anemophilous

简明释义

英[ˌænəˈmɒfɪləs]美[ˌænəˈmɒfɪləs]

[植] 风媒的

英英释义

单词用法

同义词

反义词

例句

1.Flower ecologists have distinguished the wind pollinators, i. e. , the anemophilous plants from the zoidogamous plants.

花生态学家把风媒传粉种，即风媒植物，同动物媒植物区别开来。

2.Flower ecologists have distinguished the wind pollinators, i. e. , the anemophilous plants from the zoidogamous plants.

花生态学家把风媒传粉种，即风媒植物，同动物媒植物区别开来。

3.Flower ecologists have distinguished the anemophilous plants from the zoidogamous plants.

花生态学家把风媒植物同动物媒植物区别开来。

4.Flower ecologists have distinguished the wind pollinators, i. e. the anemophilous plants from the zoidogamous plants.

花生态学家把风媒传粉种，即风媒植物，同动物媒植物区别开来。

5.The Anemophilous 风媒的 plants release large amounts of pollen into the air during spring.

这些Anemophilous 风媒的植物在春季会释放大量花粉到空气中。

6.Many grasses are considered Anemophilous 风媒的 because they rely on wind for pollination.

许多草类被认为是Anemophilous 风媒的，因为它们依赖风进行授粉。

7.Understanding the characteristics of Anemophilous 风媒的 plants can help in gardening and landscape design.

了解Anemophilous 风媒的植物的特性可以帮助园艺和景观设计。

8.Some trees, like oaks and pines, are Anemophilous 风媒的 and produce pollen that can travel long distances.

一些树木，如橡树和松树，是Anemophilous 风媒的，其花粉可以传播很远的距离。

9.In contrast to Anemophilous 风媒的 species, many flowering plants depend on insects for pollination.

与Anemophilous 风媒的物种相反，许多开花植物依赖昆虫进行授粉。

作文

In the vast world of botany, plants exhibit a remarkable diversity in their reproductive strategies. One fascinating category of plants is the anemophilous species, which rely on wind for pollination. This method of reproduction is not only intriguing but also plays a crucial role in the ecosystem. Understanding the characteristics and significance of anemophilous plants can provide us with deeper insights into the intricate relationships between flora and fauna.Anemophilous plants are specially adapted to utilize wind as their primary means of transferring pollen from one flower to another. Unlike insect-pollinated plants, which often have colorful blooms and fragrant scents to attract pollinators, anemophilous plants tend to have inconspicuous flowers. These flowers are usually small, lacking vibrant colors and strong fragrances. Instead, they produce large quantities of lightweight pollen that can be easily carried by the wind over considerable distances.A prime example of anemophilous plants includes many species of grasses, conifers, and some deciduous trees such as oaks and maples. These plants have evolved mechanisms to ensure that their pollen grains are efficiently dispersed. For instance, the male flowers of these plants often release pollen during windy conditions, maximizing the chances of successful pollination. The structure of the flowers also assists in this process; they may have long filaments that elevate the anthers, allowing the pollen to be released high into the air.The ecological significance of anemophilous plants cannot be overstated. They contribute to the biodiversity of ecosystems and provide essential food sources for various organisms. In addition to their role in reproduction, these plants also help stabilize soils, preventing erosion and maintaining the health of the environment. Furthermore, the wind-pollination strategy allows them to thrive in areas where insect pollinators may be scarce, such as in open fields or mountainous regions.However, anemophilous plants also face challenges. Changes in climate and habitat loss can significantly impact their populations. For instance, increased urbanization leads to fragmented habitats, making it difficult for wind to carry pollen effectively. Additionally, the rise in air pollution can affect pollen viability, further threatening the survival of these species. Conservation efforts are essential to protect the habitats of anemophilous plants and ensure their continued existence.In conclusion, anemophilous plants represent a unique and vital aspect of our natural world. Their reliance on wind for pollination showcases the incredible adaptations that plants have developed to survive and reproduce. By studying these plants, we gain a better understanding of ecological dynamics and the importance of preserving biodiversity. It is crucial for us to recognize the value of anemophilous species and work towards protecting their habitats for future generations to appreciate and benefit from the beauty and complexity of nature.

在植物学的广阔世界中，植物在繁殖策略上表现出显著的多样性。一类引人注目的植物是风媒花物种，它们依赖风进行授粉。这种繁殖方式不仅令人着迷，而且在生态系统中发挥着至关重要的作用。理解风媒花植物的特征和重要性，可以让我们更深入地了解植物与动物之间错综复杂的关系。风媒花植物特别适应利用风作为主要的花粉转移方式。与依靠昆虫授粉的植物不同，后者通常具有鲜艳的花朵和芳香的气味以吸引传粉者，风媒花植物往往有不显眼的花。这些花通常较小，缺乏鲜艳的颜色和强烈的香气。相反，它们会产生大量轻质花粉，这些花粉可以被风轻易地带到很远的地方。许多草本植物、针叶树以及一些落叶树如橡树和枫树都是风媒花植物的典型例子。这些植物进化出了一些机制，以确保它们的花粉能够有效传播。例如，这些植物的雄花通常在风大的条件下释放花粉，从而最大化成功授粉的机会。这些花的结构也有助于这一过程；它们可能有长的花丝，将花药抬高，使花粉能够释放到空气中。风媒花植物的生态意义不可低估。它们为生态系统的生物多样性做出了贡献，并为各种生物提供了重要的食物来源。除了在繁殖中的作用外，这些植物还帮助稳定土壤，防止侵蚀，维护环境的健康。此外，风授粉策略使它们能够在昆虫授粉者稀少的地区生存，例如开放的田野或山区。然而，风媒花植物也面临挑战。气候变化和栖息地丧失可能会对它们的种群产生重大影响。例如，城市化的加剧导致栖息地的碎片化，使风难以有效地传播花粉。此外，空气污染的增加可能会影响花粉的活力，进一步威胁这些物种的生存。保护措施对于保护风媒花植物的栖息地至关重要，以确保它们的持续存在。总之，风媒花植物代表了我们自然世界独特而重要的一个方面。它们依赖风进行授粉，展示了植物为生存和繁殖所发展出的惊人适应性。通过研究这些植物，我们对生态动态和保护生物多样性的重要性有了更好的理解。我们必须认识到风媒花物种的价值，并努力保护它们的栖息地，以便未来的世代能够欣赏和受益于自然的美丽和复杂性。