frame body plan

简明释义

肋骨剖面图

英英释义

例句

1.The frame body plan serves as the foundation for all subsequent construction phases.

这个框架体计划作为所有后续施工阶段的基础。

2.During the workshop, participants were taught to draft a frame body plan for their projects.

在研讨会上，参与者被教授如何为他们的项目起草一个框架体计划。

3.In our engineering class, we learned how to create a frame body plan for a new vehicle prototype.

在我们的工程课上，我们学习了如何为新车辆原型创建框架体计划。

4.The architect presented a detailed design that included the frame body plan to optimize space usage.

建筑师展示了一个详细的设计，其中包括框架体计划以优化空间使用。

5.The team analyzed different materials to use in their frame body plan for maximum durability.

团队分析了不同的材料，以便在他们的框架体计划中实现最大的耐用性。

作文

The concept of a frame body plan is crucial in understanding the structural organization of various organisms. A frame body plan refers to the arrangement and relationship of skeletal elements that define the overall shape and support of an organism's body. This term is often used in biology, particularly in the study of animal anatomy and evolutionary biology. Organisms with a well-defined frame body plan tend to exhibit specific adaptations that allow them to thrive in their respective environments.For instance, consider the frame body plan of vertebrates, which includes a backbone or spinal column. This central structure provides support and protection for the nervous system while allowing flexibility and movement. The vertebrate frame body plan has evolved various adaptations, such as limbs for locomotion and rib cages for protecting vital organs. These adaptations demonstrate how the frame body plan can influence an organism's ability to survive and reproduce in its habitat.In contrast, invertebrates display a wide range of frame body plans. Some possess exoskeletons, which serve as a protective outer layer, while others have hydrostatic skeletons, relying on fluid pressure to maintain their shape. For example, jellyfish exhibit a gelatinous body structure without a rigid frame, showcasing a unique adaptation to their aquatic environment. Understanding these differences in frame body plans allows scientists to trace the evolutionary pathways that led to the diversity of life we see today.Moreover, the frame body plan is not solely limited to animals; it also extends to plants. The structural framework of a plant, including its stem, leaves, and roots, constitutes its own type of frame body plan. This framework supports the plant, enabling it to capture sunlight for photosynthesis, absorb water and nutrients from the soil, and withstand environmental stresses such as wind and drought. The design of a plant’s frame body plan is crucial for its growth and survival, allowing it to adapt to various ecological niches.In architecture and engineering, the concept of a frame body plan can also be applied metaphorically. Just as biological organisms have structural frameworks that dictate their form and function, buildings and structures are designed with specific frameworks that ensure stability and usability. Architects often consider the principles of a frame body plan when designing structures to ensure they can withstand forces such as gravity, wind, and seismic activity.In conclusion, the frame body plan is a fundamental concept that transcends multiple disciplines, from biology to architecture. By studying the various frame body plans found in nature, we gain insights into the evolutionary processes that shape life on Earth. Additionally, applying these principles to human-made structures can lead to more resilient and efficient designs. Understanding the significance of a frame body plan enriches our knowledge of both the natural world and the built environment, highlighting the interconnectedness of all forms of design and structure.

“框架体型”这一概念对于理解各种生物的结构组织至关重要。“框架体型”指的是定义生物体整体形状和支撑的骨骼元素的排列和关系。这个术语通常用于生物学，尤其是在动物解剖学和进化生物学的研究中。具有明确定义的“框架体型”的生物往往表现出特定的适应性，使它们能够在各自的环境中茁壮成长。例如，考虑脊椎动物的“框架体型”，它包括一个脊柱或脊椎。这一中央结构为神经系统提供支撑和保护，同时允许灵活性和运动。脊椎动物的“框架体型”已经进化出多种适应性，例如用于运动的肢体和保护重要器官的肋骨。这些适应性展示了“框架体型”如何影响生物体在其栖息地中的生存和繁殖能力。相比之下，无脊椎动物显示出广泛的“框架体型”。一些生物拥有外骨骼，作为一种保护外层，而其他生物则依靠液体压力维持形状。例如，水母展现了一种无刚性框架的胶状身体结构，展示了对其水生环境的独特适应。理解这些“框架体型”之间的差异使科学家能够追溯导致我们今天所看到的生物多样性的进化路径。此外，“框架体型”不仅限于动物，它也延伸到植物。植物的结构框架，包括其茎、叶和根，构成了其自身类型的“框架体型”。这一框架支撑着植物，使其能够捕捉阳光进行光合作用，从土壤中吸收水分和养分，并抵御风和干旱等环境压力。植物的“框架体型”的设计对其生长和生存至关重要，使其能够适应各种生态位。在建筑和工程领域，“框架体型”的概念也可以比喻性地应用。正如生物有结构框架决定其形态和功能一样，建筑和结构的设计也有特定的框架，以确保稳定性和可用性。建筑师在设计结构时常常考虑“框架体型”的原理，以确保它们能够承受重力、风和地震等力量。总之，“框架体型”是一个基本概念，跨越多个学科，从生物学到建筑学。通过研究自然界中存在的各种“框架体型”，我们获得了关于塑造地球上生命的进化过程的见解。此外，将这些原理应用于人造结构可以导致更具韧性和效率的设计。理解“框架体型”的重要性丰富了我们对自然界和建筑环境的知识，突显了所有设计和结构形式之间的相互联系。