unfrozen

简明释义

英[ʌnˈfroʊzən]美[ʌnˈfroʊzən]

adj. 不冻的，化了冻的

v. 解冻，溶解；解除（资产冻结或经济控制）（unfreeze 的过去分词）

英英释义

单词用法

同义词

反义词

例句

1.Were what has been set in motion unfrozen.

原已设定的动中之物是否未被冻住。

2.Siberia's Lake Baikal is the deepest lake in the world—at over a mile (1,700 meters)—and holds an incredible 20 percent of Earth's unfrozen fresh water.

西伯利亚的贝加尔湖是世界上最深的湖——超过1，700米——令人难以置信地拥有地球上20%的不冻淡水。

3.If column reordering is enabled, the frozen columns are treated as a group distinct from the unfrozen columns.

如果允许对列进行重新排序，则将冻结的列视为一组，以区别于未冻结的列。

4.If you cannot bring them inside, provide adequate, warm shelter and unfrozen water to drink.

如果你不能把它们带到室内，也要提供足够大且温暖的窝和不结冰的水。

5.It provides long and fertile planting seasons on large expanses of unfrozen land essential to feed 8 billion to 9 billion people around the world.

温暖气候让大面积的解冻土地得到更长和肥沃的种植季节，这对于全世界80亿到90亿人民的生存至关重要。

6.As far as the frozen soil is concerned, the chemical of unfrozen is a function of the temperature and the amount of unfrozen water.

冻土中的未冻水的化学势是未冻水含量和温度的二元函数。

7.We need to unfrozen the assets to access the funds for our project.

我们需要解冻资产，以便为我们的项目获取资金。

8.The water in the pipes has finally unfrozen after the warm weather set in.

随着温暖天气的到来，管道中的水终于解冻了。

9.The lake unfrozen quickly after the spring sun began to shine.

春天的阳光开始照耀后，湖面很快就解冻了。

10.She left the chicken out to unfrozen before cooking dinner.

她把鸡肉放出来以便在做晚餐之前解冻。

11.Make sure to unfrozen the vegetables before adding them to the stir-fry.

确保在将蔬菜加入炒菜之前先解冻它们。

作文

In the realm of climate change and environmental science, the term unfrozen holds significant importance. As global temperatures rise, vast areas of permafrost, which are permanently frozen ground, are beginning to thaw. This process is referred to as unfrozen permafrost, and it has profound implications for our planet. When permafrost thaws, it releases greenhouse gases such as carbon dioxide and methane into the atmosphere, exacerbating the already critical issue of global warming. Scientists have been studying these effects closely, as the unfrozen layers of soil can lead to a feedback loop that accelerates climate change. The implications of unfrozen permafrost extend beyond just greenhouse gas emissions. The melting of these frozen grounds can destabilize the infrastructure in Arctic regions, where many communities rely on the stability of the ground for their homes, roads, and other essential services. As the ground becomes unfrozen, it can lead to erosion and landslides, posing a significant risk to local populations. These changes not only threaten human life but also disrupt local ecosystems. Plants and animals that have adapted to the cold conditions may struggle to survive as their habitats transform due to the unfrozen terrain. Moreover, the unfrozen state of permafrost can also release ancient organic matter that has been trapped for millennia. This organic material, once exposed to oxygen, begins to decompose, further contributing to greenhouse gas emissions. The concern is that we are witnessing a rapid change in our environment, where the unfrozen permafrost could lead to significant and irreversible damage to our climate system. To address these challenges, researchers are working on various strategies to mitigate the effects of unfrozen permafrost. These include monitoring the temperature changes in permafrost regions, developing new technologies to stabilize the ground, and implementing policies aimed at reducing overall greenhouse gas emissions. In conclusion, the concept of unfrozen is not just a scientific term; it represents a critical challenge that humanity faces today. As we continue to study the impacts of climate change, understanding the dynamics of unfrozen permafrost will be essential in our efforts to protect the environment and ensure a sustainable future. The thawing of these ancient grounds serves as a stark reminder of the urgent need for action against climate change, emphasizing the interconnectedness of our planet's systems and the responsibility we have to safeguard them for future generations.

在气候变化和环境科学的领域中，术语unfrozen具有重要意义。随着全球气温的上升，大量的永久冻土——即永久冻结的土壤，开始解冻。这一过程被称为unfrozen冻土，它对我们的星球产生了深远的影响。当冻土解冻时，它会释放出二氧化碳和甲烷等温室气体到大气中，加剧了已经严峻的全球变暖问题。科学家们密切研究这些影响，因为unfrozen的土层可能导致加速气候变化的反馈循环。unfrozen冻土的影响不仅仅限于温室气体排放。融化的这些冰冻土地会破坏北极地区的基础设施，许多社区依赖地面的稳定性来支撑他们的房屋、道路和其他基本服务。随着地面变得unfrozen，可能会导致侵蚀和滑坡，给当地居民带来重大风险。这些变化不仅威胁到人类生命，还会扰乱当地生态系统。适应寒冷条件的植物和动物可能会因其栖息地因unfrozen的地形而转变而难以生存。此外，unfrozen的冻土状态还可能释放出数千年来被困的古老有机物质。这些有机物质一旦暴露在氧气中，就开始分解，进一步增加温室气体排放。人们担心的是，我们正在目睹一个快速变化的环境，其中unfrozen的冻土可能会导致我们气候系统的重大和不可逆转的损害。为了应对这些挑战，研究人员正在开发各种策略来减轻unfrozen冻土的影响。这些策略包括监测冻土地区的温度变化、开发新技术以稳定地面以及实施旨在减少整体温室气体排放的政策。总之，unfrozen的概念不仅仅是一个科学术语；它代表着人类今天面临的一个关键挑战。随着我们继续研究气候变化的影响，理解unfrozen冻土的动态将是我们保护环境和确保可持续未来努力的关键。古老土地的融化提醒我们，迫切需要采取行动应对气候变化，强调了我们星球系统的相互关联性以及我们保护它们的责任，以造福后代。