chalcophile element

简明释义

亲铜元素

英英释义

例句

1.Copper is a common example of a chalcophile element (亲硫元素) that prefers to bond with sulfur.

铜是一个常见的chalcophile element（亲硫元素），它更喜欢与硫结合。

2.Lead is categorized as a chalcophile element (亲硫元素) due to its affinity for sulfide minerals.

铅被归类为chalcophile element（亲硫元素），因为它对硫化矿物有亲和力。

3.In geology, understanding the behavior of chalcophile elements (亲硫元素) is crucial for mineral exploration.

在地质学中，了解chalcophile elements（亲硫元素）的行为对矿产勘探至关重要。

4.The presence of chalcophile elements (亲硫元素) in ore deposits can indicate the potential for valuable metal extraction.

矿石中存在chalcophile elements（亲硫元素）可能表明有价值金属提取的潜力。

5.Zinc is often found in association with other chalcophile elements (亲硫元素) in sulfide ores.

锌通常与其他chalcophile elements（亲硫元素）一起出现在硫化矿石中。

作文

The earth is composed of a variety of elements, each playing a significant role in the formation and composition of the planet's crust. Among these elements, the term chalcophile element refers to those that have a strong affinity for sulfur and tend to bond with it to form sulfide minerals. These elements are crucial in understanding geological processes and the formation of ore deposits. Common examples of chalcophile elements include copper, lead, zinc, and silver. Their unique properties and behaviors make them vital not only in geology but also in various industrial applications.The study of chalcophile elements is particularly important in the field of mineral exploration. Geologists often look for signs of these elements when searching for valuable mineral deposits. Since chalcophile elements typically occur in sulfide forms, their presence can indicate the potential for rich ore bodies. This has significant economic implications, as mining these metals can lead to substantial profits. For instance, copper is a critical component in electrical wiring and electronics, making it highly sought after in modern industries.In addition to their economic importance, chalcophile elements also play a role in environmental science. The mining and processing of these elements can lead to environmental challenges, such as soil and water contamination. Understanding the behavior of chalcophile elements in the environment helps scientists develop better strategies for managing and mitigating these impacts. For example, the leaching of metals like lead into waterways can pose serious health risks, making it essential to monitor and control mining activities.Moreover, the affinity of chalcophile elements for sulfur can also be observed in biological systems. Some organisms have evolved mechanisms to utilize these elements, which can influence nutrient cycling in ecosystems. For instance, certain bacteria can oxidize sulfide minerals, releasing chalcophile elements into the environment, where they may be taken up by plants or other organisms. This interaction highlights the interconnectedness of geological and biological processes and underscores the importance of studying chalcophile elements from a multidisciplinary perspective.In conclusion, chalcophile elements are a fascinating group of elements that significantly impact both geology and industry. Their strong affinity for sulfur leads to the formation of valuable mineral deposits, making them essential for economic development. However, their extraction and use also present environmental challenges that must be addressed. As we continue to explore and understand the complexities surrounding chalcophile elements, we can better appreciate their role in our world and strive for sustainable practices in their management and utilization.

地球由多种元素组成，每种元素在地壳的形成和组成中扮演着重要角色。在这些元素中，术语chalcophile element（亲硫元素）指的是那些与硫有强烈亲和力并倾向于与其结合形成硫化矿物的元素。这些元素在理解地质过程和矿床形成中至关重要。常见的chalcophile elements包括铜、铅、锌和银。它们独特的性质和行为使其在地质学以及各种工业应用中具有重要价值。对chalcophile elements的研究在矿产勘探领域尤其重要。地质学家在寻找有价值的矿床时，通常会寻找这些元素的迹象。由于chalcophile elements通常以硫化物形式存在，它们的存在可以表明富矿体的潜力。这具有重大的经济意义，因为开采这些金属可以带来可观的利润。例如，铜是电线和电子产品的重要组成部分，使其在现代工业中备受追捧。除了经济重要性外，chalcophile elements在环境科学中也发挥着作用。这些元素的开采和加工可能导致环境挑战，如土壤和水污染。了解chalcophile elements在环境中的行为有助于科学家制定更好的管理和减缓这些影响的策略。例如，铅等金属渗入水道可能造成严重的健康风险，因此必须监测和控制采矿活动。此外，chalcophile elements对硫的亲和力也可以在生物系统中观察到。一些生物体已经进化出利用这些元素的机制，这可能影响生态系统中的养分循环。例如，某些细菌可以氧化硫化矿物，将chalcophile elements释放到环境中，植物或其他生物可能会吸收这些元素。这种相互作用突显了地质过程和生物过程之间的相互联系，并强调了从多学科角度研究chalcophile elements的重要性。总之，chalcophile elements是一组迷人的元素，对地质学和工业有着重要影响。它们对硫的强烈亲和力导致了有价值的矿床的形成，使其对经济发展至关重要。然而，它们的开采和使用也带来了必须解决的环境挑战。随着我们继续探索和理解围绕chalcophile elements的复杂性，我们可以更好地欣赏它们在我们世界中的角色，并努力在其管理和利用中实现可持续实践。