polypous
简明释义
adj. 息肉的;水螅似的
英英释义
Having or resembling polyps; characterized by the presence of polyps. | 具有或类似于息肉;以存在息肉为特征。 |
单词用法
多息肉生物 | |
多息肉结构 | |
多息肉物种 | |
多息肉生长 |
同义词
| 息肉状的 | 对这个息肉状的生长进行了恶性检查。 | ||
| 肿瘤的 | 在组织样本中观察到了新生物变化。 | ||
| 新生物的 | The doctor noted several tumorous lesions during the examination. | 医生在检查中注意到了几个肿瘤样病变。 |
反义词
| 简单的 | The structure of the organism is simple, lacking any complex features. | 这个生物的结构很简单,缺乏任何复杂的特征。 | |
| 单一的 | 他更喜欢一种单一的方法,而不是多样的方法。 |
例句
1.The reconstruction of low dose MSCT could offer sufficient information for diagnosis and satisfy the diagnose requirement of colon polypous.
提示低剂量多层螺旋CT肠道重建图像可提供足够的诊断信息,可满足仅单纯查看结肠息肉的诊断需要。
2.Does gallbladder need carry momentum after polypous art?
胆囊息肉术后需要运动量吗?
3.Cut polypous second half month, see there is a thing inside nasal cavity, can you be polypous recrudesce?
割完鼻息肉后半个月,看见鼻腔内有东西,会不会是鼻息肉复发呢?
4.The reconstruction of low dose MSCT could offer sufficient information for diagnosis and satisfy the diagnose requirement of colon polypous.
提示低剂量多层螺旋CT肠道重建图像可提供足够的诊断信息,可满足仅单纯查看结肠息肉的诊断需要。
5.MAIN OUTCOME MEASURES: The expression of VEGF and its receptors in polypous tissue and in normal nasal mucosa tissues.
主要观察指标:鼻息肉组织和正常鼻黏膜组织血管内皮生长因子及其受体的表达。
6.Researchers noted that the polypous structures can vary greatly among different species.
研究人员指出,不同物种之间的多聚体结构可以有很大差异。
7.The marine biologist discovered a new species of coral that was remarkably polypous.
这位海洋生物学家发现了一种显著的多聚体新珊瑚物种。
8.In the study of cnidarians, understanding their polypous stage is crucial.
在对刺细胞动物的研究中,理解它们的多聚体阶段是至关重要的。
9.The aquarium exhibit featured several polypous organisms to educate visitors.
水族馆的展览展示了几种多聚体生物,以教育访客。
10.The polypous form of jellyfish is often overlooked in marine ecosystems.
水母的多聚体形态在海洋生态系统中常常被忽视。
作文
In the vast realm of biology, one often encounters a variety of organisms that exhibit unique characteristics. Among these, the term polypous refers to organisms that possess multiple polyp forms. This characteristic is particularly observed in certain groups of animals such as cnidarians, which include jellyfish, corals, and sea anemones. The study of polypous organisms not only enhances our understanding of biodiversity but also sheds light on the evolutionary adaptations that have allowed these creatures to thrive in diverse marine environments.Cnidarians are fascinating because they can exist in two main life stages: the polyp and the medusa. The polyp stage is typically sessile, meaning it attaches to a substrate, while the medusa stage is free-swimming. The polypous form plays a crucial role in the life cycle of these organisms, serving as a means of asexual reproduction through budding. This allows for rapid population growth in favorable conditions, which is vital for their survival in fluctuating marine ecosystems.Moreover, the presence of polypous structures contributes to the complexity of coral reefs. Corals, which are polypous organisms, build massive calcium carbonate structures that provide habitat for countless marine species. The intricate relationships between corals and other marine life highlight the importance of polypous organisms in maintaining ecological balance. Without them, many species would struggle to find shelter and food, leading to a decline in biodiversity.The adaptability of polypous organisms is also evident in their ability to withstand various environmental stresses. For instance, some species of corals can tolerate higher temperatures and increased levels of acidity in ocean waters, making them resilient to climate change. Understanding these adaptations can help scientists develop conservation strategies aimed at protecting these vital ecosystems from human-induced threats.In addition to their ecological significance, polypous organisms have also been subjects of scientific research due to their regenerative capabilities. Some cnidarians can regenerate lost body parts, a phenomenon that has intrigued biologists for years. Studying the mechanisms behind this regeneration could potentially lead to advancements in medical science, particularly in regenerative medicine.In conclusion, the term polypous encapsulates a fascinating aspect of marine biology that highlights the diversity and adaptability of life forms in our oceans. From their role in coral reef ecosystems to their potential contributions to scientific research, polypous organisms are essential to both ecological balance and human understanding of biological processes. As we continue to explore and learn about these remarkable creatures, it becomes increasingly clear that preserving their habitats is crucial for the health of our planet. The study of polypous organisms serves as a reminder of the intricate connections that exist within our ecosystems and the importance of safeguarding our natural world.
在生物学的广阔领域中,人们常常会遇到各种具有独特特征的生物。其中,术语polypous指的是具有多种水螅形态的生物。这一特征特别出现在某些动物群体中,例如刺细胞动物,包括水母、珊瑚和海葵。对polypous生物的研究不仅增强了我们对生物多样性的理解,还揭示了这些生物能够在多样海洋环境中繁衍生息的进化适应性。刺细胞动物之所以迷人,是因为它们可以存在两种主要的生活阶段:水螅和水母。水螅阶段通常是固定的,意味着它附着在基底上,而水母阶段则是自由游动的。polypous形态在这些生物的生命周期中发挥着至关重要的作用,通过出芽进行无性繁殖。这使得在有利条件下迅速增长人口成为可能,这对它们在波动的海洋生态系统中的生存至关重要。此外,polypous结构的存在也使珊瑚礁变得复杂。珊瑚作为polypous生物,建造出巨大的碳酸钙结构,为无数海洋物种提供栖息地。珊瑚与其他海洋生物之间的复杂关系突显了polypous生物在维持生态平衡中的重要性。如果没有它们,许多物种将难以找到庇护和食物,从而导致生物多样性的下降。polypous生物的适应能力在它们能够抵御各种环境压力中也表现得淋漓尽致。例如,一些珊瑚物种能够耐受更高的温度和更高的海洋酸度,使它们对气候变化具有韧性。理解这些适应性可以帮助科学家制定保护策略,旨在保护这些重要生态系统免受人为威胁。除了生态重要性外,polypous生物还因其再生能力而成为科学研究的对象。一些刺细胞动物能够再生失去的身体部分,这一现象多年来一直吸引着生物学家的兴趣。研究这种再生机制可能会带来医学科学的进步,特别是在再生医学领域。总之,术语polypous概括了海洋生物学的一个迷人方面,突显了我们海洋中生命形式的多样性和适应性。从它们在珊瑚礁生态系统中的作用到它们对科学研究的潜在贡献,polypous生物对生态平衡和人类对生物过程的理解都是至关重要的。随着我们继续探索和了解这些卓越的生物,越来越清楚的是,保护它们的栖息地对我们星球的健康至关重要。对polypous生物的研究提醒我们,生态系统中存在着错综复杂的联系,以及保护自然世界的重要性。
