hibernate
简明释义
v. 冬眠;(人)(长期)蛰居,不活动
第 三 人 称 单 数 h i b e r n a t e s
现 在 分 词 h i b e r n a t i n g
过 去 式 h i b e r n a t e d
过 去 分 词 h i b e r n a t e d
英英释义
单词用法
冬季冬眠 | |
在洞穴中冬眠 | |
冬眠的动物 | |
进入冬眠状态 | |
结束冬眠 | |
冬眠期 |
同义词
| 睡眠 | 熊在冬季休眠。 | ||
| 休眠 | 一些植物在寒冷的月份休眠。 | ||
| 暂停 | 计算机将暂停操作以节省能源。 | ||
| 安睡 | 经过漫长的一天,他进入了深度睡眠。 |
反义词
| 活跃的 | 她在社区中非常活跃。 | ||
| 清醒的 | 经过一夜的长睡,他终于醒来,神清气爽。 | ||
| 运作中的 | 这台机器现在运作正常。 |
例句
1.Hibernate architecture has three main components.
Hibernate架构有三个主要的组件。
2.Another option is to hibernate the system.
另一个选项是休眠系统。
3.Perform database operations using Hibernate
使用Hibernate执行数据库操作
4.If a problem occurs, Hibernate will throw an exception.
如果出现任何问题,Hibernate将会抛出异常。
5.To correct this, I use a Hibernate named query.
为更正该问题,我使用了Hibernate命名查询。
6.It is that even to this day bears have short tails, hibernate all winter, and have no love at all for fox.
这就是为什么即使现在熊也只有短短的尾巴,整个冬天都冬眠,而且一点也不喜欢狐狸。
7.Hibernate supports this approach through example queries.
Hibernate通过示例(example)查询支持这种方式。
8.Building a multi-tenant e-commerce application using Hibernate shards.
使用HibernateShards构建一个多租户电子商务应用程序。
9.Bears typically hibernate during the winter months to conserve energy.
熊通常在冬季冬眠以节省能量。
10.During periods of extreme cold, frogs may hibernate at the bottom of ponds.
在极端寒冷的时期,青蛙可能会在池塘底部冬眠。
11.Some insects also hibernate during the winter to avoid freezing temperatures.
一些昆虫也在冬天冬眠以避免结冰的温度。
12.Certain species of turtles hibernate in mud at the bottom of lakes.
某些种类的乌龟在湖底的泥土中冬眠。
13.Some animals need to hibernate for several months to survive the cold weather.
一些动物需要冬眠几个月以度过寒冷的天气。
作文
As winter approaches, many animals begin to prepare for the cold months ahead. One of the most fascinating adaptations in the animal kingdom is the ability to hibernate. This term refers to a state of inactivity and metabolic depression in endotherms, which allows them to survive harsh winter conditions when food is scarce. During this period, animals such as bears, bats, and ground squirrels enter a deep sleep, significantly lowering their heart rate and body temperature. This adaptation is crucial for their survival, as it conserves energy and reduces the need for food.
Hibernation is not simply a long nap; it is a complex physiological process. Animals that hibernate undergo various changes in their bodies. For instance, they build up fat reserves during the fall, which will serve as their primary source of energy while they are dormant. The fat is metabolized slowly, allowing the animal to survive for months without eating. Additionally, the heart rate of a hibernating animal can drop from a normal rate of around 100 beats per minute to as low as 10 beats per minute. This drastic reduction in heart activity helps to conserve energy.
Interestingly, not all animals experience hibernation in the same way. Some species, like the groundhog, have a true hibernation cycle where they stay in a state of deep sleep for an extended period. Others, like certain species of frogs and turtles, enter a state of brumation, which is similar but not as deep. Brumating animals may wake up occasionally during the winter to drink water or move around, unlike true hibernators who remain completely inactive.
The reasons behind hibernation extend beyond just surviving winter. It is also a strategy to avoid predators and environmental stressors. By staying hidden and inactive, these animals reduce their chances of being spotted by predators. Furthermore, hibernation allows them to wait for more favorable conditions to emerge, ensuring their survival and the continuation of their species.
In recent years, scientists have been studying hibernation to understand its potential applications for humans. For example, if we could unlock the secrets of hibernation, it might lead to advancements in medicine, space travel, and even aging. Imagine a future where humans could enter a state of suspended animation during long space missions, minimizing the need for resources and reducing the effects of prolonged weightlessness on the body.
In conclusion, hibernation is a remarkable adaptation that allows animals to survive challenging winter conditions. Through a series of physiological changes, these creatures can conserve energy and wait for better days. As we continue to explore the mysteries of hibernation, we may uncover valuable insights that could benefit not only wildlife but also humanity as a whole. Understanding this natural phenomenon reminds us of the incredible resilience of life and the various strategies that species employ to thrive in their environments.
随着冬天的临近,许多动物开始为即将到来的寒冷月份做准备。动物王国中一个最迷人的适应性是能够冬眠。这个术语指的是内温动物的一种不活动和新陈代谢抑制的状态,这使它们能够在食物稀缺的恶劣冬季条件下生存。在这一时期,像熊、蝙蝠和地松鼠等动物进入深度睡眠,显著降低心率和体温。这种适应性对它们的生存至关重要,因为它节省了能量并减少了对食物的需求。
冬眠并不仅仅是一个长时间的打盹;这是一个复杂的生理过程。那些冬眠的动物在身体上经历各种变化。例如,它们在秋天期间积累脂肪储备,这将在它们休眠期间作为主要的能量来源。脂肪被慢慢代谢,使动物可以在几个月内不进食。此外,冬眠动物的心率可以从正常的每分钟约100次降至每分钟仅10次。这种心脏活动的剧烈减少有助于节省能量。
有趣的是,并不是所有动物以相同的方式经历冬眠。一些物种,如土拨鼠,具有真正的冬眠周期,在此期间它们保持深度睡眠很长时间。其他一些物种,如某些青蛙和乌龟,则进入一种类似但不那么深的状态,称为休眠。处于休眠状态的动物可能在冬季偶尔醒来喝水或活动,而真正的冬眠动物则完全不活动。
冬眠背后的原因不仅限于生存冬季。它也是一种避免捕食者和环境压力的策略。通过保持隐藏和不活动,这些动物减少了被捕食者发现的机会。此外,冬眠使它们能够等待更有利的条件出现,从而确保它们的生存和物种的延续。
近年来,科学家们正在研究冬眠,以了解其对人类的潜在应用。例如,如果我们能够解锁冬眠的秘密,这可能会导致医学、太空旅行甚至衰老方面的进步。想象一下一个未来,人类可以在长途太空任务中进入悬浮动画状态,最大限度地减少资源需求并减少长期失重对身体的影响。
总之,冬眠是一种了不起的适应性,使动物能够在艰难的冬季条件下生存。通过一系列生理变化,这些生物可以节省能量并等待更好的日子。当我们继续探索冬眠的奥秘时,我们可能会发现有价值的见解,这不仅可以使野生动物受益,也可以使人类受益。理解这一自然现象提醒我们生命的惊人韧性以及物种为在其环境中繁荣而采用的各种策略。
