phylloplane
简明释义
n. 叶面
英英释义
The phylloplane refers to the surface of leaves, particularly in relation to the microorganisms and other organisms that inhabit it. | 叶面是指叶子的表面,特别是与栖息在其上的微生物和其他生物有关。 |
单词用法
叶面上的微生物群落 | |
叶面湿度 | |
叶面互动 | |
叶面生态学 | |
叶面微生物 | |
叶面栖息地 |
同义词
| 叶面 | 叶面上栖息着各种微生物。 | ||
| 叶球层 | 叶球层在植物健康中扮演着关键角色。 |
反义词
| 基底 | 植物的根部穿透基底以获取养分。 | ||
| 地面 | The ground is often home to various organisms that contribute to the ecosystem. | 地面通常是各种生物的栖息地,它们对生态系统作出贡献。 |
例句
1.Colonization of antagonistic Bacillus subtilis BS-208 and BS-209 on phylloplane of tomato and soil was studied.
对拮抗枯草芽孢杆菌BS-208和BS-209在番茄叶面和土壤中的定殖情况进行了研究。
2.Colonization of antagonistic Bacillus subtilis BS-208 and BS-209 on phylloplane of tomato and soil was studied.
对拮抗枯草芽孢杆菌BS-208和BS-209在番茄叶面和土壤中的定殖情况进行了研究。
3.Pesticides can disrupt the natural balance of organisms on the phylloplane (叶面).
农药可能会破坏phylloplane(叶面)上生物的自然平衡。
4.The health of the phylloplane (叶面) can significantly affect the overall vigor of the plant.
phylloplane(叶面)的健康状况会显著影响植物的整体活力。
5.Researchers found that the phylloplane (叶面) serves as a crucial habitat for many beneficial bacteria.
研究人员发现,phylloplane(叶面)是许多有益细菌的重要栖息地。
6.The phylloplane (叶面) is often overlooked in studies of plant health.
在植物健康研究中,phylloplane(叶面)常常被忽视。
7.The study focused on the microbial communities present on the phylloplane (叶面) of various plant species.
该研究集中在不同植物种类的phylloplane(叶面)上存在的微生物群落。
作文
The term phylloplane refers to the surface of leaves where various biological interactions take place. This concept is crucial in understanding the ecology of plant life and its relationship with the environment. The phylloplane serves as a habitat for numerous microorganisms, including bacteria, fungi, and algae, which contribute to the overall health of the plant. These microorganisms play vital roles in nutrient cycling, disease resistance, and even photosynthesis. In many ecosystems, the phylloplane acts as a microhabitat that can significantly influence plant health and productivity. For instance, plants with a diverse microbial community on their leaves may exhibit enhanced growth and resilience against environmental stresses. This is particularly important in agricultural settings, where the health of crops directly impacts food production. Understanding the dynamics of the phylloplane can lead to more sustainable farming practices, as farmers can promote beneficial microbial communities while suppressing harmful ones.Moreover, the phylloplane also plays a role in atmospheric processes. The surfaces of leaves can capture water vapor and particulate matter from the air, influencing local climate and air quality. Studies have shown that the phylloplane can affect the deposition of nutrients and pollutants, which in turn impacts plant health and ecosystem functioning. This interaction highlights the importance of considering the phylloplane in environmental management and conservation efforts.Research into the phylloplane has expanded in recent years, revealing its complexity and significance. Scientists are now using advanced technologies such as metagenomics to explore the diverse microbial communities present on leaf surfaces. These studies aim to identify specific microorganisms that could be harnessed for agricultural benefits, such as promoting plant growth or enhancing disease resistance. Furthermore, the phylloplane is not just limited to terrestrial plants. Aquatic plants also possess leaf surfaces that interact with their environment, albeit in different ways. For example, the phylloplane of water lilies or reeds can provide a substrate for algae and other aquatic microorganisms, contributing to the overall health of freshwater ecosystems. Understanding these interactions is essential for the conservation of aquatic habitats and biodiversity.In conclusion, the phylloplane is a vital component of plant biology and ecology. It serves as a dynamic interface between plants and their environment, facilitating numerous ecological processes. As we continue to study the phylloplane, we gain insights that can inform agricultural practices, environmental management, and conservation efforts. By appreciating the complexity and importance of the phylloplane, we can better understand the intricate web of life that sustains our planet.
术语phylloplane指的是叶子的表面,在这里发生各种生物相互作用。这个概念对于理解植物生命的生态学及其与环境的关系至关重要。phylloplane作为许多微生物的栖息地,包括细菌、真菌和藻类,这些微生物有助于植物的整体健康。这些微生物在养分循环、抗病能力,甚至光合作用中发挥着重要作用。在许多生态系统中,phylloplane充当了一个微生境,能显著影响植物的健康和生产力。例如,叶子上拥有多样微生物群落的植物可能表现出更强的生长能力和对环境压力的抵抗力。这在农业环境中尤为重要,因为作物的健康直接影响到食物生产。理解phylloplane的动态变化可以促使更可持续的农业实践,因为农民可以促进有益微生物群落的生长,同时抑制有害微生物。此外,phylloplane在大气过程中也发挥着作用。叶子的表面可以捕获来自空气中的水蒸气和颗粒物,从而影响当地气候和空气质量。研究表明,phylloplane可以影响养分和污染物的沉积,这反过来又影响植物健康和生态系统功能。这种相互作用强调了在环境管理和保护工作中考虑phylloplane的重要性。近年来,对phylloplane的研究有所增加,揭示了其复杂性和重要性。科学家们现在使用先进技术,如宏基因组学,探索存在于叶子表面的多样微生物群落。这些研究旨在识别特定微生物,以便利用它们带来的农业益处,例如促进植物生长或增强抗病能力。此外,phylloplane不仅限于陆生植物。水生植物也具有与环境相互作用的叶子表面,尽管方式不同。例如,水百合或芦苇的phylloplane可以为藻类和其他水生微生物提供基质,从而有助于淡水生态系统的整体健康。理解这些相互作用对于保护水生栖息地和生物多样性至关重要。总之,phylloplane是植物生物学和生态学的重要组成部分。它作为植物与环境之间的动态界面,促进了众多生态过程。随着我们继续研究phylloplane,我们获得的见解可以为农业实践、环境管理和保护工作提供信息。通过欣赏phylloplane的复杂性和重要性,我们可以更好地理解维持我们星球生命的错综复杂的生命网络。
