glaciology

简明释义

英[ˌɡlæsɪˈɒlədʒi]美[ˌɡleɪʃiˈɑːlədʒi;ˌɡleɪsiˈɑːlə

n. 冰河学；冰川学

英英释义

单词用法

同义词

反义词

例句

1.The paper gives an introduction of Li Siguang's academic thought and achievements in three aspects, on stratigraphic paleontology, Quaternary glaciology and geomechanics.

从李四光教授对地层古生物、第四纪冰川和地质力学三方面的研究，来介绍他的学术思想和科研成果以及他的地壳运动的理论。

2.The paper gives an introduction of Li Siguang's academic thought and achievements in three aspects, on stratigraphic paleontology, Quaternary glaciology and geomechanics.

从李四光教授对地层古生物、第四纪冰川和地质力学三方面的研究，来介绍他的学术思想和科研成果以及他的地壳运动的理论。

3.Antarctic glaciology and global change is the major topic of the international symposium on "Antarctic and global change: Interactions and Impacts" held recently.

南极冰川学与全球变化是最近举行的“南极与全球变化：相互作用和影响”国际学术研讨会的主题。

4.Doctor Frank Paul is an expert in glaciology from Swiss Federal Institute of Technology.

法兰克·保罗医师是瑞士联邦理工学院、冰河学专家。

5.Furthmore, there is a link-list of related sites on glaciology.

此外，还提供了一个冰川学相关站点的链接列表。

6.The study of glaciers is a key component of glaciology (冰川学).

冰川的研究是glaciology（冰川学）的一个关键组成部分。

7.Researchers in glaciology (冰川学) analyze ice cores to understand past climate conditions.

从事glaciology（冰川学）的研究人员分析冰芯以了解过去的气候条件。

8.Understanding the effects of climate change requires knowledge of glaciology (冰川学).

理解气候变化的影响需要掌握glaciology（冰川学）的知识。

9.Many universities offer degrees in glaciology (冰川学) as part of their Earth sciences programs.

许多大学在其地球科学课程中提供glaciology（冰川学）学位。

10.The melting of polar ice caps is a major concern in the field of glaciology (冰川学).

极地冰盖的融化是在glaciology（冰川学）领域中的一个主要关注点。

作文

Glaciology, the scientific study of glaciers and ice sheets, plays a crucial role in understanding our planet's climate system. As glaciers are sensitive indicators of climate change, they provide valuable insights into past and present environmental conditions. The field of glaciology (冰川学) encompasses a wide range of topics, including the formation, movement, and melting of ice masses, as well as their impact on sea level rise and global ecosystems. One of the primary objectives of glaciology (冰川学) is to monitor and analyze the behavior of glaciers over time. Researchers utilize satellite imagery, ground-based measurements, and computer models to track changes in glacier size, thickness, and flow dynamics. These studies are essential for predicting future trends in glacier retreat and the consequent effects on freshwater resources and coastal communities. In recent years, the alarming rate of glacier melting has drawn significant attention from scientists and policymakers alike. The Intergovernmental Panel on Climate Change (IPCC) reports that glaciers worldwide are retreating at an unprecedented pace, contributing to rising sea levels that threaten low-lying areas. Understanding the mechanisms behind this phenomenon is a key focus of glaciology (冰川学). For instance, researchers investigate how temperature increases, changes in precipitation patterns, and ocean currents affect glacier stability. Another important aspect of glaciology (冰川学) is its interdisciplinary nature. It intersects with fields such as geology, meteorology, hydrology, and ecology. By collaborating with experts from these disciplines, glaciologists can gain a comprehensive understanding of the implications of glacier changes on various ecosystems and human activities. For example, the meltwater from glaciers serves as a vital water source for millions of people, particularly in regions like the Himalayas and the Andes. Therefore, studying the dynamics of glaciers helps ensure sustainable water management practices. Furthermore, glaciology (冰川学) also contributes to our knowledge of historical climate patterns. Ice cores extracted from glaciers contain trapped air bubbles that preserve ancient atmospheres, allowing scientists to reconstruct past climate conditions. This information is invaluable for understanding natural climate variability and the extent of human influence on global warming. The significance of glaciology (冰川学) extends beyond academic research; it informs policy decisions and public awareness regarding climate change. As glaciers continue to shrink, their impact on global sea levels and weather patterns becomes increasingly pronounced. Educating communities about the importance of glaciers and their role in the Earth's climate system fosters a sense of responsibility towards environmental conservation. In conclusion, glaciology (冰川学) is a vital field of study that enhances our understanding of glaciers and their relationship with climate change. Through rigorous research and collaboration across disciplines, glaciologists strive to uncover the complexities of ice dynamics and their broader implications. As we face the challenges posed by a warming planet, the insights gained from glaciology (冰川学) will be instrumental in developing effective strategies for mitigation and adaptation. It is imperative that we continue to support research in this field to safeguard our environment for future generations.

冰川学，即对冰川和冰盖的科学研究，在理解我们星球的气候系统中发挥着至关重要的作用。由于冰川是气候变化的敏感指示器，它们为过去和现在的环境条件提供了宝贵的见解。冰川学（glaciology）这一领域涵盖了广泛的主题，包括冰体的形成、运动和融化，以及它们对海平面上升和全球生态系统的影响。 冰川学（glaciology）的主要目标之一是监测和分析冰川随时间的行为。研究人员利用卫星图像、地面测量和计算机模型来跟踪冰川的大小、厚度和流动动态的变化。这些研究对于预测冰川退缩的未来趋势及其对淡水资源和沿海社区的影响至关重要。 近年来，冰川融化的惊人速度引起了科学家和政策制定者的广泛关注。政府间气候变化专门委员会（IPCC）报告称，全球范围内的冰川正在以前所未有的速度退缩，导致海平面上升，威胁到低洼地区。理解这一现象背后的机制是冰川学（glaciology）的关键焦点。例如，研究人员调查温度升高、降水模式变化和洋流如何影响冰川的稳定性。 冰川学（glaciology）的另一个重要方面是其跨学科的特性。它与地质学、气象学、水文学和生态学等领域交叉。通过与这些学科的专家合作，冰川学家可以全面了解冰川变化对各种生态系统和人类活动的影响。例如，冰川融水是数百万人的重要水源，尤其是在喜马拉雅山和安第斯山脉等地区。因此，研究冰川的动态有助于确保可持续的水资源管理实践。 此外，冰川学（glaciology）还为我们提供了历史气候模式的知识。从冰川提取的冰芯中包含的气泡捕获了古代大气，使科学家能够重建过去的气候条件。这些信息对于理解自然气候变异性和人类对全球变暖的影响程度至关重要。 冰川学（glaciology）的重要性超越了学术研究；它为气候变化相关的政策决策和公众意识提供了依据。随着冰川的不断缩小，它们对全球海平面和天气模式的影响愈发明显。教育社区了解冰川的重要性及其在地球气候系统中的作用，有助于增强环保责任感。 总之，冰川学（glaciology）是一个重要的研究领域，增强了我们对冰川及其与气候变化关系的理解。通过严格的研究和跨学科的合作，冰川学家努力揭示冰的动态及其更广泛的影响。面对气候变暖带来的挑战，从冰川学（glaciology）获得的见解将对制定有效的减缓和适应策略至关重要。我们必须继续支持这一领域的研究，以保护我们的环境，为后代创造良好的生活条件。