mycoflora

简明释义

英[ˌmaɪkoʊˈflɔːrə]美[ˌmaɪkoʊˈflɔːrə]

n. 真菌区系；真菌群

英英释义

单词用法

同义词

反义词

例句

1.Dendrocola mycoflora on leaves and branches of tea plants in southern Henan Province was studied. Totally 17 genera and 32 species of fungi from tea plantations were obtained.

对豫南茶园叶栖及枝栖真菌群落结构进行了初步调查，经分离共得到真菌17属32种。

2.Dendrocola mycoflora on leaves and branches of tea plants in southern Henan Province was studied. Totally 17 genera and 32 species of fungi from tea plantations were obtained.

对豫南茶园叶栖及枝栖真菌群落结构进行了初步调查，经分离共得到真菌17属32种。

3.The study of the mycoflora helps researchers understand the relationships between fungi and plants.

对真菌群落的研究帮助研究人员理解真菌与植物之间的关系。

4.Researchers are exploring how changes in mycoflora affect ecosystem health.

研究人员正在探索真菌群落的变化如何影响生态系统健康。

5.The mycoflora of the soil can influence the growth of various plant species.

土壤的真菌群落可以影响各种植物物种的生长。

6.A diverse mycoflora can improve soil fertility and structure.

多样化的真菌群落可以改善土壤肥力和结构。

7.In agriculture, maintaining a healthy mycoflora is crucial for crop yield.

在农业中，维持健康的真菌群落对作物产量至关重要。

作文

In recent years, the study of fungi has gained significant attention in various scientific fields. One of the most intriguing aspects of this research is the concept of mycoflora, which refers to the community of fungi that inhabit a particular environment. Understanding mycoflora is essential for several reasons, including its implications for ecosystem health, agriculture, and human health.Firstly, mycoflora plays a crucial role in maintaining the balance of ecosystems. Fungi are decomposers that break down organic matter, recycling nutrients back into the soil. This process is vital for plant growth, as it ensures that essential nutrients are available for uptake by plants. Additionally, many fungi form symbiotic relationships with plants, known as mycorrhizae, which enhance nutrient absorption. These interactions illustrate how mycoflora contributes to soil fertility and overall ecosystem productivity.Moreover, the diversity of mycoflora can serve as an indicator of environmental health. A rich and varied fungal community often signifies a healthy ecosystem, whereas a decline in fungal diversity may indicate underlying issues such as pollution or habitat destruction. Researchers utilize this information to monitor ecosystem changes and implement conservation strategies.In agriculture, mycoflora has both beneficial and detrimental impacts. On one hand, certain fungi can promote plant growth and protect crops from pests and diseases. For instance, beneficial fungi can outcompete harmful pathogens, reducing the need for chemical pesticides. On the other hand, some fungi can cause significant damage to crops, leading to economic losses. Understanding the dynamics of mycoflora allows farmers to harness beneficial fungi while managing harmful ones, ultimately leading to more sustainable agricultural practices.Human health is another area where mycoflora plays a significant role. Fungi are used in the production of antibiotics, such as penicillin, and other pharmaceuticals. Furthermore, the study of mycoflora in the human body, particularly the gut microbiome, has revealed that certain fungi can influence our health and well-being. An imbalance in the mycoflora can lead to various health issues, including infections and digestive problems. Therefore, understanding the composition and function of mycoflora is vital for developing new medical treatments and improving public health.In conclusion, the study of mycoflora encompasses a wide range of ecological, agricultural, and health-related topics. As we continue to explore the complexities of fungal communities, it becomes increasingly clear that mycoflora is integral to our understanding of the natural world. By recognizing the importance of these organisms, we can better appreciate their role in sustaining ecosystems, enhancing agricultural productivity, and promoting human health. Future research on mycoflora will undoubtedly yield valuable insights that can help us address pressing environmental and health challenges.

近年来，真菌研究在各个科学领域引起了显著关注。这个研究中最引人入胜的一个方面是mycoflora的概念，它指的是栖息在特定环境中的真菌群落。理解mycoflora至关重要，原因有很多，包括其对生态系统健康、农业和人类健康的影响。首先，mycoflora在维持生态系统平衡中发挥着关键作用。真菌是分解者，能够分解有机物质，将营养物质回收进土壤。这一过程对植物生长至关重要，因为它确保植物能够吸收必要的营养。此外，许多真菌与植物形成共生关系，称为菌根，这种关系增强了植物的营养吸收能力。这些相互作用说明了mycoflora如何促进土壤肥力和整体生态系统生产力。此外，mycoflora的多样性可以作为环境健康的指标。丰富而多样的真菌群落通常意味着生态系统健康，而真菌多样性的下降可能表明潜在问题，如污染或栖息地破坏。研究人员利用这些信息监测生态系统变化并实施保护策略。在农业中，mycoflora对作物有益也有害。一方面，某些真菌可以促进植物生长并保护作物免受害虫和疾病的侵害。例如，有益真菌可以与有害病原体竞争，从而减少对化学农药的需求。另一方面，一些真菌可能会对作物造成重大损害，导致经济损失。了解mycoflora的动态使农民能够利用有益真菌，同时管理有害真菌，从而最终实现更可持续的农业实践。人类健康是另一个mycoflora发挥重要作用的领域。真菌被用于生产抗生素，如青霉素和其他药物。此外，对人体内mycoflora的研究，特别是肠道微生物组，揭示了某些真菌可以影响我们的健康和福祉。mycoflora的不平衡可能导致各种健康问题，包括感染和消化问题。因此，理解mycoflora的组成和功能对于开发新的医疗治疗和改善公共健康至关重要。总之，mycoflora的研究涵盖了广泛的生态、农业和健康相关主题。随着我们继续探索真菌群落的复杂性，越来越明显的是，mycoflora对我们理解自然世界至关重要。通过认识到这些生物的重要性，我们可以更好地欣赏它们在维持生态系统、提高农业生产力和促进人类健康中的作用。未来对mycoflora的研究无疑会产生有价值的见解，帮助我们应对紧迫的环境和健康挑战。