pisciform
简明释义
adj. 鱼形的
英英释义
类似于或形状像鱼的。 |
单词用法
鱼形状 | |
鱼形生物 | |
鱼形特征 | |
鱼形特征 |
同义词
| 鱼形的 | 这座雕塑的设计明显是鱼形的。 | ||
| 鱼类形状的 | The ichthyiform features of the creature fascinated the researchers. | 这种生物的鱼类形状特征令研究人员着迷。 |
反义词
| 陆生的 | 陆生栖息地是许多独特物种的家园。 | ||
| 非水生的 | 非水生动物已经适应了在陆地上生活。 |
例句
1.Conclusion Use of the pisciform sandbag for compression hemostasia after interventional operations achieve better hemostatic effect and effectively control local complications.
结论介入术后患者采用自制鱼形沙袋压迫止血,止血效果显著,且能有效控制局部并发症的发生。
2.Conclusion Use of the pisciform sandbag for compression hemostasia after interventional operations achieve better hemostatic effect and effectively control local complications.
结论介入术后患者采用自制鱼形沙袋压迫止血,止血效果显著,且能有效控制局部并发症的发生。
3.The biologist noted that the pisciform 鱼形的 adaptations of the species were crucial for survival in their habitat.
生物学家指出,该物种的鱼形的适应性对于在其栖息地的生存至关重要。
4.The new aquarium exhibit features a pisciform 鱼形的 creature that is both fascinating and rare.
新的水族馆展览展示了一种既迷人又稀有的鱼形的生物。
5.The artist created a sculpture that had a distinctly pisciform 鱼形的 design, reminiscent of a graceful fish swimming through water.
这位艺术家创作的雕塑有着明显的鱼形的设计,令人想起一条优雅的鱼在水中游动。
6.During our hike, we stumbled upon a pisciform 鱼形的 rock formation that looked like it was sculpted by nature.
在我们的徒步旅行中,我们偶然发现了一个鱼形的岩石形成,似乎是大自然雕刻而成的。
7.In biology class, we learned about the pisciform 鱼形的 characteristics of certain fish species that help them navigate through their aquatic environment.
在生物课上,我们学习了某些鱼类物种的鱼形的特征,这些特征帮助它们在水域中导航。
作文
In the vast realm of biology, the classification of organisms is a fundamental aspect that helps us understand the diversity of life on Earth. One of the intriguing terms that often comes up in discussions about aquatic creatures is pisciform">pisciform, which refers to something that is fish-shaped or resembles a fish. This term can be particularly useful when describing various species in marine biology, where many organisms share similar body shapes adapted for life in water. The pisciform">pisciform body structure is not just a random occurrence; it is a result of millions of years of evolution, allowing these creatures to navigate their aquatic environments efficiently.The significance of pisciform">pisciform shapes extends beyond just fish. For instance, several species of mammals, such as dolphins and whales, have evolved pisciform">pisciform bodies that enable them to swim swiftly through the ocean. These adaptations are crucial for their survival, as they need to hunt for food and evade predators in a vast and often dangerous habitat. The streamlined shape reduces water resistance, allowing these animals to conserve energy while swimming long distances.Moreover, the concept of pisciform">pisciform shapes can also be seen in the design of underwater vehicles and submarines. Engineers often study fish anatomy to create more efficient designs for these machines. By mimicking the pisciform">pisciform body shape of fish, they can enhance maneuverability and reduce drag, leading to improved performance in aquatic environments. This intersection between biology and engineering showcases the importance of understanding natural forms and their functional advantages.In addition to physical adaptations, the pisciform">pisciform shape can also influence behavioral patterns among aquatic organisms. Many fish exhibit schooling behavior, where they swim in synchronized groups. The pisciform">pisciform body shape allows for more efficient movement within schools, reducing the energy expenditure of each individual. This social behavior is vital for protection against predators and increases the chances of finding food.As we delve deeper into the study of marine ecosystems, recognizing the role of pisciform">pisciform shapes can lead to a better understanding of how different species interact with one another and their environment. Conservation efforts can benefit from this knowledge, as protecting habitats that support pisciform">pisciform organisms can help maintain the balance of marine ecosystems.In conclusion, the term pisciform">pisciform encapsulates the essence of adaptation in aquatic life. From the evolutionary significance of fish shapes to their applications in technology and behavioral ecology, understanding pisciform">pisciform forms enriches our comprehension of the natural world. As we continue to explore the depths of our oceans, let us appreciate the beauty and complexity of life that thrives in pisciform">pisciform shapes, reminding us of the intricate connections that exist within our planet's diverse ecosystems.
在生物学的广阔领域中,生物分类是帮助我们理解地球上生命多样性的基本方面之一。在关于水生生物的讨论中,常常会出现一个引人入胜的术语——pisciform">pisciform,它指的是某物呈鱼形或类似鱼的形状。这个术语在描述海洋生物时特别有用,因为许多生物共享适应水中生活的相似体形。pisciform">pisciform的身体结构并不是随机出现的;这是数百万年进化的结果,使这些生物能够高效地在水中移动。pisciform">pisciform形状的重要性不仅限于鱼类。例如,几种哺乳动物,如海豚和鲸鱼,已经进化出pisciform">pisciform的身体,使它们能够在海洋中迅速游动。这些适应对于它们的生存至关重要,因为它们需要在广阔而且常常危险的栖息地中捕猎食物和躲避捕食者。流线型的形状减少了水的阻力,使这些动物能够在长距离游泳时节省能量。此外,pisciform">pisciform形状的概念也可以在水下车辆和潜艇的设计中看到。工程师们常常研究鱼类的解剖结构,以创造更高效的设计。通过模仿鱼的pisciform">pisciform身体形状,他们可以提高操控性并减少阻力,从而改善水中环境中的性能。这种生物学与工程学的交叉展示了理解自然形态及其功能优势的重要性。除了身体适应,pisciform">pisciform形状还可以影响水生生物的行为模式。许多鱼类表现出群游行为,即它们以同步的方式游动。pisciform">pisciform的身体形状使得在鱼群中更有效地移动,减少了每个个体的能量消耗。这种社会行为对于保护免受捕食者的威胁至关重要,并增加了寻找食物的机会。随着我们深入研究海洋生态系统,认识到pisciform">pisciform形状的作用可以帮助我们更好地理解不同物种之间以及它们与环境之间的相互作用。保护工作可以从这一知识中受益,因为保护支持pisciform">pisciform生物栖息地的努力可以帮助维持海洋生态系统的平衡。总之,术语pisciform">pisciform概括了水生生命适应的本质。从鱼形的进化意义到其在技术和行为生态学中的应用,理解pisciform">pisciform形态丰富了我们对自然世界的理解。当我们继续探索海洋深处时,让我们欣赏那些以pisciform">pisciform形状繁荣的生命之美和复杂性,提醒我们存在于我们星球多样生态系统内的复杂联系。
