augmentation of resistance

简明释义

阻力增值

英英释义

例句

1.The augmentation of resistance in materials is crucial for developing more durable products.

材料的抗性增强对开发更耐用的产品至关重要。

2.The augmentation of resistance in bacteria can lead to challenges in antibiotic treatments.

细菌的抗性增强可能导致抗生素治疗面临挑战。

3.The study focused on the augmentation of resistance in cancer cells to improve treatment outcomes.

该研究集中于癌细胞的抗药性增强以改善治疗效果。

4.Farmers are exploring methods for the augmentation of resistance in crops against pests.

农民正在探索提高作物对害虫的抗性增强的方法。

5.Researchers are investigating the augmentation of resistance mechanisms in plant species.

研究人员正在调查植物物种中的抗性增强机制。

作文

In recent years, the concept of the augmentation of resistance has gained significant attention in various fields, particularly in medicine and environmental science. This term refers to the process of enhancing the ability of organisms, systems, or materials to withstand adverse conditions or stressors. Understanding this concept is crucial as it has implications for health, sustainability, and technological advancement. In the medical field, the augmentation of resistance is often discussed in relation to antibiotic resistance. As bacteria evolve and adapt to the antibiotics designed to kill them, the need for new strategies to combat these resilient strains becomes imperative. Researchers are exploring ways to enhance the immune response in patients, thereby increasing their natural 抗性增强 to infections. For example, vaccines can stimulate the body’s immune system to recognize and fight off specific pathogens, leading to a more robust defense against diseases. Moreover, in agriculture, the augmentation of resistance plays a vital role in developing crops that can withstand pests, diseases, and changing climatic conditions. Scientists are working on genetically modifying plants to enhance their natural defenses, making them more resilient and reducing the need for chemical pesticides. This not only contributes to food security but also promotes sustainable farming practices by minimizing environmental impact. In the realm of environmental science, the augmentation of resistance is crucial for ecosystems facing the challenges of climate change. Many species are struggling to survive as their habitats are altered by rising temperatures and shifting weather patterns. Conservation efforts are now focused on enhancing the resilience of these ecosystems, enabling them to adapt and thrive despite these changes. This can involve restoring habitats, protecting biodiversity, and implementing policies that support ecological balance. Technological advancements have also been influenced by the idea of augmentation of resistance. In materials science, engineers are developing stronger and more durable materials that can resist wear and tear, corrosion, and other forms of degradation. This is particularly important in industries such as construction, aerospace, and manufacturing, where material failure can lead to significant economic losses and safety hazards. By focusing on the augmentation of resistance in materials, we can create products that last longer and perform better under extreme conditions. In conclusion, the augmentation of resistance is a multifaceted concept that impacts various aspects of our lives. Whether it is enhancing human health through improved immunity, developing resilient agricultural practices, protecting ecosystems from climate change, or creating advanced materials, the importance of this concept cannot be overstated. As we continue to face global challenges, understanding and applying the principles of augmentation of resistance will be essential for ensuring a sustainable and healthy future for all. Ultimately, fostering a deeper understanding of the augmentation of resistance can empower individuals, communities, and nations to take proactive measures in addressing the myriad of challenges we face today. By investing in research, education, and innovative solutions, we can enhance our resilience and adaptability in an ever-changing world.

近年来，‘抗性增强’这一概念在各个领域，尤其是医学和环境科学中引起了广泛关注。这个术语指的是增强生物体、系统或材料抵御不利条件或压力源的能力的过程。理解这一概念至关重要，因为它对健康、可持续性和技术进步具有深远的影响。在医学领域，‘抗性增强’常常与抗生素抗性相关讨论。随着细菌进化并适应旨在杀死它们的抗生素，开发新的策略来对抗这些抵抗力强的菌株变得尤为重要。研究人员正在探索增强患者免疫反应的方法，从而提高他们对感染的自然‘抗性增强’。例如，疫苗可以刺激人体免疫系统识别并抵抗特定病原体，从而形成更强大的疾病防御。此外，在农业中，‘抗性增强’在开发能够抵御害虫、疾病和气候变化的作物方面发挥着至关重要的作用。科学家们正在致力于转基因植物，以增强其自然防御能力，使其更加坚韧，从而减少对化学农药的需求。这不仅有助于粮食安全，还通过最小化环境影响来促进可持续农业实践。在环境科学领域，‘抗性增强’对于面临气候变化挑战的生态系统至关重要。许多物种在栖息地因气温上升和天气模式改变而苦苦挣扎。保护工作现在集中在增强这些生态系统的抵抗力，使它们能够适应并在这些变化中繁荣。这可能涉及恢复栖息地、保护生物多样性和实施支持生态平衡的政策。技术进步也受到了‘抗性增强’理念的影响。在材料科学中，工程师们正在开发更强大、更耐用的材料，以抵抗磨损、腐蚀和其他形式的降解。这在建筑、航空航天和制造等行业尤为重要，因为材料失效可能导致重大的经济损失和安全隐患。通过关注材料的‘抗性增强’，我们可以创造出更长久且在极端条件下表现更好的产品。总之，‘抗性增强’是一个多方面的概念，影响着我们生活的各个方面。无论是通过改善免疫力增强人类健康、发展韧性农业实践、保护生态系统免受气候变化影响，还是创造先进材料，这一概念的重要性都不容忽视。随着我们继续面临全球挑战，理解和应用‘抗性增强’的原则将对确保所有人可持续和健康的未来至关重要。最终，深入理解‘抗性增强’可以赋予个人、社区和国家主动应对当今面临的各种挑战的能力。通过投资于研究、教育和创新解决方案，我们可以增强我们的韧性和适应能力，以应对不断变化的世界。