cryptogamic
简明释义
英[/ˌkrɪp.təˈɡæm.ɪk/]美[/ˌkrɪp.təˈɡæm.ɪk/]
adj. 隐花植物的
英英释义
Relating to or denoting organisms that reproduce by spores, such as fungi, algae, and mosses. | 与通过孢子繁殖的生物有关或表示,例如真菌、藻类和苔藓。 |
单词用法
同义词
| 隐花植物的 | 隐花植物包括蕨类和苔藓。 | ||
| 非开花的 | 非开花物种通过孢子繁殖。 | ||
| 产生孢子的 | Spore-producing organisms play a crucial role in ecosystems. | 产生孢子的生物在生态系统中起着至关重要的作用。 |
反义词
| 显花植物的 | 显花植物会产生种子和花朵。 | ||
| 维管的 | Vascular plants have specialized structures for transporting water and nutrients. | 维管植物具有专门的结构来运输水分和养分。 |
例句
1.Cryptogamic flora of the Yangtze Delta and adjacent regions.
长江三角洲及邻近地区孢子植物志。
2.This is the page of Department of Cryptogamic Botany, it is a part of Swedish Museum of Natural History.
这是隐花植物学部网页,它是瑞典自然历史博物馆的组成部分。
3.This is the page of Department of Cryptogamic Botany, it is a part of Swedish Museum of Natural History.
这是隐花植物学部网页,它是瑞典自然历史博物馆的组成部分。
4.The study of cryptogamic 隐生植物的 organisms is essential for understanding ecosystem dynamics.
研究cryptogamic 隐生植物的 生物对理解生态系统动态至关重要。
5.Researchers are investigating the role of cryptogamic 隐生植物的 communities in carbon cycling.
研究人员正在调查cryptogamic 隐生植物的 社区在碳循环中的作用。
6.The cryptogamic 隐生植物的 layer in the forest helps retain moisture.
森林中的cryptogamic 隐生植物的 层有助于保持湿度。
7.In this region, various cryptogamic 隐生植物的 species contribute to soil formation.
在这个地区,各种cryptogamic 隐生植物的 物种有助于土壤形成。
8.Some artists draw inspiration from cryptogamic 隐生植物的 textures and patterns.
一些艺术家从cryptogamic 隐生植物的 纹理和图案中获得灵感。
作文
The world of biology is filled with fascinating terms that describe the diverse forms of life we encounter. One such term is cryptogamic, which refers to organisms that reproduce by spores rather than seeds. This category primarily includes plants like ferns, mosses, and fungi. Understanding cryptogamic organisms is crucial for several reasons, especially in the fields of ecology and environmental science.Firstly, cryptogamic organisms play a significant role in ecosystems. They contribute to soil formation and stabilization, which are essential for preventing erosion. The presence of mosses and lichens, for instance, can help retain moisture in the soil, creating a more hospitable environment for other plant species. In this way, cryptogamic life forms act as pioneers in barren landscapes, gradually paving the way for more complex ecosystems.Moreover, cryptogamic organisms are vital for nutrient cycling. Fungi, in particular, have a symbiotic relationship with many plants through mycorrhizae, which enhances nutrient uptake for the plants while providing carbohydrates for the fungi. This mutualism is essential for the health of forests and grasslands, demonstrating how interconnected our ecosystems are.In addition to their ecological importance, cryptogamic organisms also have practical applications in various industries. For example, certain fungi are used in the production of antibiotics, such as penicillin, which has saved countless lives since its discovery. Furthermore, some cryptogamic species are utilized in biotechnology for their unique properties, such as their ability to break down organic matter or produce biofuels.Despite their significance, cryptogamic organisms often go unnoticed in our daily lives. Many people may not realize that the lush green carpet of moss they walk on or the mushrooms they see in the forest are part of this fascinating group. Education and awareness about cryptogamic life forms can foster a greater appreciation for biodiversity and the intricate web of life that sustains us.However, cryptogamic organisms face numerous threats from climate change, habitat destruction, and pollution. As temperatures rise and habitats are altered, many species struggle to adapt. The loss of cryptogamic diversity can have cascading effects on ecosystems, highlighting the need for conservation efforts.In conclusion, understanding cryptogamic organisms is essential for appreciating the complexity of our natural world. Their ecological roles, practical applications, and the challenges they face underscore the importance of protecting these often-overlooked life forms. By increasing our knowledge and awareness of cryptogamic organisms, we can take steps toward preserving the delicate balance of our ecosystems and ensuring a sustainable future for all living beings.
生物学的世界充满了描述我们所遇到的多样生命形式的迷人术语。其中一个术语是cryptogamic,指的是通过孢子而非种子繁殖的生物。这个类别主要包括蕨类植物、苔藓和真菌。理解cryptogamic生物对于生态学和环境科学等多个领域至关重要。首先,cryptogamic生物在生态系统中发挥着重要作用。它们有助于土壤形成和稳定,这对防止侵蚀至关重要。例如,苔藓和地衣的存在可以帮助保持土壤中的水分,为其他植物物种创造更宜居的环境。通过这种方式,cryptogamic生命形式在荒芜的景观中充当先锋,逐渐为更复杂的生态系统铺平道路。此外,cryptogamic生物对营养循环至关重要。真菌尤其与许多植物通过菌根形成共生关系,这增强了植物对营养物质的吸收,同时为真菌提供碳水化合物。这种互利关系对森林和草原的健康至关重要,展示了我们的生态系统是多么相互关联。除了生态重要性外,cryptogamic生物在各个行业也具有实际应用。例如,某些真菌用于抗生素的生产,如青霉素,自其发现以来拯救了无数生命。此外,一些cryptogamic物种因其独特的特性而在生物技术中得到利用,例如它们分解有机物或产生生物燃料的能力。尽管它们的重要性,cryptogamic生物常常在我们的日常生活中被忽视。许多人可能没有意识到,他们走过的郁郁葱葱的苔藓地毯或在森林中看到的蘑菇都是这个迷人群体的一部分。关于cryptogamic生命形式的教育和意识可以培养对生物多样性的更大欣赏,以及维持我们生存的复杂生命网络。然而,cryptogamic生物面临着气候变化、栖息地破坏和污染等众多威胁。随着气温上升和栖息地改变,许多物种难以适应。cryptogamic多样性的丧失可能对生态系统产生连锁反应,突显出保护努力的必要性。总之,理解cryptogamic生物对于欣赏我们自然世界的复杂性至关重要。它们的生态角色、实际应用以及面临的挑战强调了保护这些常被忽视的生命形式的重要性。通过增加我们对cryptogamic生物的知识和意识,我们可以采取措施保护生态系统的微妙平衡,并确保所有生物的可持续未来。
