conidiospore
简明释义
英[kəˈnɪdiəˌspɔr]美[kəˈnɪdiəˌspɔr]
n. 分生孢子;无性孢子
英英释义
单词用法
同义词
| 孢子 | The conidiospore is a type of asexual spore produced by fungi. | 分生孢子是由真菌产生的一种无性孢子。 | |
| 分生孢子 | 分生孢子可以通过风、水或昆虫传播。 |
反义词
| 孢子 | Mushrooms reproduce through spores, which can be found in various environments. | 蘑菇通过孢子繁殖,这些孢子可以在各种环境中找到。 | |
| 子囊孢子 | 子囊孢子是在称为子囊的囊状结构中产生的。 |
例句
1.After being cultivated for about 6 days, two primary mycelia fused through terminal cells or other parts and developed into secondary mycelia with clamp connection and conidiospore.
培养约6天,两条初生菌丝通过顶端细胞或其他部位融合,发育成具有顶端分生孢子和锁状联合的次生菌丝体;
2.After being cultivated for about 6 days, two primary mycelia fused through terminal cells or other parts and developed into secondary mycelia with clamp connection and conidiospore.
培养约6天,两条初生菌丝通过顶端细胞或其他部位融合,发育成具有顶端分生孢子和锁状联合的次生菌丝体;
3.Two primary mycelia developed into secondary mycelia with clamp connection and conidiospore.
两个原发性菌丝体发展成为具有钳夹连接和分生孢子孢子的次生菌丝体。
4.In agricultural settings, the presence of conidiospores can indicate the onset of fungal diseases in crops.
在农业环境中,分生孢子的存在可能表明作物真菌病害的开始。
5.Researchers are studying how conidiospores disperse in the air to better understand fungal spread.
研究人员正在研究分生孢子如何在空气中传播,以更好地了解真菌的扩散。
6.The identification of conidiospores is crucial for mycologists studying fungal taxonomy.
识别分生孢子对研究真菌分类学的真菌学家至关重要。
7.The life cycle of many fungi begins with the release of a single conidiospore, which can germinate under suitable conditions.
许多真菌的生命周期开始于释放一个单一的分生孢子,在适宜的条件下可以发芽。
8.Certain species of molds produce vast quantities of conidiospores that can trigger allergic reactions in sensitive individuals.
某些霉菌种类会产生大量的分生孢子,可能会引发敏感个体的过敏反应。
作文
In the fascinating world of fungi, one of the most intriguing aspects is the reproductive process, particularly the formation of spores. Among these spores, the term conidiospore refers to a type of asexual spore that is produced by certain fungi. These spores play a crucial role in the life cycle of fungi, allowing them to reproduce and spread in various environments. Understanding conidiospores is essential for anyone interested in mycology, agriculture, or environmental science.To begin with, conidiospores are typically formed at the tips or sides of specialized hyphae called conidiophores. This structure is vital for the dispersal of the fungus, as it allows the spores to be released into the air or water, where they can travel long distances. When conditions are favorable, such as the right temperature and humidity, these spores can germinate, leading to the growth of new fungal colonies. This process of asexual reproduction is advantageous for fungi, as it enables rapid population increase without the need for a mating partner.The significance of conidiospores extends beyond their role in reproduction; they also contribute to the ecological balance. Fungi are decomposers, breaking down organic matter and recycling nutrients back into the ecosystem. By producing conidiospores, fungi can colonize new substrates, ensuring that decomposition processes continue effectively. For instance, certain fungi that produce conidiospores are essential for breaking down dead plant material, thereby enriching the soil and promoting plant growth.Moreover, conidiospores have practical applications in agriculture and medicine. In agriculture, some fungi that produce conidiospores are beneficial because they can act as biocontrol agents against pests and diseases. Farmers can use these fungi to protect their crops without relying on chemical pesticides, promoting sustainable farming practices. On the other hand, certain fungi that produce conidiospores can also be pathogenic, causing diseases in plants and animals, including humans. Understanding the biology of conidiospores helps researchers develop better strategies for managing both beneficial and harmful fungi.In addition to their ecological and agricultural importance, conidiospores are also of great interest in research. Scientists study these spores to understand fungal genetics, evolution, and adaptation. The ability of fungi to produce conidiospores in response to environmental changes showcases their resilience and adaptability. Research in this area can lead to discoveries that benefit various fields, including biotechnology and pharmaceuticals.In conclusion, the study of conidiospores offers valuable insights into the complex life cycles of fungi and their roles in ecosystems. Whether through their contributions to nutrient cycling, their applications in agriculture, or their significance in scientific research, conidiospores are an essential aspect of the fungal kingdom. As we continue to explore the diverse world of fungi, understanding conidiospores will undoubtedly enhance our appreciation of these remarkable organisms and their impact on our planet.
在真菌的迷人世界中,最引人入胜的方面之一是繁殖过程,特别是孢子的形成。在这些孢子中,术语conidiospore指的是某些真菌产生的一种无性孢子。这些孢子在真菌的生命周期中起着至关重要的作用,使它们能够在各种环境中繁殖和传播。理解conidiospores对于任何对真菌学、农业或环境科学感兴趣的人来说都是必不可少的。首先,conidiospores通常在称为分生孢子梗的特殊菌丝的顶端或侧面形成。这一结构对于真菌的传播至关重要,因为它允许孢子释放到空气或水中,在那里它们可以传播很远的距离。当条件合适时,例如适当的温度和湿度,这些孢子可以萌发,从而导致新的真菌群落的生长。这种无性繁殖的过程对真菌来说是有利的,因为它使得在没有配偶的情况下迅速增加种群成为可能。conidiospores的重要性不仅仅体现在它们在繁殖中的作用上;它们还对生态平衡做出了贡献。真菌是分解者,分解有机物质并将养分回收回生态系统。通过产生conidiospores,真菌可以在新的基质上定殖,确保分解过程的有效进行。例如,某些产生conidiospores的真菌对于分解死植物材料至关重要,从而丰富土壤并促进植物生长。此外,conidiospores在农业和医学中也具有实际应用。在农业中,某些产生conidiospores的真菌是有益的,因为它们可以作为害虫和疾病的生物防治剂。农民可以利用这些真菌来保护他们的作物,而不依赖化学农药,从而促进可持续农业实践。另一方面,某些产生conidiospores的真菌也可能是病原体,导致植物和动物(包括人类)疾病。了解conidiospores的生物学有助于研究人员制定更好的策略来管理有益和有害的真菌。除了生态和农业的重要性,conidiospores在研究中也受到极大的关注。科学家研究这些孢子以了解真菌的遗传学、进化和适应性。真菌能够根据环境变化产生conidiospores的能力展示了它们的韧性和适应能力。在这一领域的研究可以导致对各个领域的发现,包括生物技术和制药。总之,研究conidiospores为我们提供了对真菌复杂生命周期及其在生态系统中角色的宝贵见解。无论是通过它们对养分循环的贡献、在农业中的应用,还是在科学研究中的重要性,conidiospores都是真菌王国的一个重要方面。随着我们继续探索多样的真菌世界,理解conidiospores无疑将增强我们对这些卓越生物及其对我们星球影响的欣赏。
