breaking up of boulders

简明释义

大块二次破碎

英英释义

例句

1.The construction crew was tasked with the breaking up of boulders to clear the site for the new building.

施工队的任务是进行岩石的破碎以清理新建筑的工地。

2.They used dynamite for the breaking up of boulders in the quarry.

他们在采石场使用炸药进行岩石的破碎。

3.The breaking up of boulders made it difficult for hikers to navigate the trail.

岩石的破碎使得徒步旅行者很难在小径上行走。

4.The geologist explained that the breaking up of boulders is a natural process caused by weathering.

地质学家解释说，岩石的破碎是由风化引起的自然过程。

5.During the road expansion project, the breaking up of boulders was essential to widen the path.

在道路扩建项目中，岩石的破碎对拓宽道路至关重要。

作文

The process of nature is filled with fascinating phenomena that shape our environment and influence our lives. One such phenomenon is the breaking up of boulders, which plays a crucial role in the geological landscape. This process involves the physical disintegration of large rock formations into smaller pieces, often as a result of weathering and erosion. Understanding this process not only provides insight into the earth's natural systems but also highlights the delicate balance of ecosystems.To comprehend the breaking up of boulders, we must first explore the forces that contribute to this geological activity. Weathering can be classified into two main types: mechanical and chemical. Mechanical weathering occurs when physical forces, such as wind, water, and temperature changes, cause rocks to fracture and break apart. For instance, freeze-thaw cycles can lead to the expansion of water within rock crevices during cold temperatures, eventually causing the rocks to split. On the other hand, chemical weathering involves the alteration of the minerals within rocks due to chemical reactions, often involving water and atmospheric gases. This type of weathering can weaken the structural integrity of boulders, making them more susceptible to breaking.The breaking up of boulders has significant implications for the surrounding environment. As these large rocks disintegrate, they contribute to the formation of soil and sediment, which are essential for plant growth and sustaining various ecosystems. The smaller particles created from boulders provide nutrients to the soil, fostering biodiversity and supporting a range of organisms. Furthermore, the presence of boulders can influence water drainage patterns, affecting how water flows through an area and its availability for plants and animals.In addition to its ecological impact, the breaking up of boulders also has practical applications in human activities. For example, in construction and mining, understanding the processes that lead to the fragmentation of rocks can aid in the extraction of minerals and materials. Engineers and geologists often study these processes to predict potential hazards, such as landslides or rockfalls, which can pose risks to infrastructure and communities.Moreover, the breaking up of boulders can also serve as a reminder of the dynamic nature of our planet. It illustrates how landscapes are continuously evolving, shaped by both natural forces and human intervention. This awareness can inspire us to appreciate the beauty of our surroundings and recognize the importance of preserving natural habitats. By understanding the processes that govern our environment, we can make informed decisions about conservation and sustainable practices.In conclusion, the breaking up of boulders is a vital process that contributes to the earth's geological and ecological systems. It showcases the intricate connections between weathering, erosion, and the formation of soil, while also highlighting the practical implications for human activities. As we continue to explore and learn about our planet, it is essential to acknowledge the role of such processes in shaping the world we inhabit. Through this understanding, we can foster a deeper appreciation for nature and work towards a more sustainable future.

自然的过程充满了迷人的现象，这些现象塑造了我们的环境并影响我们的生活。其中一个现象是巨石的破碎，它在地质景观中扮演着至关重要的角色。这个过程涉及大型岩石形成物的物理解体，通常是由于风化和侵蚀造成的。理解这个过程不仅提供了对地球自然系统的洞察，还突显了生态系统的微妙平衡。要理解巨石的破碎，我们首先必须探讨促成这种地质活动的力量。风化可以分为两种主要类型：机械风化和化学风化。机械风化发生在物理力量（如风、水和温度变化）使岩石破裂和分裂时。例如，冰冻-融化循环会导致寒冷天气中岩石缝隙内水的膨胀，最终导致岩石裂开。另一方面，化学风化涉及岩石中矿物质由于化学反应而发生的变化，通常涉及水和大气气体。这种类型的风化可以削弱巨石的结构完整性，使其更容易破裂。巨石的破碎对周围环境有重要影响。当这些大型岩石解体时，它们促进了土壤和沉积物的形成，这对于植物生长和维持各种生态系统至关重要。从巨石中产生的小颗粒为土壤提供养分，促进生物多样性并支持各种生物。此外，巨石的存在可以影响水流动模式，影响水在区域内的流动及其对植物和动物的可用性。除了生态影响外，巨石的破碎在人的活动中也具有实际应用。例如，在建筑和采矿中，理解导致岩石碎裂的过程可以帮助提取矿物和材料。工程师和地质学家经常研究这些过程，以预测潜在的危险，如山体滑坡或落石，这可能对基础设施和社区构成风险。此外，巨石的破碎也可以提醒我们地球的动态特性。它说明了景观如何不断演变，受到自然力量和人类干预的共同影响。这种意识可以激励我们欣赏周围环境的美丽，并认识到保护自然栖息地的重要性。通过理解支配我们环境的过程，我们可以就保护和可持续实践做出明智的决定。总之，巨石的破碎是一个重要的过程，对地球的地质和生态系统作出了贡献。它展示了风化、侵蚀与土壤形成之间的复杂联系，同时突显了对人类活动的实际影响。随着我们继续探索和学习我们的星球，承认此类过程在塑造我们居住的世界中的作用是至关重要的。通过这种理解，我们可以培养对自然的更深刻欣赏，并朝着更可持续的未来努力。