mineralizing

简明释义

英[ˈmɪnərəlaɪzɪŋ]美[ˈmɪnərəlaɪzɪŋ]

v. 矿化（mineralize 的 ing 形式）；成矿酌

英英释义

单词用法

同义词

反义词

例句

1.The long axes of the ellipsoidal shaped calcareous concretion reflected the direction of movement of mineralizing groundwaters.

椭圆形的钙质结核的长轴方向反映了地下矿化水的流动方向。

2.Meanwhile, the isotopic and inclusion data show that mineralizing solution is mainly meteoric water.

同位素和包体资料表明成矿溶液主要为大气降水。

3.This paper studies the characteristics and geological significance of mineralizing microcline in Wulashan gold ore field.

本文研究了乌拉山成矿微斜长石的特征及地质意义。

4.The solid mineralizing model for a underground gold mine is researched on the basis of orebody block as a unit.

以矿块为单位，研究某地下金矿的实体矿化模型。

5.Nalati mineralization belt is located at Nalati-Hongliuhe suture belt where mineralizing condition is favorable.

那拉提成矿带地处那拉提-红柳河缝合带，成矿条件有利。

6.They reflect the ages and characteristics of mineralizing thermal events in accordance with geological setting.

结合地质特征，认为其代表了成矿热事件的活动时代和特征。

7.The mineralizing features of the region can be showed by geochemical anomalies. Some indexes for…

地球化学异常反映了该区的成矿特点。

8.Certain bacteria in soil play a crucial role in mineralizing 矿化 organic matter.

土壤中的某些细菌在矿化有机物方面发挥着重要作用。

9.The mineralizing 矿化 process in the human body is vital for bone health.

人体内的矿化过程对骨骼健康至关重要。

10.Researchers are studying how mineralizing 矿化 agents can improve soil fertility.

研究人员正在研究如何通过矿化剂改善土壤肥力。

11.The process of mineralizing 矿化 water helps to enhance its taste and health benefits.

水的矿化过程有助于提升其口感和健康益处。

12.The mineralizing 矿化 action of certain plants can help restore degraded land.

某些植物的矿化作用可以帮助恢复退化土地。

作文

The process of mineralizing is fundamental in various natural and industrial contexts. In geology, mineralizing refers to the formation of minerals from organic or inorganic materials through chemical processes. This transformation is crucial for the creation of rocks and can lead to the development of valuable mineral deposits. For instance, when organisms die, their remains can undergo mineralizing, turning into fossils over millions of years. This process not only preserves the biological information but also contributes to the geological record of life on Earth.In the context of nutrition, mineralizing plays a vital role in human health. The body requires essential minerals such as calcium, magnesium, and iron for various physiological functions. These minerals are obtained from our diet and are crucial for bone health, muscle function, and oxygen transport in the blood. A well-balanced diet that includes fruits, vegetables, nuts, and whole grains can support the mineralizing process in the body, ensuring that we maintain adequate levels of these vital nutrients.Moreover, the concept of mineralizing extends to environmental science, particularly in the context of soil health. Healthy soils are rich in minerals that are essential for plant growth. The mineralizing process in soils involves the breakdown of organic matter by microorganisms, which releases nutrients back into the soil. This natural cycle is critical for sustainable agriculture, as it enhances soil fertility and promotes the growth of healthy crops.In recent years, researchers have been exploring innovative ways to enhance the mineralizing process in both natural and artificial environments. For example, in the field of biotechnology, scientists are developing methods to stimulate mineralizing bacteria that can help in bioremediation efforts. These bacteria can convert harmful substances into less toxic forms, thereby improving soil and water quality. This application of mineralizing processes showcases how understanding these natural phenomena can lead to solutions for environmental challenges.Additionally, the construction industry has started to recognize the importance of mineralizing materials in creating more sustainable building practices. For instance, using recycled concrete that undergoes mineralizing processes can reduce waste and lower carbon emissions associated with traditional cement production. By incorporating mineralizing techniques, builders can create structures that are not only durable but also environmentally friendly.In conclusion, the term mineralizing encompasses a wide range of processes that are crucial for life on Earth, from the formation of minerals in geological settings to the essential nutrients required for human health. Understanding these processes allows us to appreciate the interconnectedness of ecosystems and the importance of sustainability in our practices. Whether in nutrition, agriculture, or environmental science, mineralizing is a key concept that highlights the significance of minerals in maintaining balance within our world. As we continue to learn more about these processes, we can develop better strategies for preserving our environment and enhancing our health.

矿化过程在各种自然和工业背景中都是基础。在地质学中，矿化指的是通过化学过程从有机或无机材料形成矿物。这种转变对岩石的形成至关重要，并可能导致有价值的矿藏的发展。例如，当生物体死亡时，它们的遗骸可以经历矿化，在数百万年内转变为化石。这个过程不仅保存了生物信息，还为地球上的生命地质记录做出了贡献。在营养学的背景下，矿化在人体健康中发挥着重要作用。身体需要钙、镁和铁等必需矿物质来进行各种生理功能。这些矿物质来自我们的饮食，对骨骼健康、肌肉功能和血液中的氧气运输至关重要。均衡的饮食，包括水果、蔬菜、坚果和全谷物，可以支持身体的矿化过程，确保我们维持足够的这些重要营养素。此外，矿化的概念扩展到环境科学，特别是在土壤健康的背景下。健康的土壤富含植物生长所需的矿物质。土壤中的矿化过程涉及微生物对有机物的分解，这将养分释放回土壤。这一自然循环对可持续农业至关重要，因为它增强了土壤肥力并促进健康作物的生长。近年来，研究人员一直在探索创新的方法，以增强自然和人工环境中的矿化过程。例如，在生物技术领域，科学家们正在开发方法来刺激矿化细菌，这些细菌可以帮助生物修复工作。这些细菌可以将有害物质转化为较少毒性的形式，从而改善土壤和水质。这种矿化过程的应用展示了理解这些自然现象如何为环境挑战提供解决方案。此外，建筑行业也开始认识到矿化材料在创建更可持续建筑实践中的重要性。例如，使用经过矿化过程的再生混凝土可以减少废物，并降低与传统水泥生产相关的碳排放。通过结合矿化技术，建筑商可以创造不仅耐用而且环保的结构。总之，矿化这一术语涵盖了一系列对地球生命至关重要的过程，从地质环境中矿物的形成到人类健康所需的必需营养素。理解这些过程使我们能够欣赏生态系统的相互联系以及可持续性在我们实践中的重要性。无论是在营养、农业还是环境科学中，矿化都是一个关键概念，突显了矿物在维持我们世界平衡中的重要性。随着我们继续了解这些过程，我们可以制定更好的策略来保护我们的环境并增强我们的健康。