heteromorphy

简明释义

英[/ˌhɛt.ə.roʊˈmɔr.fi/]美[/ˌhɛt.ə.roʊˈmɔr.fi/]

异态现象

英英释义

单词用法

同义词

反义词

例句

1.The microstructure deformation in the aging process of the alloy has been stated, and the heteromorphy has been found the cause of the natural aging process of the 2011 alloy.

分析了工艺参数对合金力学性能的影响，阐述了合金时效过程中的微观组织变化，找出了2011合金自然时效进程缓慢的原因是异质形核。

2.The microstructure deformation in the aging process of the alloy has been stated, and the heteromorphy has been found the cause of the natural aging process of the 2011 alloy.

分析了工艺参数对合金力学性能的影响，阐述了合金时效过程中的微观组织变化，找出了2011合金自然时效进程缓慢的原因是异质形核。

3.Three basic processes are heterochrony, heterotopy, and heteromorphy.

三个基本的过程是异时性、异托位和异态。

4.The study of heteromorphy reveals how certain species adapt their physical forms to different environmental conditions.

对异形性的研究揭示了某些物种如何将其形态适应不同的环境条件。

5.In botany, heteromorphy can be observed in plants that have different leaf shapes depending on their growth stage.

在植物学中，异形性可以在植物的不同生长阶段观察到它们具有不同的叶形。

6.The concept of heteromorphy is important in understanding evolutionary biology and the diversity of life forms.

理解进化生物学和生命形式的多样性时，异形性的概念非常重要。

7.Researchers are investigating the role of heteromorphy in the development of certain diseases.

研究人员正在调查异形性在某些疾病发展中的作用。

8.The phenomenon of heteromorphy is often seen in animals that undergo metamorphosis.

在经历变态的动物中，通常会看到异形性现象。

作文

In the study of biology and evolution, the term heteromorphy refers to the occurrence of different forms or structures within the same organism or among organisms of the same species. This phenomenon can be observed in various contexts, such as in the development of certain plants, animals, and even microorganisms. Understanding heteromorphy, which can be translated into Chinese as 异形性, is crucial for biologists as it provides insights into adaptation, survival, and evolutionary processes. One classic example of heteromorphy can be seen in the life cycle of certain insects, such as butterflies. During their metamorphosis, these creatures undergo significant morphological changes. The caterpillar stage is vastly different from the adult butterfly, showcasing extreme heteromorphy. This transformation is not just a change in appearance; it also reflects a change in function, behavior, and ecological role. By studying these changes, researchers can better understand how different life stages contribute to the overall success of a species. In plants, heteromorphy often manifests in the form of different leaf shapes or sizes depending on environmental conditions. For instance, some plants may develop broad leaves in shady areas to maximize light absorption, while others might produce smaller, tougher leaves in arid environments to minimize water loss. This adaptive heteromorphy allows plants to thrive in diverse habitats, demonstrating the importance of morphological variation in survival and reproduction. Moreover, heteromorphy is not limited to physical forms; it can also encompass behavioral differences. In social insects like ants and bees, different castes exhibit distinct morphologies and behaviors. Worker ants, for example, may have specialized body structures for foraging and defending the colony, while queens have adaptations for reproduction. This division of labor, rooted in heteromorphy, highlights the complex social structures and evolutionary strategies that enable these species to flourish. The concept of heteromorphy extends beyond the biological realm and can be applied in various fields, including psychology and sociology. In human societies, individuals may adopt different roles or identities based on cultural expectations, social contexts, or personal experiences. This social heteromorphy allows for diversity in thought, behavior, and interaction, contributing to the richness of human experience. Understanding heteromorphy thus opens up new avenues for research and exploration. It encourages scientists to look beyond the surface and consider the underlying mechanisms that drive diversity in form and function. As we continue to investigate the complexities of life, the insights gained from studying heteromorphy will undoubtedly enhance our comprehension of biological and social systems alike. In conclusion, heteromorphy serves as a vital concept in understanding the diversity of life on Earth. From the metamorphosis of insects to the adaptive strategies of plants and the varying roles within human societies, heteromorphy illustrates the dynamic nature of organisms and their environments. By appreciating and studying this phenomenon, we can gain deeper insights into the intricate web of life that surrounds us, fostering a greater respect for the complexity and beauty of the natural world.

在生物学和进化研究中，术语heteromorphy指的是同一生物体内或同一物种的生物之间存在不同的形式或结构。这种现象可以在各种背景下观察到，例如某些植物、动物甚至微生物的发展。理解heteromorphy（中文翻译为异形性）对生物学家至关重要，因为它提供了关于适应、生存和进化过程的见解。 一个经典的heteromorphy例子可以在某些昆虫的生命周期中看到，比如蝴蝶。在它们的变态过程中，这些生物经历了显著的形态变化。毛虫阶段与成虫蝴蝶截然不同，展示了极端的heteromorphy。这种转变不仅仅是外观的变化；它还反映了功能、行为和生态角色的变化。通过研究这些变化，研究人员可以更好地理解不同生命阶段如何促进一个物种的整体成功。 在植物中，heteromorphy通常表现为根据环境条件不同的叶子形状或大小。例如，一些植物可能在阴凉的地方发展出宽大的叶子，以最大限度地吸收光线，而其他植物可能在干旱环境中产生较小、更坚韧的叶子，以减少水分流失。这种适应性的heteromorphy使植物能够在多样的栖息地中繁茁生长，展示了形态变化在生存和繁殖中的重要性。 此外，heteromorphy并不限于物理形态；它也可以包含行为差异。在社会性昆虫如蚂蚁和蜜蜂中，不同的阶级展现出独特的形态和行为。例如，工蚁可能具有专门的身体结构用于觅食和保护巢穴，而女王则有适应繁殖的特征。这种基于heteromorphy的劳动分工突显了这些物种能够繁荣发展的复杂社会结构和进化策略。 heteromorphy的概念超越了生物领域，可以应用于心理学和社会学等多个领域。在人类社会中，个体可能根据文化期望、社会背景或个人经历采取不同的角色或身份。这种社会heteromorphy允许思想、行为和互动的多样性，丰富了人类的经验。 因此，理解heteromorphy为研究和探索开辟了新的途径。它鼓励科学家超越表面，考虑推动形式和功能多样性的潜在机制。随着我们继续调查生命的复杂性，从研究heteromorphy中获得的见解无疑将增强我们对生物和社会系统的理解。 总之，heteromorphy作为理解地球上生命多样性的一个重要概念。从昆虫的变态到植物的适应策略，再到人类社会中不同的角色，heteromorphy展示了生物体及其环境的动态特性。通过欣赏和研究这一现象，我们可以更深入地了解环绕我们的生命复杂网络，从而培养对自然世界复杂性和美丽的更大尊重。