flabellate

简明释义

英[fləˈbelɪt]美[fləˈbeleɪt;fləˈbelɪt]

adj. [生物] 扇形的；扇状的

英英释义

单词用法

同义词

反义词

例句

1.Upper leaf blades 5-10 cm wide corrugate base cuneate margin coarsely crenate apex obtuse veins flabellate netted.

上面叶片5 - 10厘米宽具皱褶基部楔形边缘具粗圆齿先端钝脉扇形网状。

2.Upper leaf blades 5-10 cm wide corrugate base cuneate margin coarsely crenate apex obtuse veins flabellate netted.

上面叶片5 - 10厘米宽具皱褶基部楔形边缘具粗圆齿先端钝脉扇形网状。

3.The biologist described the newly discovered species as having a distinctively flabellate structure, resembling a fan.

生物学家将新发现的物种描述为具有独特的扇形结构，类似于一个扇子。

4.In her botanical illustrations, she often depicted flowers with flabellate leaves to highlight their unique shape.

在她的植物插图中，她经常描绘具有扇形叶子的花，以突出它们独特的形状。

5.The ancient artifact featured a flabellate design that was popular in the region during that era.

这个古代文物的设计具有扇形的特点，在那个时代该地区非常流行。

6.The artist's sculpture was inspired by flabellate forms found in nature, showcasing a blend of elegance and simplicity.

艺术家的雕塑灵感来自自然界中的扇形形式，展示了优雅与简约的结合。

7.During the lecture, the professor explained how flabellate structures can enhance the efficiency of certain plants in capturing sunlight.

在讲座中，教授解释了扇形结构如何提高某些植物捕捉阳光的效率。

作文

The natural world is filled with a myriad of forms and structures, each serving a unique purpose in the ecosystem. Among these diverse forms, one that often captures the imagination of both scientists and nature enthusiasts alike is the concept of being flabellate. The term flabellate, which refers to something that is shaped like a fan, can be seen in various aspects of nature, from the delicate petals of certain flowers to the intricate designs of marine life. To understand the significance of flabellate structures, we must first explore their prevalence in the plant kingdom. For instance, many ferns exhibit flabellate leaves, which are broad and fan-like, allowing them to capture sunlight efficiently. This adaptation not only enhances their ability to photosynthesize but also aids in water retention, making them well-suited for their environments. The flabellate shape serves a dual purpose: it maximizes light absorption while minimizing water loss, showcasing the elegance of evolutionary design. In addition to plants, the animal kingdom also presents fascinating examples of flabellate forms. One notable instance is found in the anatomy of certain species of jellyfish. The bell-shaped body of these creatures can be described as flabellate, allowing them to move gracefully through the water by contracting and relaxing their bodies. This unique form not only facilitates efficient locomotion but also plays a role in their feeding strategy, as the flabellate structure helps in capturing prey effectively. Moreover, the concept of flabellate extends beyond physical forms; it also encompasses patterns and arrangements in various ecosystems. For example, coral reefs often display flabellate formations, where corals grow in fan-like structures that provide shelter and habitat for numerous marine species. These flabellate formations create intricate underwater landscapes, promoting biodiversity and contributing to the overall health of the ocean environment. Understanding the implications of flabellate structures can also inspire innovative designs in architecture and engineering. Nature has long been a source of inspiration for human creativity, and the flabellate shapes found in biological systems can inform sustainable building practices. Architects may draw upon the principles of flabellate structures to create energy-efficient designs that mimic the efficiency of natural forms. By incorporating fan-like elements into buildings, they can enhance airflow and natural lighting, ultimately leading to more sustainable living spaces. In conclusion, the concept of flabellate serves as a reminder of the beauty and functionality present in the natural world. From the fan-shaped leaves of ferns to the graceful movements of jellyfish, flabellate structures play a crucial role in the survival and adaptation of various organisms. Furthermore, the lessons learned from these natural forms can inspire human innovation and creativity in solving contemporary challenges. As we continue to explore and appreciate the wonders of nature, let us remain mindful of the significance of flabellate shapes and what they teach us about resilience, efficiency, and harmony in design.

自然界充满了各种形式和结构，每种形式在生态系统中都发挥着独特的作用。在这些多样化的形式中，有一个常常吸引科学家和自然爱好者想象力的概念是“flabellate”。这个词“flabellate”指的是像扇子一样的形状，可以在自然的各个方面看到，从某些花朵的精致花瓣到海洋生物的复杂设计。 要理解flabellate结构的重要性，我们首先必须探索它们在植物王国中的普遍性。例如，许多蕨类植物展示出flabellate叶子，这些叶子宽大而像扇子，能够有效捕捉阳光。这种适应不仅增强了它们进行光合作用的能力，还帮助保持水分，使它们非常适合其环境。flabellate形状起到了双重作用：最大化光吸收同时最小化水分流失，展示了进化设计的优雅。 除了植物，动物王国中也呈现出迷人的flabellate形式。例如，某些水母的解剖结构就可以描述为flabellate，它们的伞形身体使这些生物能够通过收缩和放松身体优雅地在水中移动。这种独特的形态不仅促进了高效的运动，还在它们的捕食策略中发挥了作用，因为flabellate结构有助于有效捕捉猎物。 此外，flabellate的概念超越了物理形式；它还包括各种生态系统中的模式和排列。例如，珊瑚礁通常展现出flabellate的形成，其中珊瑚以扇形结构生长，为众多海洋物种提供庇护和栖息地。这些flabellate的形成创造了复杂的水下景观，促进了生物多样性，并有助于海洋环境的整体健康。 理解flabellate结构的意义也可以激发建筑和工程设计的创新。自然长期以来一直是人类创造力的灵感来源，而生物系统中发现的flabellate形状可以为可持续建筑实践提供指导。建筑师可以借鉴flabellate结构的原则，创造模仿自然形式效率的节能设计。通过在建筑中融入扇形元素，他们可以增强空气流通和自然采光，最终导致更可持续的生活空间。 总之，flabellate的概念提醒我们自然界中存在的美丽和功能。从蕨类植物的扇形叶子到水母的优雅运动，flabellate结构在各种生物的生存和适应中起着至关重要的作用。此外，从这些自然形式中获得的经验教训可以激励人类在解决当代挑战时的创新和创造力。当我们继续探索和欣赏自然的奇迹时，让我们铭记flabellate形状的重要性以及它们教会我们的关于设计中的韧性、效率和和谐的意义。