2.Objective To checkout the curative effect of trilobate set a broken bone armor plate fixation inside cure the shoulder bone chirurgery neck fracture.
目的检验三叶接骨钢板内固定治疗肱骨外科颈骨折的疗效。
3.The fossil discovered in the museum had a distinct trilobate structure, indicating it belonged to an ancient marine organism.
博物馆发现的化石具有明显的三叶状结构,表明它属于一种古老的海洋生物。
4.In botany, some leaves exhibit a trilobate form, which can help in identifying the species.
在植物学中,一些叶子表现出三叶状的形态,这有助于识别物种。
5.The design of the logo featured a trilobate motif that symbolized unity and diversity.
这个标志的设计采用了一个三叶状的图案,象征着团结与多样性。
6.Researchers found that the trilobate shape of certain crystals affects their optical properties.
研究人员发现,某些晶体的三叶状形状会影响其光学特性。
7.The artist used a trilobate pattern in her sculpture to create a sense of movement.
这位艺术家在她的雕塑中使用了三叶状的图案,以创造一种动感。
作文
The fascinating world of paleontology often introduces us to unique terms that describe the diverse forms of life that once roamed our planet. One such term is trilobate, which refers to a structure or organism characterized by three distinct lobes. This term is derived from the Greek words 'tri' meaning three and 'lobus' meaning lobe. Trilobates were most notably seen in the ancient marine arthropods known as trilobites, which thrived during the Paleozoic Era. These creatures had a hard exoskeleton divided into three main sections: the cephalon (head), the thorax (body), and the pygidium (tail). The trilobate structure not only provided protection but also played a significant role in their locomotion and feeding habits. Trilobates are an excellent example of evolutionary adaptation. Their three-lobed body plan allowed them to navigate through the ocean floor efficiently, scuttling over sediments and avoiding predators. The design of these creatures is a testament to nature's ingenuity, showcasing how specific anatomical features can enhance survival in a particular environment. The diversity among trilobates was remarkable; they exhibited a wide range of sizes, shapes, and lifestyles. Some were free-swimming, while others were bottom dwellers, each adapting uniquely to their ecological niches. In addition to their biological significance, trilobates have also captured the imagination of scientists and enthusiasts alike. Fossils of trilobites have been found on every continent, making them one of the most well-documented groups of extinct organisms. Paleontologists study these fossils not only to understand the evolutionary history of life on Earth but also to gain insights into past environments and climate changes. The presence of trilobate fossils in sedimentary rock layers serves as a valuable indicator of the geological time scale, helping researchers decipher the timeline of Earth's history. The concept of trilobate extends beyond paleontology into various fields, including biology, architecture, and design. For instance, in botany, certain leaves exhibit a trilobate shape, which can be seen in plants like the common ivy. This leaf structure can enhance light capture for photosynthesis, demonstrating how the trilobate form can be advantageous in different contexts. Similarly, architects may draw inspiration from trilobate designs when creating structures that require both aesthetics and functionality. The three-lobed configuration can provide stability and balance, making it a popular choice in modern design. In conclusion, the term trilobate encapsulates a rich tapestry of biological, historical, and practical significance. From the ancient trilobites that swam in prehistoric oceans to contemporary applications in various fields, the concept of three lobes continues to intrigue and inspire. Understanding trilobate structures helps us appreciate the complexities of life and the intricate relationships between form and function across different domains. Engaging with such terminology not only enriches our vocabulary but also deepens our understanding of the natural world and its myriad forms. As we explore the past and present, we find that the simplicity of the trilobate structure belies its profound impact on the evolution of life and human creativity.
古生物学的迷人世界常常向我们介绍独特的术语,这些术语描述了曾经在我们星球上漫游的多样生命形式。其中一个术语是trilobate,指的是一种结构或生物,其特征是有三个不同的叶片。这个术语源自希腊词根'tri',意为三,'lobus',意为叶片。三叶虫是最著名的三叶结构生物,它们是生活在古代海洋中的节肢动物,在古生代时期繁荣昌盛。这些生物拥有一个硬质外骨骼,分为三个主要部分:头部(cephalon)、身体(thorax)和尾部(pygidium)。trilobate结构不仅提供保护,还有助于它们的运动和觅食习惯。 三叶虫是进化适应的优秀例证。它们的三叶体型使它们能够高效地在海底导航,迅速穿越沉积物,避免捕食者。这些生物的设计证明了自然的聪明才智,展示了特定解剖特征如何增强在特定环境中的生存能力。三叶虫之间的多样性非常显著;它们展现出各种大小、形状和生活方式。有些是自由游动的,而其他则是底栖生物,各自独特地适应了它们的生态位。 除了生物学意义之外,三叶虫也吸引了科学家和爱好者的想象。三叶虫的化石已在每个大洲被发现,使其成为最有文献记录的灭绝生物群体之一。古生物学家研究这些化石,不仅是为了理解地球上生命的进化历史,还为了获得关于过去环境和气候变化的见解。三叶虫化石在沉积岩层中的存在是地质时间尺度的宝贵指标,帮助研究人员解读地球历史的时间线。 trilobate的概念不仅限于古生物学,还延伸到生物学、建筑和设计等多个领域。例如,在植物学中,某些叶子呈现出trilobate形状,可以在常春藤等植物中看到。这种叶子结构可以增强光合作用所需的光捕获,展示了trilobate形式在不同背景下的优势。同样,建筑师在创作需要美观和功能性的结构时,可能会从trilobate设计中获得灵感。三叶配置可以提供稳定性和平衡性,使其成为现代设计中的热门选择。 总之,trilobate这一术语蕴含着丰富的生物、历史和实际意义。从古代海洋中游弋的三叶虫到当代各个领域的应用,三叶的概念继续吸引和启发着我们。理解trilobate结构有助于我们欣赏生命的复杂性以及不同领域中形式与功能之间的微妙关系。接触这样的术语不仅丰富了我们的词汇,还加深了我们对自然世界及其无数形式的理解。当我们探索过去和现在时,我们发现trilobate结构的简单性掩盖了它对生命进化和人类创造力的深远影响。
文章标题:trilobate的意思是什么
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