bathydermal gliding

简明释义

1. 硅铝层下部滑动; 2. 硅铝壳下部滑动;

英英释义

例句

1.The research team observed that the fish exhibited bathydermal gliding during their migration, allowing them to conserve energy.

研究小组观察到这些鱼在迁徙过程中表现出深皮滑行，从而节省能量。

2.Scientists are studying the mechanics of bathydermal gliding to understand its evolutionary advantages.

科学家们正在研究深皮滑行的机制，以了解其进化优势。

3.By utilizing bathydermal gliding, the species can navigate through deep waters with minimal resistance.

通过利用深皮滑行，该物种可以在深水中以最小的阻力进行导航。

4.The documentary highlighted how bathydermal gliding is essential for the survival of certain aquatic creatures.

这部纪录片强调了深皮滑行对某些水生生物生存的重要性。

5.In our biology class, we learned that bathydermal gliding helps reduce the energy expenditure of marine animals.

在我们的生物课上，我们了解到深皮滑行有助于减少海洋动物的能量消耗。

作文

In the fascinating world of marine biology, one of the most intriguing phenomena is the concept of bathydermal gliding. This term refers to the unique ability of certain marine organisms to move smoothly along the ocean floor or within the water column, utilizing a combination of buoyancy and controlled movements. Understanding bathydermal gliding can provide insights into the adaptations of these creatures to their environments and their roles in the ecosystem. The ocean is home to a myriad of species, many of which have evolved specialized methods of locomotion. For instance, fish typically swim using their fins and tails, while others, like certain types of mollusks, may use a form of bathydermal gliding to navigate through their habitats. This method of movement allows them to conserve energy while still effectively searching for food or evading predators. One of the most notable examples of bathydermal gliding can be observed in the behavior of some species of rays. These flat-bodied fish have adapted to life on the seafloor, where they glide effortlessly over the substrate. By using their pectoral fins, they can create lift and move gracefully across the sandy or rocky bottom. This not only aids in their mobility but also helps them remain camouflaged from potential threats. Moreover, bathydermal gliding is not limited to rays; it can also be seen in certain types of sea turtles and even some species of sharks. These animals have developed unique adaptations that allow them to glide along the ocean floor or through the water with minimal effort. Such adaptations are crucial for their survival, as they help them evade predators, hunt for prey, and migrate across vast distances. The study of bathydermal gliding extends beyond just understanding how these creatures move. It also encompasses the ecological implications of their locomotion. For example, the way these animals interact with their environment can significantly impact the health of marine ecosystems. By gliding along the ocean floor, they may stir up sediment, which can affect the distribution of nutrients and the overall productivity of the area. Furthermore, researchers are increasingly interested in how climate change and human activities are affecting the behaviors associated with bathydermal gliding. As ocean temperatures rise and habitats are altered due to pollution and overfishing, the delicate balance of these ecosystems is at risk. Understanding how these changes influence the movement patterns of marine species is essential for conservation efforts. In conclusion, bathydermal gliding is a remarkable adaptation that highlights the complexity and diversity of life in our oceans. By studying this phenomenon, we gain valuable insights into the behaviors and ecological roles of various marine organisms. As we continue to explore the depths of our oceans, it is crucial to appreciate and protect these incredible species and their habitats, ensuring that future generations can also marvel at the wonders of marine life.

在海洋生物学的迷人世界中，一个最引人入胜的现象是“bathydermal gliding”的概念。这个术语指的是某些海洋生物沿着海底或水柱平滑移动的独特能力，利用浮力和控制运动的结合。理解“bathydermal gliding”可以为我们提供这些生物适应环境及其在生态系统中角色的见解。海洋是无数物种的家园，其中许多物种已经进化出专门的运动方式。例如，鱼类通常使用鳍和尾巴游泳，而其他生物，如某些类型的软体动物，可能会采用“bathydermal gliding”的形式在栖息地中导航。这种运动方式使它们能够节省能量，同时有效地寻找食物或躲避捕食者。“bathydermal gliding”的一个显著例子可以在某些种类的鳐鱼的行为中观察到。这些扁平的鱼类已经适应了海底生活，能够在底部轻松滑行。通过使用它们的胸鳍，它们可以产生升力，并优雅地在沙子或岩石底部移动。这不仅有助于它们的移动，还帮助它们从潜在威胁中保持伪装。此外，“bathydermal gliding”并不限于鳐鱼；某些类型的海龟甚至一些鲨鱼种类也可以看到这种现象。这些动物已经发展出独特的适应性，使它们能够在海底或水中轻松滑行。这种适应性对它们的生存至关重要，因为它们有助于逃避捕食者、猎取猎物以及跨越广阔的距离迁徙。“bathydermal gliding”的研究不仅限于理解这些生物如何移动。它还涉及到它们运动的生态影响。例如，这些动物与环境的互动方式可能会显著影响海洋生态系统的健康。通过在海底滑行，它们可能会搅动沉积物，从而影响营养物质的分布和该区域的整体生产力。此外，研究人员越来越关注气候变化和人类活动如何影响与“bathydermal gliding”相关的行为。随着海洋温度上升和由于污染和过度捕捞而改变栖息地，这些生态系统的微妙平衡正面临风险。了解这些变化如何影响海洋物种的运动模式对于保护工作至关重要。总之，“bathydermal gliding”是一种非凡的适应性，突显了我们海洋生命的复杂性和多样性。通过研究这一现象，我们获得了关于各种海洋生物行为和生态角色的宝贵见解。随着我们继续探索海洋深处，欣赏和保护这些令人难以置信的物种及其栖息地是至关重要的，以确保未来的世代也能惊叹于海洋生命的奇迹。