entomophilous

简明释义

英[ˌentəˈmɒfɪləs]美[ˌentəˈmɑfələs]

adj. [生态] 虫媒的

英英释义

单词用法

同义词

反义词

例句

1.Pollination insects limit the evolutionary mode of the entomophilous flower. An internal connection exis…

植物的花部特征与传粉者行为、传粉机制和植物适合度间有丰内在的联系。

2.Pollination insects limit the evolutionary mode of the entomophilous flower. An internal connection exis…

植物的花部特征与传粉者行为、传粉机制和植物适合度间有丰内在的联系。

3.However, pollen insect-pollinated (entomophilous) species is also often transported by wind.

然而，虫媒传粉(虫媒植物)种的花粉也常常由风来输送。

4.Many flowering plants are entomophilous, meaning they rely on insects for pollination.

许多开花植物是虫媒的，这意味着它们依赖昆虫进行授粉。

5.The entomophilous species of flowers attract bees and butterflies with their bright colors.

这种虫媒的花卉物种用明亮的颜色吸引蜜蜂和蝴蝶。

6.Farmers often plant entomophilous crops to ensure better yields through insect pollination.

农民们常常种植虫媒的作物，以确保通过昆虫授粉获得更好的产量。

7.Some entomophilous plants have evolved specific traits to attract certain types of pollinators.

一些虫媒的植物进化出了特定的特征来吸引某些类型的传粉者。

8.The decline of bee populations can severely impact entomophilous plants and their ecosystems.

蜜蜂种群的下降可能会严重影响虫媒的植物及其生态系统。

作文

In the intricate web of nature, the relationship between plants and pollinators is crucial for the survival of many species. One fascinating aspect of this relationship is the phenomenon of entomophilous plants, which are specifically adapted to attract insects for the purpose of pollination. These plants have evolved various traits that make them appealing to a wide range of insects, including bees, butterflies, and beetles. Understanding how entomophilous plants function can provide insight into the delicate balance of ecosystems and the importance of biodiversity. The term entomophilous refers to plants that rely on insects for pollination. Unlike anemophilous plants that depend on wind, entomophilous plants have developed bright colors, enticing scents, and sweet nectar to lure in their insect partners. For example, flowers such as sunflowers and daisies exhibit vibrant colors that stand out in their environments, making them easily recognizable to insects. Additionally, these plants often produce nectar, a sugary substance that serves as a reward for the pollinators, encouraging them to visit multiple flowers and facilitate cross-pollination. One of the most remarkable aspects of entomophilous plants is their ability to adapt to the behaviors of their insect pollinators. For instance, some flowers have evolved specific shapes that accommodate certain types of insects. Tubular flowers may attract hummingbirds or long-tongued bees, while flat flowers are more accessible to butterflies and other flying insects. This co-evolution not only benefits the plants but also ensures a consistent food source for the insects, creating a symbiotic relationship that is vital for both parties. The role of entomophilous plants extends beyond mere reproduction; they also contribute significantly to the health of ecosystems. Pollinators are essential for the production of fruits, seeds, and vegetables, which form the basis of many food webs. Without entomophilous plants and their insect allies, many crops would fail, leading to food shortages and economic instability. Therefore, protecting these plants and their pollinators is crucial for maintaining ecological balance and ensuring food security. However, the increasing threat of habitat loss, pesticides, and climate change poses significant challenges to entomophilous plants and their pollinators. Many species of bees and butterflies are experiencing population declines due to these factors, which directly impacts the plants that rely on them for pollination. Conservation efforts aimed at preserving natural habitats, reducing pesticide use, and promoting sustainable agricultural practices are essential to safeguard the future of entomophilous plants and their insect partners. In conclusion, the study of entomophilous plants offers valuable insights into the interconnectedness of life on Earth. By understanding the unique adaptations and relationships that these plants have with insects, we can appreciate the complexity of ecosystems and the importance of biodiversity. Protecting entomophilous plants and their pollinators is not just about conserving individual species; it is about preserving the intricate web of life that sustains us all. As stewards of the environment, it is our responsibility to ensure that these vital relationships continue to thrive for generations to come.

在自然的复杂网络中，植物与授粉者之间的关系对许多物种的生存至关重要。这个关系的一个迷人方面是虫媒花现象，这些植物专门适应吸引昆虫进行授粉。这些植物进化出了各种特征，使它们对蜜蜂、蝴蝶和甲虫等多种昆虫具有吸引力。理解虫媒花植物的功能可以为我们提供关于生态系统微妙平衡和生物多样性重要性的洞察。 术语虫媒花指的是依赖昆虫进行授粉的植物。与依赖风的风媒植物不同，虫媒花植物已经发展出明亮的颜色、诱人的气味和甜美的花蜜，以吸引昆虫。例如，向日葵和雏菊等花朵展示出鲜艳的色彩，在其环境中脱颖而出，使昆虫容易辨认。此外，这些植物通常会产生花蜜，这是一种糖分丰富的物质，作为授粉者的奖励，鼓励它们访问多个花朵并促进异花授粉。 虫媒花植物最显著的方面之一是它们能够适应昆虫授粉者的行为。例如，一些花朵进化出特定的形状，以适应某些类型的昆虫。管状花可能吸引蜂鸟或长舌蜜蜂，而扁平花则更容易被蝴蝶和其他飞行昆虫接触。这种共同进化不仅使植物受益，还确保了昆虫的持续食物来源，创造了两者之间至关重要的共生关系。 虫媒花植物的角色超越了单纯的繁殖；它们对生态系统的健康也有重要贡献。授粉者对于水果、种子和蔬菜的生产至关重要，这些构成了许多食物链的基础。如果没有虫媒花植物及其昆虫伙伴，许多农作物将会失败，导致粮食短缺和经济不稳定。因此，保护这些植物及其授粉者对于维持生态平衡和确保粮食安全至关重要。 然而，栖息地丧失、农药和气候变化的日益威胁对虫媒花植物及其授粉者构成了重大挑战。由于这些因素，许多蜜蜂和蝴蝶物种正经历种群下降，这直接影响到依赖它们进行授粉的植物。旨在保护自然栖息地、减少农药使用和促进可持续农业实践的保护工作对于保障虫媒花植物及其昆虫伙伴的未来至关重要。 总之，研究虫媒花植物为我们提供了对地球生命相互联系的宝贵见解。通过理解这些植物与昆虫之间独特的适应性和关系，我们可以欣赏生态系统的复杂性和生物多样性的重要性。保护虫媒花植物及其授粉者不仅仅是为了保护个别物种；而是为了保护维持我们所有人生活的复杂生命网络。作为环境的管理者，我们有责任确保这些重要关系在未来几代人中继续繁荣。