cold resistance
简明释义
冷态电阻
英英释义
The ability of a material, organism, or system to withstand low temperatures without suffering damage or loss of function. | 一种材料、生物或系统在低温下不受损害或功能丧失的能力。 |
例句
1.The new smartphone model boasts improved cold resistance for outdoor enthusiasts.
这款新智能手机型号拥有更好的抗寒能力,适合户外爱好者。
2.Farmers are looking for crops with better cold resistance to survive harsh winters.
农民们正在寻找具有更好抗寒能力的作物,以应对严酷的冬天。
3.This jacket is designed with cold resistance technology to keep you warm in freezing temperatures.
这款夹克采用抗寒技术,可以在严寒的温度中保持温暖。
4.The winter tires have excellent cold resistance, providing better grip on icy roads.
这些冬季轮胎具有出色的抗寒能力,在冰雪覆盖的道路上提供更好的抓地力。
5.Scientists are studying the cold resistance of different plant species to enhance agricultural resilience.
科学家们正在研究不同植物种类的抗寒能力,以增强农业的韧性。
作文
In various aspects of life, the ability to withstand harsh conditions is crucial. One such condition is extreme cold, which can pose significant challenges to both humans and nature. The concept of cold resistance (耐寒能力) is essential for understanding how different organisms adapt to low temperatures and how humans can prepare for cold weather. This essay will explore the importance of cold resistance (耐寒能力), its implications in nature, and its relevance to human activities.Firstly, many animals have developed remarkable adaptations to survive in frigid environments. For example, polar bears have thick layers of fat and fur that provide excellent insulation against the cold. Their bodies are designed for cold resistance (耐寒能力), allowing them to maintain their core temperature even in sub-zero conditions. Similarly, certain species of fish and insects produce antifreeze proteins that prevent their bodily fluids from freezing, showcasing a fascinating example of cold resistance (耐寒能力) at the molecular level.Plants also exhibit cold resistance (耐寒能力) through various strategies. Some plants enter a dormant state during winter, slowing down their metabolic processes to conserve energy. Others develop thicker cell walls or produce protective chemicals that help them endure freezing temperatures. For instance, evergreen trees retain their needles year-round, which are adapted to minimize water loss and withstand snow accumulation. These adaptations not only highlight the resilience of life but also demonstrate the intricate balance of ecosystems where cold resistance (耐寒能力) plays a vital role.On the other hand, humans have found ways to enhance their own cold resistance (耐寒能力) through technology and innovation. In regions prone to severe winters, people rely on heated shelters, insulated clothing, and advanced heating systems to combat the cold. Furthermore, outdoor enthusiasts, such as hikers and skiers, often undergo training to improve their tolerance to low temperatures. Understanding cold resistance (耐寒能力) is critical for ensuring safety and comfort in extreme weather conditions.Moreover, scientists are researching cold resistance (耐寒能力) to develop crops that can thrive in colder climates. By studying the genetic traits of frost-resistant plants, researchers aim to create food sources that can withstand unpredictable weather patterns caused by climate change. This has significant implications for food security and agricultural sustainability, particularly in regions that experience harsh winters.In conclusion, the concept of cold resistance (耐寒能力) encompasses a wide range of adaptations seen in nature and innovations made by humans. From the remarkable abilities of animals and plants to survive in freezing temperatures to the technological advancements that allow humans to thrive in cold environments, cold resistance (耐寒能力) is a testament to the resilience of life. As we continue to face the challenges posed by climate change, understanding and improving our cold resistance (耐寒能力) will be crucial for our survival and well-being.
在生活的各个方面,抵御恶劣条件的能力至关重要。其中一个条件是极端寒冷,这对人类和自然都带来了重大挑战。冷抗性(耐寒能力)的概念对于理解不同生物如何适应低温以及人类如何为寒冷天气做准备至关重要。本文将探讨冷抗性(耐寒能力)的重要性、其在自然界中的影响,以及其与人类活动的相关性。首先,许多动物已经发展出显著的适应能力,以在寒冷环境中生存。例如,北极熊拥有厚厚的脂肪层和毛皮,为其提供了极好的绝缘效果。它们的身体设计具有冷抗性(耐寒能力),使它们能够在零下条件下维持核心温度。类似地,某些鱼类和昆虫会产生防冻蛋白,防止其体液结冰,展示了冷抗性(耐寒能力)在分子层面的迷人例子。植物也通过各种策略表现出冷抗性(耐寒能力)。一些植物在冬季进入休眠状态,减缓其代谢过程以节省能量。其他植物则发展出更厚的细胞壁或产生保护性化学物质,帮助它们忍受冰冻温度。例如,常绿树木全年保持针叶,适应以最小化水分损失并承受积雪。这些适应不仅突显了生命的韧性,也展示了生态系统的微妙平衡,其中冷抗性(耐寒能力)发挥着重要作用。另一方面,人类也通过技术和创新来增强自身的冷抗性(耐寒能力)。在易受严冬影响的地区,人们依赖加热的住所、绝缘衣物和先进的供暖系统来抵御寒冷。此外,户外爱好者,如远足者和滑雪者,通常会接受训练,以提高他们对低温的耐受力。理解冷抗性(耐寒能力)对于确保在极端天气条件下的安全和舒适至关重要。此外,科学家正在研究冷抗性(耐寒能力),以开发能够在寒冷气候中茁壮成长的作物。通过研究耐霜植物的遗传特征,研究人员旨在创造能够抵御气候变化引起的不稳定天气模式的食物来源。这对食品安全和农业可持续性具有重要意义,尤其是在经历严冬的地区。总之,冷抗性(耐寒能力)的概念涵盖了自然界中观察到的各种适应性和人类所做的创新。从动物和植物在冰冷温度下生存的非凡能力,到让人类在寒冷环境中茁壮成长的技术进步,冷抗性(耐寒能力)证明了生命的韧性。随着我们继续面临气候变化带来的挑战,理解和改善我们的冷抗性(耐寒能力)对于我们的生存和福祉至关重要。
