fumarolic

简明释义

英[/fjuːˈmɑːr.ɪk/]美[/fjuːˈmɑːr.ɪk/]

喷气孔的

英英释义

单词用法

同义词

反义词

例句

1.The lavas mainly include basalt, dolerite, fumarolic, amygdaloidal andesite, trachy-andesite and as well as rhyolite.

火山熔岩类主要包括玄武岩、粗面玄武岩、气孔杏仁状安山岩、粗面安山岩、流纹岩等。

2.The lavas mainly include basalt, dolerite, fumarolic, amygdaloidal andesite, trachy-andesite and as well as rhyolite.

火山熔岩类主要包括玄武岩、粗面玄武岩、气孔杏仁状安山岩、粗面安山岩、流纹岩等。

3.Kemmerling reported both aerial and subaerial fumarolic activity for the TAM crater, but none was observed in 1992.

据克梅林(Kemmerling)报告称，空气中和地表面的气流活动是由于TAM火山口，但是1992年没有观察到。

4.The scientists studied the fumarolic 烟孔的 activity in the volcanic region to understand gas emissions.

科学家们研究了火山区域的烟孔的活动，以了解气体排放。

5.During our hike, we encountered a fumarolic 烟孔的 area that emitted sulfurous gases.

在我们的远足中，我们遇到了一个释放硫磺气体的烟孔的区域。

6.The fumarolic 烟孔的 vents are indicators of volcanic activity beneath the surface.

这些烟孔的通风口是地下火山活动的指示器。

7.Researchers collected samples from the fumarolic 烟孔的 sites to analyze mineral content.

研究人员从烟孔的地点采集样本以分析矿物成分。

8.The fumarolic 烟孔的 emissions can provide valuable information about the geothermal system.

这些烟孔的排放可以提供有关地热系统的宝贵信息。

作文

Fumarolic activity is a fascinating aspect of geology that provides insight into the dynamic processes occurring beneath the Earth's surface. The term fumarolic refers to the emission of gases and vapors from volcanic vents, often accompanied by a range of thermal phenomena. These emissions can include steam, sulfur dioxide, carbon dioxide, and other volatile compounds, which are indicative of the underlying geological activity. Understanding fumarolic systems is crucial for volcanologists and geochemists as they study the behavior of volcanoes and the potential hazards they may pose to nearby communities. One of the most striking features of fumarolic sites is their ability to create unique landscapes. In places like the Yellowstone National Park in the United States or the Solfatara crater in Italy, fumaroles can be seen emitting plumes of steam and gas, creating a surreal environment that attracts tourists and scientists alike. These fumarolic areas are often characterized by colorful mineral deposits formed from the condensation of gases, which can lead to vibrant hues of yellow, orange, and green. The study of fumarolic activity also has important implications for understanding climate change and the Earth's atmosphere. Gases released from fumaroles can contribute to air pollution and have localized effects on weather patterns. For instance, the release of sulfur dioxide can lead to acid rain, which can harm ecosystems and affect water quality. By monitoring fumarolic emissions, researchers can gain valuable data on the interactions between volcanic activity and the atmosphere. Moreover, fumarolic systems can serve as natural laboratories for studying extreme environments. The high temperatures and unique chemical compositions found in these areas provide insights into the limits of life on Earth. Extremophiles, organisms that thrive in harsh conditions, have been discovered in fumarolic settings, revealing the potential for life in similar extraterrestrial environments, such as those found on Mars or Europa. In conclusion, the term fumarolic encompasses much more than just volcanic gas emissions; it represents a vital aspect of Earth's geochemical processes and offers a window into the planet's interior workings. As we continue to explore and understand these fascinating systems, we not only learn about the Earth’s geological history but also gain insights into future volcanic activity and its impacts on our environment. The ongoing research in fumarolic areas will undoubtedly contribute to our understanding of both terrestrial and extraterrestrial geology, making it an essential field of study for scientists around the world.

fumarolic 活动是地质学中一个迷人的方面，它提供了对地球表面下动态过程的洞察。术语fumarolic指的是从火山通风口排放气体和蒸汽，通常伴随着一系列热现象。这些排放物可以包括蒸汽、二氧化硫、二氧化碳和其他挥发性化合物，这些都是地下地质活动的指示。理解fumarolic系统对于火山学家和地球化学家来说至关重要，因为他们研究火山的行为及其可能对附近社区造成的危害。 fumarolic地点最引人注目的特征之一是它们能够创造独特的景观。在美国的黄石国家公园或意大利的索尔法塔火山口等地方， fumaroles 可以看到排放蒸汽和气体的羽流，创造出一种超现实的环境，吸引了游客和科学家。这些 fumarolic 区域通常以从气体冷凝形成的色彩缤纷的矿物沉积物为特征，这可以导致鲜艳的黄色、橙色和绿色。 对fumarolic活动的研究也对理解气候变化和地球大气层具有重要意义。从 fumaroles 排放的气体可能会导致空气污染，并对天气模式产生局部影响。例如，二氧化硫的释放可能会导致酸雨，这会危害生态系统并影响水质。通过监测fumarolic排放，研究人员可以获得关于火山活动与大气之间相互作用的宝贵数据。 此外，fumarolic系统可以作为研究极端环境的自然实验室。这些区域的高温和独特的化学成分为我们提供了对生命在地球上的极限的见解。已经在 fumarolic 环境中发现了极端生物，即在恶劣条件下生存的生物，揭示了在类似外星环境（如火星或欧罗巴）中存在生命的潜力。 总之，术语fumarolic不仅仅涵盖火山气体排放；它代表了地球地球化学过程的重要方面，并为了解地球内部的工作提供了一个窗口。随着我们继续探索和理解这些迷人的系统，我们不仅了解地球的地质历史，还获得了对未来火山活动及其对我们环境影响的见解。在fumarolic区域的持续研究无疑将有助于我们对地球和外星地质的理解，使其成为全球科学家研究的一个重要领域。