mineralized

简明释义

英[ˈmɪnərəlaɪzd]美[ˈmɪnərəˌlaɪzd]

adj. 矿藏丰富的

v. 使成矿（mineralize 的过去式和过去分词）

英英释义

单词用法

同义词

反义词

例句

1.The types of mineralized rocks are fine grained biotite gneiss and silicalites.

矿化类型为含金黑云变粒岩型、含金硅质岩型。

2.It is also the important principles for regulating the mineralized water in China.

这也是目前中国对矿物质水标准规范和管理的重要原则。

3.By fossils, we mean traces of prehistoric animals such as bones, which become mineralized, or impressions of bones or organs that are left in stone.

我们所说的化石，指的是史前动物的遗迹，如已矿化的骨头，或留在石头上的骨头或器官的印痕。

4.The whole quartz-porphyry body was mineralized. The main ore body occurs in the upper quartz-porphyry.

石英斑岩全岩都发生了矿化，主要矿体产于石英斑岩的中上部。

5.The massive sulfide contains fragments of barren and mineralized gabbro , and schist.

块状硫化物中含有矿化的和未矿化的辉长岩及片岩碎块。

6.The southeast Hunan polymetallic mineralized concentration area is one important part of the Nanling polymetallic mineralized belt.

湘东南多金属矿集区是南岭多金属成矿带的一个重要组成部分。

7.The paper argues the stable treatment of high hardness and highly mineralized water.

通过研究高硬度、高矿化度水的水质稳定处理。

8.Any organic, solid or gaseous, regardless of size, that collides with it is instantly mineralized.

任何规模的有机，固体或气体，而不论与碰撞是立即矿化。

9.In geology, rocks can become mineralized over time through various natural processes.

在地质学中，岩石可以通过各种自然过程在时间的推移中变得矿物化。

10.The soil in this region is highly mineralized, which makes it ideal for agriculture.

该地区的土壤高度矿物化，这使其非常适合农业。

11.The water source is known for its mineralized content, attracting many health enthusiasts.

这个水源因其矿物化成分而闻名，吸引了许多健康爱好者。

12.Scientists discovered that the ancient bones were well mineralized, preserving their structure.

科学家发现这些古代骨骼经过良好矿物化，保持了其结构。

13.The mineralized layers of the earth provide important clues about its history.

地球的矿物化层提供了关于其历史的重要线索。

作文

In the study of geology and biology, the term mineralized refers to the process through which organic materials are transformed into minerals over time. This transformation is particularly significant in the context of fossilization, where the remains of plants and animals undergo a series of chemical changes that replace their organic components with minerals. The mineralized remains provide invaluable insights into the history of life on Earth, allowing scientists to reconstruct ancient ecosystems and understand evolutionary processes.The process of mineralization typically begins when an organism dies and is buried under layers of sediment. Over time, the weight of the overlying material compresses the sediments, creating an environment conducive to preservation. As water permeates these sediments, it carries dissolved minerals, which begin to infiltrate the organic remains. This process can take thousands to millions of years, during which the original biological material gradually breaks down and is replaced by minerals such as silica, calcite, or iron.One of the most famous examples of mineralized remains is that of dinosaurs. Fossils of these ancient creatures reveal not only their physical structure but also provide clues about their behavior and environment. For instance, scientists can analyze the isotopic composition of mineralized bones to infer information about the diet and habitat of the dinosaurs. Such analyses have led to groundbreaking discoveries, such as the understanding that some dinosaurs were warm-blooded and lived in diverse climates.Moreover, mineralized remains are not limited to large organisms; they can also include microorganisms. Microfossils, which are tiny remnants of ancient life, are crucial for studying early life forms and the conditions of the Earth's past environments. These mineralized structures offer evidence of the biochemical processes that occurred billions of years ago, shedding light on how life evolved in its infancy.The significance of mineralization extends beyond paleontology; it also plays a vital role in archaeology. Archaeologists often encounter mineralized artifacts, such as tools made from bone or wood that have turned into stone-like substances over time. These findings help reconstruct human history and cultural practices, providing a tangible connection to our ancestors.In addition to its scientific importance, the concept of mineralized materials has practical applications. For example, in the field of medicine, understanding the mineralization process is critical for developing treatments for bone diseases. Conditions like osteoporosis involve the loss of mineral density in bones, and research into how bones naturally mineralize can lead to better therapeutic strategies.In conclusion, the term mineralized encompasses a fascinating and complex process that is essential for understanding both the history of life on Earth and the development of various scientific fields. From the depths of ancient oceans to the archaeological sites of human civilization, mineralized remains tell stories that bridge the gap between the past and the present. As we continue to explore and study these remarkable transformations, we gain deeper insights into the intricate tapestry of life that has shaped our planet.

在地质学和生物学的研究中，术语mineralized指的是有机材料随着时间的推移转变为矿物的过程。这种转变在化石化的背景下尤为重要，其中植物和动物的遗骸经历一系列化学变化，取代其有机成分为矿物。mineralized的遗骸为我们提供了关于地球生命历史的宝贵见解，使科学家们能够重建古代生态系统并理解进化过程。mineralization过程通常始于一个生物体死亡并被埋在沉积物层下。随着时间的推移，上覆材料的重量压缩沉积物，创造出一个有利于保存的环境。当水渗透这些沉积物时，它带来了溶解的矿物质，这些矿物质开始渗入有机遗骸中。这个过程可能需要数千到数百万年的时间，在此期间，原始的生物材料逐渐分解，并被如硅石、方解石或铁等矿物所取代。mineralized遗骸中最著名的例子之一是恐龙的化石。这些古代生物的化石不仅揭示了它们的物理结构，还提供了关于它们行为和环境的线索。例如，科学家可以分析mineralized骨骼的同位素组成，以推断恐龙的饮食和栖息地的信息。这种分析导致了突破性的发现，例如理解某些恐龙是温血动物并生活在多样气候中的认识。此外，mineralized遗骸不仅限于大型生物；它们还可以包括微生物。微化石，即古代生命的微小残余，对于研究早期生命形式和地球过去环境的条件至关重要。这些mineralized结构提供了数十亿年前发生的生化过程的证据，揭示了生命在其初期如何演化。mineralization的重要性不仅限于古生物学；它在考古学中也发挥着重要作用。考古学家经常遇到mineralized文物，例如由骨头或木材制成的工具，这些工具随着时间的推移变成了石头般的物质。这些发现帮助重建人类历史和文化实践，为我们与祖先之间提供了有形的联系。除了科学的重要性外，mineralized材料的概念还有实际应用。例如，在医学领域，理解mineralization过程对于开发骨病治疗至关重要。像骨质疏松症这样的疾病涉及骨骼矿物密度的丧失，而对骨骼如何自然mineralize的研究可以导致更好的治疗策略。总之，术语mineralized涵盖了一个迷人而复杂的过程，对理解地球生命历史和各个科学领域的发展至关重要。从古代海洋的深处到人类文明的考古遗址，mineralized遗骸讲述着连接过去与现在的故事。随着我们继续探索和研究这些显著的转变，我们对塑造我们星球的生命错综复杂的织锦获得了更深入的见解。