aeciospore
简明释义
n. 锈孢子(等于 aecidiospore)
英英释义
单词用法
aeciospore的形成 | |
aeciospore的发芽 | |
产生aeciospore的真菌 | |
涉及aeciospore的生命周期 |
同义词
小孢子 | The aeciospore is a type of spore produced by certain fungi. | 小孢子是某些真菌产生的一种孢子。 | |
孢子 | In the life cycle of rust fungi, aeciospores play a crucial role in infection. | 在锈菌的生命周期中,小孢子在感染中起着至关重要的作用。 |
反义词
担孢子 | Basidiospores are produced by fungi in the Basidiomycota division. | 担孢子是由担子菌门的真菌产生的。 | |
子囊孢子 | Ascospores are formed within a sac-like structure called an ascus. | 子囊孢子是在一种称为子囊的囊状结构内形成的。 |
例句
1.With further development, the intercalary cell was disintegrated from the mature aeciospore and numerous warts appeared on the aeciospore surface.
随进一步发育,分隔细胞与锈孢子脱离,锈孢子表面出现大量的瘤状结构。
2.With further development, the intercalary cell was disintegrated from the mature aeciospore and numerous warts appeared on the aeciospore surface.
随进一步发育,分隔细胞与锈孢子脱离,锈孢子表面出现大量的瘤状结构。
3.The life cycle of the fungus involves the production of aeciospore, which is crucial for its reproduction.
这种真菌的生命周期涉及产生aeciospore,这是其繁殖的重要环节。
4.Researchers are studying how aeciospore formation affects the spread of plant diseases.
研究人员正在研究aeciospore形成如何影响植物疾病的传播。
5.In agricultural practices, controlling aeciospore release can help manage crop infections.
在农业实践中,控制aeciospore的释放可以帮助管理作物感染。
6.Certain environmental conditions can enhance the production of aeciospore in fungi.
某些环境条件可以增强真菌中aeciospore的产生。
7.The aeciospore stage is often overlooked in fungal research, yet it plays a vital role.
在真菌研究中,aeciospore阶段常常被忽视,但它起着至关重要的作用。
作文
The world of fungi is incredibly diverse and complex, with various reproductive structures that play crucial roles in their life cycles. One such structure is the aeciospore, which is a type of spore produced by certain fungi, particularly those belonging to the class of rust fungi. Understanding the role of aeciospore in fungal reproduction can provide insights into the ecological dynamics of these organisms and their interactions with plants. Aeciospore is typically formed in a specialized fruiting body called an aecium, which is often found on the host plant. This structure allows the fungus to produce multiple spores that can be dispersed into the environment, facilitating the spread of the fungus to new host plants. The life cycle of rust fungi is particularly fascinating because it involves multiple hosts and different types of spores, including aeciospore, which is crucial for the sexual reproduction phase. When conditions are favorable, the aeciospore germinates and gives rise to another spore type, leading to the next stage of the fungal life cycle. This process not only ensures the continuation of the species but also contributes to the genetic diversity of the fungi. The ecological impact of aeciospore production is significant, as rust fungi can cause serious diseases in crops, leading to substantial agricultural losses. Farmers and scientists must understand how aeciospore and its associated fungi interact with plants to develop effective management strategies. By studying the lifecycle and behavior of aeciospore, researchers can identify the best times for intervention, whether through chemical treatments or biological controls, to minimize the impact of these pathogens. Furthermore, the study of aeciospore extends beyond agriculture; it also has implications for biodiversity and ecosystem health. Rust fungi play a role in nutrient cycling and can influence plant community structures. Therefore, understanding aeciospore and its function within the broader context of fungal biology is essential for conservation efforts. In conclusion, the aeciospore is more than just a reproductive unit of rust fungi; it is a key player in the intricate web of life that connects fungi, plants, and the environment. By delving deeper into the biology of aeciospore, we can better appreciate the complexities of ecosystems and the importance of maintaining their health and balance.
真菌的世界是极其多样和复杂的,具有多种生殖结构,在它们的生命周期中发挥着至关重要的作用。其中一种结构是aeciospore,这是某些真菌(特别是属于锈菌类的真菌)产生的一种孢子。理解aeciospore在真菌繁殖中的作用可以为我们提供关于这些生物及其与植物相互作用的生态动态的见解。Aeciospore通常是在一种叫做aecium的特殊果实体中形成的,这种结构通常位于寄主植物上。这使得真菌能够产生多种孢子,这些孢子可以传播到环境中,从而促进真菌向新寄主植物的传播。锈菌的生命周期特别迷人,因为它涉及多个宿主和不同类型的孢子,包括aeciospore,后者对有性繁殖阶段至关重要。当条件适宜时,aeciospore会发芽并产生另一种孢子类型,从而导致真菌生命周期的下一个阶段。这一过程不仅确保了物种的延续,还促进了真菌的遗传多样性。Aeciospore产生的生态影响是显著的,因为锈菌可能会对农作物造成严重疾病,导致重大的农业损失。农民和科学家必须了解aeciospore及其相关真菌如何与植物相互作用,以制定有效的管理策略。通过研究aeciospore的生命周期和行为,研究人员可以确定最佳干预时间,无论是通过化学处理还是生物控制,以最小化这些病原体的影响。此外,aeciospore的研究超越了农业;它还对生物多样性和生态系统健康具有重要意义。锈菌在营养循环中发挥作用,并可能影响植物群落结构。因此,理解aeciospore及其在真菌生物学更广泛背景中的功能对于保护工作至关重要。总之,aeciospore不仅仅是锈菌的生殖单位;它是在连接真菌、植物和环境的复杂生命网络中的关键角色。通过深入研究aeciospore的生物学,我们可以更好地欣赏生态系统的复杂性以及维持其健康和平衡的重要性。