automagmatic breccia

简明释义

1. 自岩浆角砾岩; 2. 岩浆自生角砾岩;

英英释义

例句

1.The team utilized automagmatic breccia to merge datasets without manual intervention.

团队利用自动魔法角砾岩合并数据集，无需人工干预。

2.With the latest update, the program now features automagmatic breccia for better error handling.

通过最新更新，该程序现在具有更好的错误处理功能的自动魔法角砾岩。

3.By implementing automagmatic breccia, we reduced the time spent on data preparation.

通过实施自动魔法角砾岩，我们减少了数据准备所花费的时间。

4.The software created a new data model using automagmatic breccia, which streamlined our workflow significantly.

该软件使用自动魔法角砾岩创建了新的数据模型，显著简化了我们的工作流程。

5.Our new analytics tool employs automagmatic breccia to generate insights automatically.

我们新的分析工具采用自动魔法角砾岩自动生成洞察。

作文

In the realm of geology, the term automagmatic breccia refers to a type of rock formation characterized by its chaotic and fragmented nature. This unique geological feature is formed through a combination of processes that often occur simultaneously, leading to the creation of rock fragments that are bonded together in a seemingly magical manner. The word 'automagmatic' itself is a portmanteau of 'automatic' and 'magic', suggesting that the processes involved are not only automatic but also somewhat mysterious in their execution. Understanding automagmatic breccia requires a deeper dive into the geological processes that contribute to its formation.Breccia, in general, is a rock composed of angular fragments that are cemented together. The formation of breccia can occur through various geological processes, including volcanic activity, landslides, or the sudden collapse of a rock face. However, what sets automagmatic breccia apart is the specific conditions under which it forms. Typically, this type of breccia is associated with explosive volcanic eruptions, where magma rapidly cools and solidifies, resulting in the fragmentation of surrounding rocks.The 'automagmatic' aspect of this breccia highlights how these processes can happen without direct human intervention, almost as if they are guided by an unseen hand. This phenomenon can be observed in many natural settings, particularly in regions with significant volcanic activity. For instance, when a volcano erupts, the force of the explosion can shatter existing rock layers, creating a mixture of different rock types and sizes that come together to form automagmatic breccia. The rapid cooling of lava can also lead to the formation of glassy textures within the rock, further adding to its complexity.One of the most fascinating aspects of automagmatic breccia is its ability to tell a story about the geological history of an area. By studying the composition and structure of these rocks, geologists can gain insights into past volcanic activity, environmental conditions, and even the movement of tectonic plates. Each fragment within the breccia serves as a clue, revealing information about the processes that shaped the landscape over time.Moreover, automagmatic breccia is not just limited to volcanic regions. It can also be found in sedimentary environments, where natural forces like erosion and sedimentation play a role in shaping the rock. In these cases, the term 'automagmatic' still applies, as the processes are often self-sustaining and occur without external influence. This adaptability of automagmatic breccia makes it a subject of interest for both researchers and students alike.In conclusion, the concept of automagmatic breccia encapsulates the intricate and often unpredictable nature of geological processes. It serves as a reminder of the dynamic Earth we live on, where forces work together to create complex structures that tell the story of our planet's history. By exploring the characteristics and formation of automagmatic breccia, we can deepen our understanding of geology and appreciate the beauty of the natural world around us.

在地质学领域，术语automagmatic breccia指的是一种岩石形成，其特征是混乱和破碎的性质。这种独特的地质特征是通过一系列通常同时发生的过程形成的，导致岩石碎片以看似神奇的方式结合在一起。“自动魔法”这个词本身是“自动”和“魔法”的合成词，暗示所涉及的过程不仅是自动的，而且在执行过程中也有些神秘。理解automagmatic breccia需要深入了解促成其形成的地质过程。一般而言，角砾岩是一种由角状碎片组成的岩石，这些碎片被粘结在一起。角砾岩的形成可以通过多种地质过程发生，包括火山活动、山体滑坡或岩石面突然崩塌。然而，使automagmatic breccia与众不同的是它形成的特定条件。通常，这种类型的角砾岩与爆炸性的火山喷发相关联，在这种情况下，岩浆迅速冷却和固化，导致周围岩石的碎裂。“自动魔法”的方面强调了这些过程如何在没有直接人类干预的情况下发生，几乎就像是被看不见的手引导。这种现象可以在许多自然环境中观察到，特别是在火山活动显著的地区。例如，当火山喷发时，爆炸的力量可以粉碎现有的岩层，创造出不同类型和大小的混合物，形成automagmatic breccia。熔岩的快速冷却还可以导致岩石内部形成玻璃质纹理，进一步增加其复杂性。automagmatic breccia最迷人的方面之一是它能够讲述一个地区的地质历史。通过研究这些岩石的成分和结构，地质学家可以深入了解过去的火山活动、环境条件甚至构造板块的运动。角砾岩中的每个碎片都充当线索，揭示塑造景观的过程信息。此外，automagmatic breccia不仅限于火山地区。它也可以在沉积环境中找到，在这些情况下，自然力量如侵蚀和沉积在塑造岩石中发挥作用。在这些情况下，“自动魔法”一词仍然适用，因为这些过程往往是自我维持的，并且在没有外部影响的情况下发生。automagmatic breccia的这种适应性使其成为研究人员和学生都感兴趣的主题。总之，automagmatic breccia的概念概括了地质过程的复杂性和不可预测性。它提醒我们生活在一个动态的地球上，在这里，力量共同作用，创造出复杂的结构，讲述我们星球历史的故事。通过探索automagmatic breccia的特征和形成，我们可以加深对地质学的理解，并欣赏我们周围自然世界的美丽。