membranaceous
简明释义
英[/ˌmɛm.brəˈneɪ.ʃəs/]美[/ˌmɛm.brəˈneɪ.ʃəs/]
adj. 膜的,薄膜的;膜状的
英英释义
与膜相关或类似的。 | |
具有薄、灵活且通常半透明的结构。 |
单词用法
同义词
| 膜状的 | The membranous structure of the cell allows for selective permeability. | 细胞的膜状结构允许选择性通透。 | |
| 薄的 | 这层薄组织保护着下面的器官。 | ||
| 薄膜状的 | A film-like coating can be seen on the surface of the water. | 水面上可以看到一种薄膜状的涂层。 |
反义词
| 固体的 | 建筑物的固体结构确保了其耐久性。 | ||
| 密集的 | 茂密的森林很难穿越。 |
例句
1.Conclusion Oral liquid preparation of astragalus membranaceous was therapeutically useful for chronic bronchial asthma in aged patients with correction of the serum SOD levels.
结论:黄芪精口服液对老年慢性支气管哮喘有较好的防治作用,有一定的临床实用价值。
2.Conclusion Oral liquid preparation of astragalus membranaceous was therapeutically useful for chronic bronchial asthma in aged patients with correction of the serum SOD levels.
结论:黄芪精口服液对老年慢性支气管哮喘有较好的防治作用,有一定的临床实用价值。
3.The membranaceous 膜质的 covering of the egg helps protect the developing embryo.
蛋的膜质的外壳有助于保护发育中的胚胎。
4.The membranaceous 膜质的 nature of the tissue makes it susceptible to damage from environmental factors.
该组织的膜质的特性使其容易受到环境因素的损害。
5.Some fungi produce membranaceous 膜质的 structures that aid in spore dispersal.
一些真菌产生膜质的结构,以帮助孢子的传播。
6.In histology, the membranaceous 膜质的 layer can be observed surrounding certain types of cells.
在组织学中,可以观察到某些类型细胞周围有膜质的层。
7.The plant has a membranaceous 膜质的 leaf structure that allows for efficient gas exchange.
这种植物具有膜质的叶子结构,能够有效地进行气体交换。
作文
In the fascinating world of biology, understanding the structure and function of various organisms is crucial. One term that often arises in discussions about cellular structures is membranaceous, which refers to the thin, membrane-like nature of certain tissues or structures. This characteristic can be found in various biological contexts, such as in plants, animals, and even microorganisms. The study of membranaceous structures helps scientists comprehend how these tissues operate and interact within larger systems.For instance, in the realm of botany, many plant leaves possess a membranaceous quality that allows them to efficiently carry out photosynthesis. The delicate yet durable membranes facilitate gas exchange, allowing carbon dioxide to enter and oxygen to exit the leaf. This membranaceous nature is essential for the plant's survival, as it aids in maintaining homeostasis and optimizing energy production.Similarly, in the animal kingdom, certain organs exhibit membranaceous characteristics. For example, the human lungs are lined with a membranaceous tissue known as the pleura. This thin membrane not only protects the lungs but also plays a vital role in the respiratory process by reducing friction during breathing. Understanding the membranaceous nature of the pleura can lead to better insights into respiratory diseases and their treatments.Moreover, microorganisms such as bacteria and fungi often have membranaceous cell walls that provide structural integrity while allowing for selective permeability. These membranes are crucial for nutrient absorption and waste excretion, showcasing the importance of membranaceous structures in sustaining life at the microscopic level.The significance of membranaceous structures extends beyond mere biological function; they also play a role in ecological interactions. For instance, the membranaceous layers of certain algae can serve as a habitat for various marine organisms, creating a complex ecosystem. Understanding these interactions can help researchers develop strategies for conservation and environmental management.In conclusion, the term membranaceous encapsulates a vital aspect of biological science that pertains to the thin, membrane-like structures found in various organisms. By studying these structures, we gain valuable insights into the functioning of ecosystems, the health of organisms, and the intricate balance of life on Earth. Whether in plants, animals, or microorganisms, membranaceous features are fundamental to understanding the complexities of life and the interdependence of different species. As we continue to explore the wonders of biology, the study of membranaceous structures will undoubtedly remain a key focus for researchers and students alike.
在生物学的迷人世界中,理解各种生物体的结构和功能至关重要。一个经常出现在关于细胞结构讨论中的术语是membranaceous,它指的是某些组织或结构的薄膜状特性。这种特征可以在植物、动物甚至微生物等各种生物学背景中找到。对membranaceous结构的研究帮助科学家理解这些组织如何在更大的系统中运作和相互作用。例如,在植物学领域,许多植物叶子具有membranaceous的特性,使它们能够有效地进行光合作用。精致而又耐用的膜促进了气体交换,使二氧化碳进入并使氧气离开叶子。这种membranaceous的特性对于植物的生存至关重要,因为它有助于维持稳态并优化能量产生。同样,在动物王国中,某些器官表现出membranaceous的特征。例如,人类的肺部被一种称为胸膜的membranaceous组织所包裹。这个薄膜不仅保护肺部,还通过减少呼吸时的摩擦在呼吸过程中发挥重要作用。理解胸膜的membranaceous特性可以让我们更好地了解呼吸系统疾病及其治疗。此外,像细菌和真菌等微生物通常具有membranaceous的细胞壁,这些细胞壁提供结构完整性,同时允许选择性渗透。这些膜对于营养物质的吸收和废物的排泄至关重要,展示了membranaceous结构在微观层面维持生命的重要性。membranaceous结构的重要性不仅仅体现在生物功能上,它们还在生态互动中发挥作用。例如,某些藻类的membranaceous层可以作为各种海洋生物的栖息地,创造出复杂的生态系统。理解这些互动可以帮助研究人员制定保护和环境管理的策略。总之,术语membranaceous概括了生物科学中一个重要方面,即在各种生物体中发现的薄膜状结构。通过研究这些结构,我们获得了对生态系统功能、生命健康以及地球生命复杂平衡的宝贵见解。无论是在植物、动物还是微生物中,membranaceous特征对于理解生命的复杂性和不同物种之间的相互依赖至关重要。随着我们继续探索生物学的奇迹,对membranaceous结构的研究无疑将继续成为研究人员和学生的重点。
