bifoliate
简明释义
英[/ˌbaɪˈfoʊ.li.ət/]美[/ˌbaɪˈfoʊ.li.ət/]
adj. 双叶的
英英释义
具有两个叶子或叶状结构。 |
单词用法
同义词
反义词
| 单叶的 | 这个单叶植物只有一片叶子。 | ||
| 多叶的 | 许多多叶种类在热带气候中生长良好。 |
例句
1.This is a bifoliate aluminium makes open bridge, by the bicycle, on foot with motor vehicle 3 kinds of driveway are comprised, have a bridge tower that is as high as 60m.
这是一座双叶的铝制开启桥,由自行车、步行和机动车三种车道组成,并有一座高达60m的桥塔。
2.This is a bifoliate aluminium makes open bridge, by the bicycle, on foot with motor vehicle 3 kinds of driveway are comprised, have a bridge tower that is as high as 60m.
这是一座双叶的铝制开启桥,由自行车、步行和机动车三种车道组成,并有一座高达60m的桥塔。
3.In botany, a bifoliate leaf is characterized by having two distinct leaflets.
在植物学中,bifoliate(双叶)叶子以具有两个独特的叶片为特征。
4.The plant exhibits a unique structure with its bifoliate leaves, allowing it to capture more sunlight.
这种植物展现出独特的结构,其bifoliate(双叶)叶子使其能够捕捉更多阳光。
5.The bifoliate nature of the leaf allows for increased photosynthesis efficiency.
叶子的bifoliate(双叶)特性允许更高效的光合作用。
6.The artist chose a bifoliate design for the sculpture, symbolizing duality.
艺术家选择了一个bifoliate(双叶)设计来制作雕塑,以象征二元性。
7.Some species of orchids have bifoliate structures that help them thrive in their environments.
一些兰花物种具有bifoliate(双叶)结构,帮助它们在环境中茁壮成长。
作文
In the world of botany, the term bifoliate (双叶的) refers to a specific type of leaf structure that is characterized by the presence of two distinct leaf blades. This unique morphology can be observed in various plant species and plays a crucial role in their adaptation to different environments. Understanding the concept of bifoliate leaves can provide insights into how plants have evolved to maximize their photosynthetic efficiency and survive in diverse habitats.Plants with bifoliate leaves often exhibit a fascinating array of adaptations. For instance, the arrangement of the two leaf blades can optimize light capture by allowing more surface area to absorb sunlight. This is particularly advantageous in densely vegetated areas where competition for light is fierce. By having two leaves instead of one, these plants can effectively harness available sunlight, thereby enhancing their growth and reproductive success.Moreover, the bifoliate structure can also influence water conservation strategies in plants. In arid environments, some species may develop bifoliate leaves that are smaller or thicker, reducing water loss through transpiration. This adaptation allows them to thrive in conditions where water is scarce, illustrating the remarkable ways in which plant forms can respond to environmental pressures.The study of bifoliate leaves extends beyond botany; it has implications in fields such as ecology and agriculture. For example, understanding how different leaf structures affect photosynthesis can inform agricultural practices aimed at improving crop yields. Farmers can select plant varieties with optimal leaf arrangements to maximize light absorption and minimize water usage, thus promoting sustainable farming practices.Additionally, the aesthetic appeal of bifoliate plants cannot be overlooked. Many ornamental species feature striking leaf shapes and colors, making them popular choices for gardens and landscaping. The visual diversity offered by bifoliate foliage contributes to the overall beauty of natural and cultivated landscapes, enriching our environment.In conclusion, the term bifoliate (双叶的) encapsulates a fascinating aspect of plant morphology that has significant ecological, agricultural, and aesthetic implications. By examining the characteristics and advantages of bifoliate leaves, we can gain a deeper appreciation for the complexity of plant life and the intricate relationships between organisms and their environments. As we continue to explore the diversity of plant forms, the concept of bifoliate serves as a reminder of nature's ingenuity and adaptability.
在植物学的世界中,术语bifoliate(双叶的)指的是一种特定的叶片结构,其特征是存在两个不同的叶片。这种独特的形态可以在各种植物物种中观察到,并在它们适应不同环境中发挥着至关重要的作用。理解bifoliate叶子的概念可以提供有关植物如何进化以最大化光合作用效率和在多样栖息地中生存的见解。拥有bifoliate叶子的植物通常表现出一系列迷人的适应性。例如,两个叶片的排列可以优化光捕获,通过允许更多的表面积吸收阳光,从而在植被密集的地区获得优势。在竞争激烈的光照条件下,这些植物通过拥有两个叶子而不是一个,有效利用可用的阳光,从而增强其生长和繁殖成功。此外,bifoliate结构还可以影响植物的水分保护策略。在干旱环境中,一些物种可能会发展出较小或较厚的bifoliate叶子,以减少蒸腾过程中的水分流失。这种适应使它们能够在水源稀缺的条件下茁壮成长,展示了植物形态如何响应环境压力的显著方式。对bifoliate叶子的研究不仅限于植物学;它在生态学和农业等领域也具有重要意义。例如,了解不同叶结构如何影响光合作用可以为提高作物产量的农业实践提供信息。农民可以选择具有最佳叶排列的植物品种,以最大化光吸收并最小化水分使用,从而促进可持续农业实践。此外,bifoliate植物的美学吸引力也不容忽视。许多观赏物种具有引人注目的叶形和颜色,使它们成为花园和景观设计中的热门选择。bifoliate叶子所提供的视觉多样性丰富了自然和人工栖息地的整体美感,提升了我们的环境。总之,术语bifoliate(双叶的)概括了植物形态学的一个迷人方面,具有重要的生态、农业和美学意义。通过研究bifoliate叶子的特征和优点,我们可以更深入地欣赏植物生命的复杂性以及生物与其环境之间的微妙关系。随着我们继续探索植物形式的多样性,bifoliate的概念提醒我们自然的聪明才智和适应能力。
