acanthine septa

简明释义

刺隔壁;

英英释义

例句

1.The anatomy textbook described acanthine septa (棘状隔膜) as essential for the respiratory function in certain species.

解剖学教科书将acanthine septa（棘状隔膜）描述为某些物种呼吸功能的重要组成部分。

2.In the study of coral reefs, researchers identified acanthine septa (棘状隔膜) as a crucial feature for structural integrity.

在珊瑚礁的研究中，研究人员确定acanthine septa（棘状隔膜）是保持结构完整性的关键特征。

3.The biologist observed the structure of the fish's gills, noting the presence of acanthine septa (棘状隔膜) that help in filtration.

生物学家观察了鱼鳃的结构，注意到存在acanthine septa（棘状隔膜），有助于过滤。

4.Marine biologists often study acanthine septa (棘状隔膜) to understand the evolutionary adaptations of aquatic species.

海洋生物学家经常研究acanthine septa（棘状隔膜），以了解水生物种的进化适应。

5.The presence of acanthine septa (棘状隔膜) in certain mollusks can indicate their adaptation to specific environments.

某些软体动物中存在的acanthine septa（棘状隔膜）可以表明它们对特定环境的适应。

作文

In the realm of biology, particularly in the study of various organisms, the term acanthine septa plays a significant role in understanding structural features. The word 'acanthine' is derived from the Greek word 'akantha,' meaning thorn or spine, which aptly describes the spiny nature of certain structures found in various species. Meanwhile, 'septa' refers to the plural form of 'septum,' indicating a partition or dividing wall within a biological context. Together, acanthine septa can be understood as the spiny partitions that may exist within certain organisms, particularly in their anatomical or cellular structures.The presence of acanthine septa can be observed in various marine life forms, especially among certain types of corals and sponges. These organisms often exhibit complex internal structures that serve multiple purposes, including support, protection, and facilitation of nutrient flow. The spiny nature of these septa provides not only structural integrity but also plays a crucial role in the organism's ability to thrive in its environment. For instance, in corals, the acanthine septa contribute to the overall architecture of the coral skeleton, allowing for greater surface area for photosynthetic algae to inhabit. This symbiotic relationship between coral and algae is essential for the energy needs of the coral, illustrating how the presence of acanthine septa is vital for survival.Moreover, the study of acanthine septa extends beyond mere structural analysis; it also encompasses ecological implications. The arrangement and density of these spiny partitions can affect how organisms interact with their environment, including factors such as water flow, sedimentation, and competition for resources. In ecosystems like coral reefs, where biodiversity is paramount, the variations in acanthine septa among different coral species can influence community dynamics and resilience against environmental stressors.Furthermore, understanding acanthine septa is crucial for conservation efforts. As climate change and other anthropogenic factors threaten marine ecosystems, recognizing the importance of these structures can aid in developing strategies to protect vulnerable species. Research into how acanthine septa function and adapt to changing conditions can provide insights into the resilience of coral reefs and other marine habitats, guiding restoration initiatives and informing policy decisions.In conclusion, the term acanthine septa encompasses more than just a biological concept; it represents a critical intersection of structure, function, and ecology within the natural world. By exploring the significance of these spiny partitions, we gain a deeper appreciation for the complexities of life forms and their interactions with the environment. As research continues to unveil the intricacies of marine organisms, the study of acanthine septa will undoubtedly remain a pivotal aspect of biological inquiry, highlighting the need for ongoing exploration and conservation of our planet's rich biodiversity.

在生物学领域，特别是在研究各种生物体时，术语acanthine septa在理解结构特征方面发挥着重要作用。'acanthine'这个词源于希腊语'akantha'，意为刺或棘，这恰好描述了某些物种中发现的尖刺特性。同时，'septa'是'septum'的复数形式，表示生物学上下文中的隔膜或分隔墙。结合在一起，acanthine septa可以理解为某些生物体内可能存在的带刺隔膜，特别是在它们的解剖或细胞结构中。acanthine septa的存在可以在各种海洋生物中观察到，尤其是在某些类型的珊瑚和海绵中。这些生物通常表现出复杂的内部结构，具有多种用途，包括支撑、保护和促进营养流动。这些隔膜的刺状特性不仅提供了结构完整性，还在生物体能够在其环境中生存方面发挥着至关重要的作用。例如，在珊瑚中，acanthine septa有助于珊瑚骨骼的整体结构，使光合作用藻类能够更大面积地栖息。这种珊瑚与藻类之间的共生关系对珊瑚的能量需求至关重要，说明了acanthine septa的存在对生存的重要性。此外，acanthine septa的研究不仅限于简单的结构分析；它还涉及生态学的影响。这些带刺隔膜的排列和密度会影响生物体如何与其环境相互作用，包括水流、沉积和资源竞争等因素。在如珊瑚礁等生态系统中，生物多样性至关重要，不同珊瑚物种之间的acanthine septa变异可能会影响群落动态和抵御环境压力的能力。此外，了解acanthine septa对于保护工作至关重要。随着气候变化和其他人为因素威胁海洋生态系统，认识到这些结构的重要性可以帮助制定保护易受威胁物种的策略。研究acanthine septa如何在变化条件下发挥作用和适应，可以为理解珊瑚礁和其他海洋栖息地的弹性提供见解，从而指导恢复计划和政策决策。总之，术语acanthine septa不仅仅是一个生物学概念；它代表了自然界中结构、功能和生态之间的关键交集。通过探索这些带刺隔膜的重要性，我们可以更深刻地理解生命形式的复杂性及其与环境的相互作用。随着研究不断揭示海洋生物的复杂性，对acanthine septa的研究无疑将继续成为生物学探究的关键方面，突显出我们对地球丰富生物多样性的持续探索和保护的必要性。