paragenetic

简明释义

英[/ˌpærəˈdʒɛnɪtɪk/]美[/ˌpærəˈdʒɛnɪtɪk/]

adj. 共生的；拟遗传的

英英释义

单词用法

同义词

反义词

例句

1.The paragenetic association of Au-Ag tellurides in Jinqingding gold deposits has been studied based on the experimental results in Au-Ag-Te ternary system.

结合金-银-碲矿物成分-共生图解，对金银碲化物矿物的共生组合特征进行了研究。

2.In the piedmont zone of fault-block mountains the pediments and tectonic terraces developed during the same tectonic movement are possessed of a certain paragenetic relation.

在断块山地的山麓地带，同一期构造运动形成的麓原面与构造阶地有一定的共生关系。

3.There are abundant mineral resources of non-ferrous metal mineral resources with more paragenetic and associated composition in Hunan province.

湖南省有色金属矿产资源丰富，共生、伴生组分多，开发利用水平较高。

4.Native gold has close relation with stibnite and quartz. Gold inclusions accounted for 50% or more. Intergranular gold and fissured gold have paragenetic relation with stibnite and quartz.

自然金主要与辉锑矿、石英嵌布关系密切，辉锑矿中包裹金占50%以上，粒间金、裂隙金与辉锑矿、石英连生。

5.There are many kinds of Agminerals in high content with Ag-rich paragenetic metallic minerals.

矿床银矿物种类多且含量高，共生金属矿物富含银。

6.The minerals of Jinchuan deposit have complex paragenetic relationship and lots of accompanying elements.

金川矿床矿物共生关系复杂，伴生元素多。

7.The high-potassium and high-chlorine inclusions and their paragenetic inclusions can represent the liquid phase trapped during the primary stage of diamond growth from the upper mantle.

高钾高氯包体及其共生组合代表了金刚石生长初期阶段陷获的上地幔液相物质。

8.Native gold has close relation with stibnite and quartz. Gold inclusions accounted for 50% or more. Intergranular gold and fissured gold have paragenetic relation with stibnite and quartz.

自然金主要与辉锑矿、石英嵌布关系密切，辉锑矿中包裹金占50%以上，粒间金、裂隙金与辉锑矿、石英连生。

9.Geologists often study paragenetic 成因的 relationships to understand the evolution of mineral deposits.

地质学家经常研究成因的关系，以了解矿床的演化。

10.The paragenetic 成因的 sequence of minerals can provide insights into the temperature and pressure conditions during formation.

矿物的成因的序列可以提供关于形成时温度和压力条件的见解。

11.The study revealed a paragenetic 成因的 relationship between quartz and feldspar in the granite samples.

研究揭示了花岗岩样品中石英和长石之间的成因的关系。

12.The mineral assemblage in this rock is considered to be paragenetic 成因的 due to the specific conditions under which it formed.

这块岩石中的矿物组合被认为是成因的，因为它形成的特定条件。

13.In petrology, identifying paragenetic 成因的 sequences is crucial for reconstructing geological histories.

在岩石学中，识别成因的序列对于重建地质历史至关重要。

作文

The study of geology often involves understanding the complex relationships between different minerals and their formations. One term that frequently arises in this field is paragenetic, which relates to the genetic relationship between minerals that occur together in a rock or mineral deposit. This concept is crucial for geologists, as it helps them decipher the history of mineral formation and the environmental conditions that led to their coexistence. In essence, paragenetic refers to how certain minerals are formed together and how they influence one another's development over time.For instance, when examining a metamorphic rock, a geologist may identify several minerals that have formed under specific temperature and pressure conditions. By analyzing these minerals, they can determine the paragenetic sequence, which reveals the order in which the minerals crystallized and the changes in environmental conditions that occurred during the rock's formation. This process not only aids in understanding the geological history of an area but also provides insights into the potential for discovering valuable mineral resources.Moreover, the concept of paragenetic relationships extends beyond just mineralogy; it encompasses broader geological processes such as tectonics, sedimentation, and metamorphism. For example, the formation of a particular mineral assemblage can indicate past tectonic activity or the presence of specific fluids during the metamorphic process. Thus, understanding paragenetic relationships allows geologists to reconstruct past geological events and make predictions about future geological processes.In practical applications, the knowledge of paragenetic relationships is vital for mining and resource exploration. Companies seeking to extract minerals often rely on detailed studies of mineral associations to locate deposits. By understanding the paragenetic context of a mineral deposit, geologists can make informed decisions about where to drill and what types of minerals are likely to be found together. This not only increases the efficiency of resource extraction but also minimizes environmental impact by reducing unnecessary drilling in areas with low mineral potential.Furthermore, the implications of paragenetic studies extend to environmental geology as well. By understanding how certain minerals interact and form together, scientists can better predict the behavior of these minerals in response to environmental changes, such as pollution or climate change. This knowledge is essential for developing effective strategies for environmental management and remediation.In conclusion, the term paragenetic encapsulates a fundamental aspect of geological science, highlighting the interconnectedness of mineral formations and their environmental contexts. Whether in academic research, resource exploration, or environmental management, grasping the concept of paragenetic relationships enhances our understanding of the Earth's complex systems. As we continue to explore and study our planet, the insights gained from paragenetic analyses will undoubtedly play a crucial role in advancing our knowledge and responsible stewardship of natural resources.

地质学的研究通常涉及理解不同矿物及其形成之间复杂的关系。在这个领域中，一个经常出现的术语是paragenetic，它与在岩石或矿床中共同存在的矿物之间的遗传关系有关。这个概念对于地质学家来说至关重要，因为它帮助他们解读矿物形成的历史以及导致它们共存的环境条件。从本质上讲，paragenetic指的是某些矿物是如何共同形成的，以及它们如何相互影响、随时间发展。例如，在检查变质岩时，地质学家可能会识别出几种在特定温度和压力条件下形成的矿物。通过分析这些矿物，他们可以确定paragenetic序列，这揭示了矿物结晶的顺序以及在岩石形成过程中发生的环境条件变化。这个过程不仅有助于理解一个地区的地质历史，还提供了发现有价值矿产资源的潜在洞察。此外，paragenetic关系的概念不仅限于矿物学；它还涵盖了更广泛的地质过程，如构造、沉积和变质。例如，特定矿物组合的形成可以表明过去的构造活动或在变质过程中存在特定流体。因此，理解paragenetic关系使地质学家能够重建过去的地质事件并对未来的地质过程做出预测。在实际应用中，了解paragenetic关系对于采矿和资源勘探至关重要。寻求提取矿物的公司通常依赖详细的矿物组合研究来定位矿床。通过理解矿床的paragenetic背景，地质学家可以就钻探位置和可能一起发现的矿物类型做出明智的决策。这不仅提高了资源开采的效率，还通过减少在矿产潜力低的区域不必要的钻探，最小化了对环境的影响。此外，paragenetic研究的影响也扩展到环境地质学。通过理解某些矿物如何相互作用和共同形成，科学家们可以更好地预测这些矿物在环境变化（如污染或气候变化）下的行为。这一知识对于制定有效的环境管理和修复策略至关重要。总之，paragenetic这个术语概括了地质科学的一个基本方面，突显了矿物形成及其环境背景之间的相互联系。无论是在学术研究、资源勘探还是环境管理中，掌握paragenetic关系的概念都增强了我们对地球复杂系统的理解。随着我们继续探索和研究我们的星球，从paragenetic分析中获得的见解无疑将在推进我们的知识和负责任地管理自然资源方面发挥关键作用。