glaciated

简明释义

英[ˈɡleɪsɪeɪtɪd]美[ˈɡleɪʃɪˌeɪtɪd]

adj. 受到冰河作用的；冻结成冰的

v. 被冰冻盖（glaciate 的过去分词）

英英释义

单词用法

同义词

反义词

例句

1.Last Monday, when the 7.9-magnitude earthquake sent wave after wave of tremors through the river valleys and glaciated mountains of Sichuan Province, one of the most beautiful corners of China.

上周星期一下午两点二十八分当7.9级地震横扫四川的河流、山川，横扫中国这美丽的一脚时，和百万其他的中国人一样，他们的生命陷入了危机。

2.The glaciated surface structures of the early pleistocene were discovered in the autumn of 1984, on the sixth terrace base which is located at the southeastern piedmont of Lushan.

庐山东南麓第六阶地基座上，发现了早更新世冰川作用表皮构造。

3.Completed in 2010, the satellite-based survey took an inventory of the snow cover and glacier extent across glaciated regions of the Indus, Ganga, and Brahmaputra River basins.

研究完成于2010年，这次基于卫星资料的勘探详细记录了积雪覆盖的情况，以及冰川在印度河、恒河和雅鲁藏布江流域的延伸情况。

4.Approximately 10% of the island is glaciated.

大约10%的岛已冻结成冰。

5.Alice and Bessie found themselves climbing the highest glaciated peak in Italy.

爱丽丝和贝西发现自己在攀登意大利最高的冰峰。

6.The High Coast site affords outstanding opportunities for the understanding of the important processes that formed the glaciated and land uplift areas of the Earth 's surface.

那些高站点海岸给那些理解形成的这重要过程买得起杰出机会使冰冻和土地举起地区的那些表面地球的。

7.Scientists study the glaciated 冰川覆盖的 areas to understand climate change better.

科学家研究glaciated 冰川覆盖的 地区，以更好地理解气候变化。

8.Hiking in glaciated 冰川覆盖的 terrain can be challenging but rewarding.

在glaciated 冰川覆盖的 地形中徒步旅行可能很具挑战性，但也很有收获。

9.The glaciated 冰川覆盖的 valleys provide a unique habitat for various species.

这些glaciated 冰川覆盖的 山谷为各种物种提供了独特的栖息地。

10.The region is known for its stunning landscapes, featuring numerous glaciated 冰川覆盖的 mountains.

该地区以其壮丽的景观而闻名，拥有许多glaciated 冰川覆盖的 山脉。

11.Many glaciers have retreated due to warming temperatures in glaciated 冰川覆盖的 regions.

由于气温上升，许多冰川在glaciated 冰川覆盖的地区已经后退。

作文

The Earth has undergone numerous changes throughout its history, with one of the most significant being the glaciation periods. These periods are marked by extensive ice coverage over large areas, creating what we refer to as glaciated regions. Understanding these glaciated landscapes is crucial for comprehending our planet's climatic past and its effects on current ecosystems. For example, during the last Ice Age, which peaked around 20,000 years ago, vast portions of North America, Europe, and Asia were covered by thick ice sheets. The weight of these ice masses shaped the land beneath them, carving out valleys and forming lakes as they advanced and retreated.The term glaciated specifically describes areas that have been affected by glaciers. Glaciers are massive, slow-moving bodies of ice that flow like rivers under their own weight. As they move, they erode the underlying rock and soil, leaving behind unique geological features. This process of erosion can create U-shaped valleys, fjords, and moraines, which are accumulations of debris left behind as glaciers melt. The study of glaciated areas provides valuable insights into the Earth's geological history and climate change.In addition to their geological significance, glaciated regions are also important for biodiversity. Many species have adapted to survive in these harsh environments, including specially adapted plants and animals that thrive in cold temperatures. The ecosystems in glaciated areas are often fragile and sensitive to changes in climate. As global temperatures rise, many of these regions are experiencing rapid melting of glaciers, which can lead to habitat loss and increased competition for resources among wildlife.Moreover, glaciated zones play a vital role in regulating the Earth's climate. Glaciers act as natural reservoirs, storing freshwater that is released gradually as they melt. This water is essential for millions of people who rely on it for drinking, agriculture, and industry. The melting of glaciers can disrupt this delicate balance, leading to both flooding and drought conditions in various parts of the world.In conclusion, the concept of glaciated regions encompasses much more than just frozen landscapes. It represents a complex interplay between geology, ecology, and climate science. As we continue to study these areas, we gain a deeper understanding of our planet's past and the challenges it faces in the future. Protecting glaciated environments is not only crucial for preserving biodiversity but also for maintaining the global water supply and mitigating the impacts of climate change. Therefore, it is imperative that we take action to safeguard these invaluable regions for future generations.

地球在其历史上经历了许多变化，其中最显著的变化之一是冰川期。这些时期的特征是大面积的冰覆盖，形成了我们所称的冰川化区域。理解这些冰川化的景观对于理解我们星球的气候过去及其对当前生态系统的影响至关重要。例如，在最后一次冰河时代，约在2万年前达到顶峰，北美、欧洲和亚洲的广阔地区被厚厚的冰层覆盖。这些冰块的重量塑造了它们下面的土地，雕刻出山谷，并在它们前进和退却时形成湖泊。术语冰川化专门描述那些受到冰川影响的地区。冰川是巨大的、缓慢移动的冰体，它们在自身重力的作用下像河流一样流动。当它们移动时，会侵蚀下面的岩石和土壤，留下独特的地质特征。这种侵蚀过程可以创造U型山谷、峡湾和冰碛，这些都是冰川融化时留下的碎片堆积物。研究冰川化地区为我们提供了有关地球地质历史和气候变化的宝贵见解。除了它们的地质重要性，冰川化地区对于生物多样性也很重要。许多物种已经适应在这些严酷环境中生存，包括专门适应寒冷温度的植物和动物。在冰川化地区的生态系统通常脆弱且对气候变化敏感。随着全球气温上升，许多这些地区正经历快速的冰川融化，这可能导致栖息地丧失以及野生动物之间资源竞争加剧。此外，冰川化区域在调节地球气候方面发挥着至关重要的作用。冰川充当自然水库，储存淡水，随着它们的融化逐渐释放。这些水对于数百万依赖于饮用水、农业和工业的人们至关重要。冰川的融化可能会打乱这种微妙的平衡，导致世界各地出现洪水和干旱现象。总之，冰川化区域的概念不仅仅涵盖了冰冻的景观。它代表了地质、生态和气候科学之间复杂的相互作用。随着我们继续研究这些地区，我们对我们星球的过去及其未来面临的挑战有了更深入的理解。保护冰川化环境不仅对保护生物多样性至关重要，而且对维持全球水资源供应和减轻气候变化影响也至关重要。因此，我们必须采取行动，保护这些宝贵的区域，以便为未来的世代保留。