diastrophic

简明释义

英[/ˌdaɪəˈstrɔfɪk/]美[/ˌdaɪəˈstrɔfɪk/]

弯曲变形的

英英释义

单词用法

同义词

反义词

例句

1.Final diagnosis was diastrophic dysplasia.

最终诊断是骨畸形性发育不良。

2.Final diagnosis was diastrophic dysplasia.

最终诊断是骨畸形性发育不良。

3.Research on diastrophic 发育性骨骼畸形 conditions has advanced significantly in the last decade.

对diastrophic 发育性骨骼畸形 病症的研究在过去十年中取得了显著进展。

4.The effects of diastrophic 发育性骨骼畸形 can vary widely among affected individuals.

受影响个体的diastrophic 发育性骨骼畸形 的影响可能差异很大。

5.The patient was diagnosed with a rare genetic disorder known as diastrophic 发育性骨骼畸形 dysplasia.

患者被诊断为一种罕见的遗传疾病，称为diastrophic 发育性骨骼畸形 发育不良。

6.Genetic counseling is recommended for families with a history of diastrophic 发育性骨骼畸形 disorders.

对于有diastrophic 发育性骨骼畸形 疾病史的家庭，建议进行遗传咨询。

7.Children with diastrophic 发育性骨骼畸形 may require specialized orthopedic care.

患有diastrophic 发育性骨骼畸形 的儿童可能需要专业的矫形护理。

作文

In the field of geology, the term diastrophic refers to the processes that lead to the deformation of the Earth's crust. These processes can result in various geological features, such as mountains, valleys, and faults. Understanding diastrophic forces is crucial for geologists as they study the Earth's structure and history. The movement of tectonic plates is one of the primary causes of diastrophic changes. For instance, when two plates collide, they can create mountain ranges, while their divergence can lead to the formation of rift valleys.The concept of diastrophic activity is not limited to just the formation of landforms; it also plays a significant role in understanding natural disasters. Earthquakes, for example, are a direct result of diastrophic movements within the Earth's crust. When stress builds up along fault lines due to the constant movement of tectonic plates, it can eventually release energy in the form of seismic waves, leading to an earthquake. This illustrates how diastrophic processes can have immediate and sometimes devastating effects on human life and infrastructure.Moreover, studying diastrophic phenomena helps scientists predict future geological events. By analyzing past diastrophic activities, researchers can identify patterns that may indicate where and when future earthquakes or volcanic eruptions might occur. This predictive capability is vital for disaster preparedness and risk management, especially in regions prone to such events.The implications of diastrophic processes extend beyond geology. They also influence ecosystems and biodiversity. For example, the creation of new landforms can alter habitats, affecting the species that live there. Some species may thrive in newly formed environments, while others may struggle to adapt to the changes brought about by diastrophic events. This dynamic interplay between geological processes and biological systems highlights the interconnectedness of Earth's systems.In conclusion, the term diastrophic encompasses a wide range of geological processes that shape our planet. From the formation of mountains to the occurrence of earthquakes, diastrophic activities have profound implications for both the environment and human society. As we continue to study these processes, we gain invaluable insights into the Earth's history and enhance our ability to respond to natural disasters. Understanding diastrophic forces is essential for anyone interested in geology, environmental science, or disaster management, as it provides a foundation for understanding the dynamic nature of our planet.

在地质学领域，术语diastrophic指的是导致地球外壳变形的过程。这些过程可以导致各种地质特征的形成，例如山脉、山谷和断层。理解diastrophic力量对地质学家研究地球的结构和历史至关重要。构造板块的运动是造成diastrophic变化的主要原因之一。例如，当两块板块碰撞时，它们可以形成山脉，而它们的分离可以导致裂谷的形成。diastrophic活动的概念不仅限于地貌的形成；它在理解自然灾害方面也发挥着重要作用。例如，地震就是地球外壳内diastrophic运动的直接结果。当由于构造板块的持续运动而沿着断层线积累的压力最终释放出能量，以地震波的形式导致地震时，就体现了diastrophic过程对人类生命和基础设施的直接和有时是毁灭性的影响。此外，研究diastrophic现象有助于科学家预测未来的地质事件。通过分析过去的diastrophic活动，研究人员可以识别出可能指示未来地震或火山喷发何时何地发生的模式。这种预测能力对灾害准备和风险管理至关重要，尤其是在易发生此类事件的地区。diastrophic过程的影响超越了地质学。它们还影响生态系统和生物多样性。例如，新地貌的形成可以改变栖息地，影响生活在那里的物种。一些物种可能会在新形成的环境中繁荣，而其他物种可能会因diastrophic事件带来的变化而难以适应。这种地质过程与生物系统之间的动态相互作用突显了地球系统的相互联系。总之，术语diastrophic涵盖了一系列塑造我们星球的地质过程。从山脉的形成到地震的发生，diastrophic活动对环境和人类社会都有深远的影响。随着我们继续研究这些过程，我们获得了对地球历史的宝贵见解，并增强了我们应对自然灾害的能力。理解diastrophic力量对于任何对地质学、环境科学或灾害管理感兴趣的人来说都是必不可少的，因为它为理解我们星球的动态本质提供了基础。