compound eye

简明释义

复眼;

英英释义

例句

1.Many arthropods rely on their compound eye for navigation and finding food.

许多节肢动物依赖其复眼进行导航和寻找食物。

2.The compound eye structure is made up of thousands of tiny lenses, each capturing a different angle of light.

这复眼结构由成千上万的小镜头组成，每个镜头捕捉不同角度的光线。

3.The compound eye of a dragonfly provides a nearly panoramic view, helping it catch prey in mid-air.

蜻蜓的复眼提供了几乎全景的视野，帮助它在空中捕猎。

4.Scientists study the compound eye of flies to understand how they perceive the world around them.

科学家研究苍蝇的复眼以了解它们如何感知周围的世界。

5.The insect's vision is enhanced by its compound eye, which allows it to detect movement quickly.

昆虫的视力因其复眼而增强，使它能够快速检测到运动。

作文

The fascinating world of insects has always intrigued scientists and nature enthusiasts alike. One of the most remarkable features of many insects is their visual system, particularly the structure known as the compound eye. This unique adaptation allows insects to perceive their environment in ways that are vastly different from humans. The compound eye (复眼) is composed of thousands of tiny lenses called ommatidia, each functioning like a small individual eye. This structure provides insects with a wide field of vision, often exceeding 180 degrees, which is crucial for detecting predators and navigating through complex environments.Insects such as dragonflies and bees showcase the incredible capabilities of the compound eye (复眼). Dragonflies, for instance, have one of the most advanced visual systems in the animal kingdom. Their compound eyes (复眼) are made up of around 30,000 ommatidia, allowing them to track fast-moving prey with exceptional precision. This ability to see in nearly all directions simultaneously gives them a significant advantage when hunting or evading threats.Bees also rely heavily on their compound eyes (复眼) for foraging and navigation. Their visual system is particularly sensitive to ultraviolet light, which is invisible to humans. This adaptation enables bees to detect patterns on flowers that guide them to nectar sources. The compound eye (复眼) plays a critical role in their survival and efficiency as pollinators, making them essential to ecosystems and agriculture.The structure of the compound eye (复眼) differs significantly from the simple eyes found in vertebrates, including humans. While human eyes possess a single lens that focuses light onto a retina, the compound eye (复眼) captures light through multiple lenses, which can lead to a mosaic-like image. This difference results in a lower resolution compared to vertebrate vision but compensates with an unparalleled ability to detect motion and changes in light intensity.Moreover, the compound eye (复眼) is not just limited to insects; it can also be found in some crustaceans and other arthropods. Understanding the mechanics behind this visual system has inspired advancements in technology, including the development of cameras and sensors that mimic the compound eye (复眼). Researchers are exploring how these biological systems can improve machine vision, robotics, and even autonomous vehicles.In conclusion, the compound eye (复眼) is a testament to the incredible adaptations that have evolved in the insect world. Its unique structure and functionality highlight the diversity of life on our planet and the various ways organisms have developed to thrive in their environments. As we continue to study these fascinating creatures, we gain insights not only into their biology but also into potential applications that can benefit humanity. The exploration of the compound eye (复眼) serves as a reminder of the intricate connections between nature and technology, and the endless possibilities that arise from understanding the natural world more deeply.

昆虫的迷人世界一直吸引着科学家和自然爱好者。许多昆虫最显著的特征之一是它们的视觉系统，特别是被称为复眼的结构。这种独特的适应使昆虫能够以与人类截然不同的方式感知环境。复眼（compound eye）由成千上万的小透镜组成，称为小眼， 每个小眼都像一个小的独立眼睛。这个结构使昆虫拥有广阔的视野，通常超过180度，这对探测捕食者和在复杂环境中导航至关重要。例如，蜻蜓和蜜蜂展示了复眼（compound eye）令人难以置信的能力。蜻蜓的视觉系统是动物界中最先进的之一。它们的复眼（compound eye）由大约30,000个小眼组成，使它们能够以极高的精确度追踪快速移动的猎物。这种几乎能同时看到所有方向的能力，使它们在捕猎或躲避威胁时具有显著优势。蜜蜂也在觅食和导航中高度依赖它们的复眼（compound eye）。它们的视觉系统对紫外线光特别敏感，而这些光对人类是不可见的。这种适应使蜜蜂能够检测花朵上的图案，从而引导它们找到花蜜源。复眼（compound eye）在它们的生存和作为授粉者的效率中发挥着关键作用，使它们对生态系统和农业至关重要。复眼（compound eye）的结构与脊椎动物（包括人类）中的简单眼有显著不同。虽然人类的眼睛具有一个单一的透镜，将光聚焦到视网膜上，但复眼（compound eye）通过多个透镜捕捉光线，这可能导致马赛克状的图像。这种差异导致其分辨率低于脊椎动物的视觉，但在检测运动和光强变化方面却具有无与伦比的能力。此外，复眼（compound eye）不仅限于昆虫；它还可以在一些甲壳类动物和其他节肢动物中找到。理解这种视觉系统背后的机制激发了技术的进步，包括模仿复眼（compound eye）的相机和传感器的开发。研究人员正在探索这些生物系统如何改善机器视觉、机器人技术，甚至自主车辆。总之，复眼（compound eye）是昆虫世界中令人难以置信的适应的证明。它独特的结构和功能突显了我们星球生命的多样性以及生物体为在其环境中蓬勃发展而发展出的各种方式。随着我们继续研究这些迷人的生物，我们不仅获得了对它们生物学的洞察，还获得了可能造福人类的潜在应用。对复眼（compound eye）的探索提醒我们，自然与技术之间的复杂联系，以及深入理解自然世界所带来的无尽可能性。