acaroid

简明释义

英[ˈækərɔɪd]美[ˈækəˌrɔɪd]

adj. 螨的，螨状的

英英释义

单词用法

同义词

反义词

例句

1.In a year, the average breeding density of Acaroid mites was 3.

淮南地区一年之中粉螨的平均孳生密度为3。

2.In a year, the average breeding density of Acaroid mites was 3.

淮南地区一年之中粉螨的平均孳生密度为3。

3.Researchers are examining the acaroid traits in various soil-dwelling species.

研究人员正在检查各种土壤生物中的螨状的特征。

4.The acaroid family of creatures is often overlooked in ecological studies.

在生态研究中，螨状的生物家族常常被忽视。

5.The acaroid features of this organism help it adapt to its environment.

该生物的螨状的特征帮助它适应环境。

6.The scientist discovered a new species of mite that was classified as acaroid.

科学家发现了一种新的螨虫物种，被归类为螨状的。

7.In the study of arachnids, acaroid characteristics are essential for identification.

在对蛛形纲动物的研究中，螨状的特征对于鉴别至关重要。

作文

In the vast world of biology, the term acaroid refers to a group of organisms that resemble mites or ticks. These small arachnids play a significant role in various ecosystems, often acting as decomposers and contributing to soil health. Understanding the characteristics and behaviors of acaroid species can provide valuable insights into environmental balance and biodiversity.One of the most fascinating aspects of acaroid organisms is their adaptability. They have evolved to thrive in a multitude of habitats, from forest floors to deserts. This adaptability allows them to survive in extreme conditions where other organisms may falter. For instance, certain acaroid species are capable of withstanding high levels of desiccation, enabling them to persist in arid environments. This resilience is crucial for maintaining ecological stability, as acaroid populations can help break down organic matter and recycle nutrients back into the ecosystem.Moreover, acaroid organisms often exhibit complex behaviors that are essential for their survival. Many of these creatures engage in intricate mating rituals, which can involve pheromone signaling and elaborate displays. Such behaviors not only ensure the continuation of their species but also contribute to genetic diversity within their populations. Additionally, acaroid species often form symbiotic relationships with other organisms, such as fungi and plants, aiding in nutrient exchange and promoting overall ecosystem health.In agricultural contexts, acaroid organisms can have both positive and negative impacts. On one hand, they can be beneficial by controlling pest populations and enhancing soil fertility. Certain acaroid species feed on harmful pests, thus reducing the need for chemical pesticides and promoting sustainable farming practices. On the other hand, some acaroid species can become pests themselves, causing damage to crops and leading to economic losses for farmers. Understanding the dual nature of acaroid organisms is essential for effective pest management strategies in agriculture.As we delve deeper into the study of acaroid organisms, it becomes evident that they are more than just simple creatures; they are key players in maintaining ecological balance. Their roles as decomposers, symbionts, and predators highlight the intricate web of life that exists within our ecosystems. Conservation efforts aimed at protecting acaroid habitats are crucial, as these organisms contribute significantly to soil health and biodiversity.In conclusion, the study of acaroid organisms offers a window into the complexities of ecological interactions. By understanding their roles and behaviors, we can better appreciate the importance of these small yet mighty creatures. As we face global challenges such as climate change and habitat destruction, recognizing the value of acaroid organisms will be essential in our efforts to protect the environment and promote sustainability. Through education and conservation, we can ensure that these vital organisms continue to thrive in our ever-changing world.

在生物学的广阔世界中，术语acaroid指的是一组与螨虫或蜱虫相似的生物。这些小型蛛形纲动物在各种生态系统中发挥着重要作用，通常作为分解者，有助于土壤健康。理解acaroid物种的特征和行为可以为我们提供有关环境平衡和生物多样性的宝贵见解。acaroid生物最令人着迷的一个方面是它们的适应性。它们已经进化出能够在多种栖息地中生存，从森林地面到沙漠。这种适应性使它们能够在其他生物可能衰退的极端条件下生存。例如，某些acaroid物种能够承受高水平的干燥，使它们能够在干旱环境中持续生存。这种韧性对维持生态稳定至关重要，因为acaroid种群可以帮助分解有机物质并将养分回收回生态系统。此外，acaroid生物通常表现出复杂的行为，这对于它们的生存至关重要。许多这些生物参与复杂的求偶仪式，这可能涉及信息素信号和精心设计的展示。这种行为不仅确保了它们物种的延续，还促进了其种群内的遗传多样性。此外，acaroid物种常常与其他生物（如真菌和植物）形成共生关系，促进养分交换并促进整体生态系统健康。在农业背景下，acaroid生物可以产生积极和消极的影响。一方面，它们可以通过控制害虫种群和增强土壤肥力而带来好处。某些acaroid物种以有害害虫为食，从而减少对化学农药的需求，促进可持续农业实践。另一方面，一些acaroid物种可能会成为害虫，导致作物损害并给农民带来经济损失。理解acaroid生物的双重性质对于农业中有效的害虫管理策略至关重要。随着我们深入研究acaroid生物，显然它们不仅仅是简单的生物；它们是维持生态平衡的关键角色。作为分解者、共生者和捕食者的角色突显了我们生态系统中存在的复杂生命网络。旨在保护acaroid栖息地的保护工作至关重要，因为这些生物对土壤健康和生物多样性贡献显著。总之，研究acaroid生物提供了一个窥视生态互动复杂性的窗口。通过理解它们的角色和行为，我们可以更好地欣赏这些小而强大的生物的重要性。面对气候变化和栖息地破坏等全球挑战时，认识到acaroid生物的价值对于保护环境和促进可持续发展至关重要。通过教育和保护，我们可以确保这些重要生物在不断变化的世界中继续繁荣。