biotic formation

简明释义

生物群系

英英释义

例句

1.In marine biology, biotic formation refers to the complex structures created by coral reefs.

在海洋生物学中，生物形成指的是珊瑚礁所创造的复杂结构。

2.Understanding biotic formation is crucial for conservation efforts.

理解生物形成对保护工作至关重要。

3.The biotic formation of wetlands provides essential habitats for many species.

生物形成的湿地为许多物种提供了重要栖息地。

4.The study of biotic formation helps us understand how ecosystems develop over time.

对生物形成的研究帮助我们理解生态系统是如何随时间发展而来的。

5.Researchers are investigating the role of biotic formation in soil health and fertility.

研究人员正在调查生物形成在土壤健康和肥力中的作用。

作文

In the study of ecology, the term biotic formation refers to the complex assemblage of living organisms that interact with one another and their environment in a specific ecosystem. This concept is crucial for understanding how various species coexist, compete, and contribute to the overall functioning of their habitat. A biotic formation can be thought of as a community where different plants, animals, fungi, and microorganisms work together, forming a web of life that sustains itself over time.One of the most striking examples of biotic formation can be observed in a coral reef ecosystem. Coral reefs are not just beautiful underwater structures; they are vibrant communities teeming with life. The corals themselves are made up of tiny organisms called polyps, which form large colonies. These polyps provide shelter and habitat for numerous species of fish, invertebrates, and algae. In this biotic formation, each organism plays a vital role, from the coral providing structure to the algae performing photosynthesis, which in turn supports the entire community.Another example can be found in forest ecosystems, where trees, shrubs, and underbrush create a layered biotic formation. The tall trees provide shade and protection for smaller plants and animals, while the ground layer is rich with decomposing matter that nourishes the soil. In these ecosystems, the interactions between species—such as predation, competition, and symbiosis—are essential for maintaining ecological balance. For instance, certain fungi form mycorrhizal relationships with tree roots, enhancing nutrient uptake, while the trees offer carbohydrates in return. This mutualism exemplifies how interconnected and interdependent biotic formations can be.Understanding biotic formation is not only important for ecologists but also for conservationists. As human activities continue to impact natural habitats, it becomes increasingly critical to recognize the delicate balance within these communities. When one species is removed or introduced, it can have cascading effects throughout the entire biotic formation. For example, the introduction of an invasive species can disrupt local food webs, leading to declines in native populations and altering the habitat's structure.Moreover, the study of biotic formation helps us appreciate biodiversity and its significance. Biodiverse ecosystems are generally more resilient to changes and disturbances, such as climate change or pollution. They are capable of recovering more quickly and sustaining their functions over time. Thus, protecting and restoring biotic formations is essential for ensuring the health of our planet.In conclusion, the concept of biotic formation encompasses the intricate relationships among living organisms within an ecosystem. Whether in coral reefs or forests, these formations illustrate the importance of biodiversity and the need for conservation efforts. By understanding the dynamics of biotic formations, we can better appreciate the complexity of life on Earth and the necessity of preserving it for future generations.

在生态学研究中，术语生物形成指的是生活在特定生态系统中相互作用的生物体的复杂集合。这一概念对于理解各种物种如何共存、竞争以及对其栖息地的整体功能作出贡献至关重要。生物形成可以被视为一个社区，在这个社区中，不同的植物、动物、真菌和微生物共同工作，形成一个维持自身生命的生命网络。最引人注目的生物形成示例可以在珊瑚礁生态系统中观察到。珊瑚礁不仅是美丽的水下结构；它们是充满生命的繁荣社区。珊瑚本身由称为珊瑚虫的小型生物组成，这些生物形成大型群落。这些珊瑚虫为无数鱼类、无脊椎动物和藻类提供了栖息地和庇护所。在这个生物形成中，每个生物都扮演着至关重要的角色，从珊瑚提供结构到藻类进行光合作用，从而支持整个社区。另一个例子可以在森林生态系统中找到，其中树木、灌木和草本植物形成了分层的生物形成。高大的树木为较小的植物和动物提供阴影和保护，而地面层则富含腐烂的物质，滋养土壤。在这些生态系统中，物种之间的相互作用——例如捕食、竞争和共生——对维持生态平衡至关重要。例如，某些真菌与树根形成菌根关系，增强养分吸收，而树木则回馈碳水化合物。这种互惠关系体现了生物形成的相互联系和相互依赖性。理解生物形成不仅对生态学家重要，对保护主义者也至关重要。随着人类活动继续影响自然栖息地，认识到这些社区内的微妙平衡变得越来越重要。当一种物种被移除或引入时，可能会对整个生物形成产生连锁反应。例如，引入外来物种可能会破坏当地的食物网，导致本地种群数量下降，并改变栖息地的结构。此外，研究生物形成有助于我们欣赏生物多样性及其重要性。生物多样性丰富的生态系统通常对变化和干扰（如气候变化或污染）更具韧性。它们能够更快地恢复并保持其功能。因此，保护和恢复生物形成对于确保我们星球的健康至关重要。总之，生物形成的概念包含了生态系统内生物体之间复杂的关系。无论是在珊瑚礁还是森林中，这些形成都展示了生物多样性的重要性以及保护工作的必要性。通过理解生物形成的动态，我们可以更好地欣赏地球上生命的复杂性，以及保护它以造福未来世代的必要性。