brachiophore base

简明释义

腕基基础;

英英释义

The brachiophore base refers to the structural foundation or support system of a brachiophore, which is a specialized anatomical feature found in certain organisms, particularly in some brachiopods, that supports the lophophore, a feeding structure.

brachiophore base指的是brachiophore的结构基础或支撑系统,brachiophore是一种在某些生物中,特别是一些腕足动物中发现的特化解剖特征,用于支撑喙环(lophophore),即一种进食结构。

例句

1.The study of the marine species revealed that the structure of the brachiophore base (肢基) is crucial for their feeding mechanisms.

对这种海洋物种的研究表明,brachiophore base (肢基) 的结构对于它们的进食机制至关重要。

2.In paleontology, understanding the brachiophore base (肢基) helps scientists classify ancient organisms.

在古生物学中,理解 brachiophore base (肢基) 有助于科学家对古代生物进行分类。

3.The brachiophore base (肢基) connects the arms of the brachiopod to its shell, providing stability.

brachiophore base (肢基) 将腕足动物的腕与其壳连接起来,提供了稳定性。

4.In a laboratory setting, we examined the morphology of the brachiophore base (肢基) under a microscope.

在实验室环境中,我们在显微镜下检查了 brachiophore base (肢基) 的形态。

5.Researchers noted that variations in the brachiophore base (肢基) can indicate environmental adaptations.

研究人员指出,brachiophore base (肢基) 的变化可能表明环境适应。

作文

The study of marine biology often reveals intricate relationships between various organisms and their environments. Among these fascinating structures is the concept of the brachiophore base, which plays a critical role in the anatomy of certain marine creatures, particularly brachiopods. Brachiopods are marine animals with hard shells on the upper and lower surfaces, resembling clams but belonging to a different phylum. The brachiophore base is a crucial part of their anatomy, as it supports the lophophore, a feeding structure that helps these organisms filter food from the water. Understanding the brachiophore base is essential for grasping how brachiopods function in their ecosystems. The lophophore, which is encircled by the brachiophore base, consists of tentacle-like structures that capture plankton and other small particles. This feeding mechanism allows brachiopods to thrive in various marine environments, from shallow coastal waters to deep-sea habitats. The presence of a well-developed brachiophore base indicates a healthy and functional lophophore, which is vital for the survival of these organisms.Moreover, the brachiophore base contributes to the structural integrity of the brachiopod shell. It provides attachment points for muscles that enable the animal to open and close its shell effectively. This capability is crucial for protecting the soft body inside and for feeding, as the brachiopod must be able to expose its lophophore while simultaneously guarding against predators. The evolutionary adaptations seen in the brachiophore base showcase how these organisms have developed mechanisms to survive and thrive in their environments.In addition to their biological significance, brachiopods and their brachiophore bases hold paleontological importance. Fossils of brachiopods are abundant in sedimentary rock layers, providing valuable insights into the history of marine life on Earth. The characteristics of the brachiophore base can help scientists understand the evolutionary pathways of these organisms and their responses to changing environmental conditions over millions of years. By studying the morphology of the brachiophore base in fossilized specimens, researchers can infer the ecological roles these creatures played in ancient marine ecosystems.In conclusion, the brachiophore base is a vital anatomical feature of brachiopods that serves multiple functions, from supporting the lophophore to contributing to the overall structural integrity of the shell. Its significance extends beyond individual organisms, offering insights into the evolutionary history and ecological dynamics of marine life. As we continue to explore and understand the complexities of marine biology, the brachiophore base stands out as a remarkable example of nature's ingenuity and adaptability. Through ongoing research, we can further appreciate the intricate connections between anatomy, ecology, and evolution in the marine environment.

海洋生物学的研究常常揭示出各种生物与其环境之间复杂的关系。在这些迷人的结构中,肢支基底的概念扮演着重要角色,尤其是在某些海洋生物中,特别是腕足动物。腕足动物是具有上下硬壳的海洋生物,外观类似于蛤蜊,但属于不同的门类。肢支基底是它们解剖结构中的关键部分,因为它支持着滤食结构——冠状器,帮助这些生物从水中过滤食物。理解肢支基底对于掌握腕足动物在生态系统中的功能至关重要。冠状器被肢支基底环绕,由触手状结构组成,捕捉浮游生物和其他小颗粒。这种喂食机制使腕足动物能够在各种海洋环境中繁衍生息,从浅海沿岸水域到深海栖息地。发达的肢支基底的存在表明健康且功能正常的冠状器,这对这些生物的生存至关重要。此外,肢支基底有助于腕足动物壳体的结构完整性。它为肌肉提供附着点,使动物能够有效地打开和关闭其壳体。这一能力对于保护内部柔软的身体以及喂食至关重要,因为腕足动物必须能够在保护自己免受捕食者攻击的同时暴露其冠状器。肢支基底的进化适应展示了这些生物如何发展出生存和繁衍的机制。除了生物学意义外,腕足动物及其肢支基底在古生物学上也具有重要性。腕足动物的化石在沉积岩层中非常丰富,为我们提供了关于地球上海洋生命历史的宝贵见解。肢支基底的特征可以帮助科学家理解这些生物的进化路径及其对数百万年来环境变化的反应。通过研究化石标本中肢支基底的形态,研究人员可以推断这些生物在古代海洋生态系统中所扮演的生态角色。总之,肢支基底是腕足动物的重要解剖特征,具有多重功能,从支持冠状器到增强壳体的整体结构完整性。它的意义超越了个体生物,为我们提供了关于海洋生命进化历史和生态动态的见解。随着我们继续探索和理解海洋生物学的复杂性,肢支基底作为自然智慧和适应性的杰出例子而脱颖而出。通过不断的研究,我们可以进一步欣赏海洋环境中解剖学、生态学和进化之间的复杂联系。