deoxygenize
简明释义
英[/diˈɑɪɡzənˌaɪz/]美[/diˈɑɪɡzənˌaɪz/]
v. 除氧,还原
第 三 人 称 单 数 d e o x y g e n i z e s
现 在 分 词 d e o x y g e n i z i n g
过 去 式 d e o x y g e n i z e d
过 去 分 词 d e o x y g e n i z e d
英英释义
从物质或环境中去除氧气。 |
单词用法
同义词
反义词
| 富氧化 | The process of oxygenating the blood is essential for maintaining health. | 富氧化血液的过程对维持健康至关重要。 | |
| 充气 | Aeration of the soil improves its ability to support plant growth. | 土壤的充气改善了其支持植物生长的能力。 |
例句
1.To preserve the sample, scientists often deoxygenize 去氧化 it by using nitrogen gas.
为了保存样本,科学家们通常使用氮气对其进行去氧化。
2.The medical team had to deoxygenize 去氧化 the blood before the transfusion.
医疗团队在输血前必须对血液进行去氧化。
3.The process of deoxygenizing 去氧化 water is crucial in certain industrial applications.
在某些工业应用中,去氧化水的过程至关重要。
4.They had to deoxygenize 去氧化 the air in the chamber to create an anaerobic environment.
他们必须对舱内的空气进行去氧化以创造厌氧环境。
5.In the experiment, they needed to deoxygenize 去氧化 the solution to prevent any reactions.
在实验中,他们需要对溶液进行去氧化以防止任何反应。
作文
In the field of environmental science, understanding the processes that affect our atmosphere is crucial. One such process is the ability of certain organisms to deoxygenize the water in which they live. This term refers to the removal of oxygen from a substance, particularly in aquatic environments where the balance of oxygen is vital for the survival of marine life. When we talk about deoxygenize (去氧化) in the context of aquatic ecosystems, we often refer to the activities of bacteria and other microorganisms that consume oxygen during decomposition. The importance of oxygen in water cannot be overstated. Fish, aquatic plants, and various microorganisms depend on dissolved oxygen to survive. However, when organic matter decomposes, it can lead to a significant decrease in oxygen levels, a process known as hypoxia. This phenomenon can result in dead zones in oceans and lakes where life cannot thrive. Understanding how and why certain conditions lead to the deoxygenize (去氧化) of water bodies is essential for environmental management and conservation efforts.Human activities also play a substantial role in this process. Nutrient runoff from agriculture, sewage discharge, and industrial waste can introduce excessive nutrients into water bodies. These nutrients promote algal blooms, which eventually die off and decompose, leading to a rapid deoxygenize (去氧化) of the water. The consequences are dire; fish kills and loss of biodiversity are just a few of the impacts that can arise from low oxygen levels.To combat the negative effects of deoxygenize (去氧化), scientists and environmentalists are exploring various strategies. One approach is to reduce nutrient pollution by implementing better agricultural practices that minimize runoff. Additionally, restoring wetlands can help filter out pollutants before they reach larger water bodies, thereby maintaining healthier oxygen levels.Public awareness and education are also vital in addressing the challenges posed by deoxygenize (去氧化). Communities can engage in clean-up efforts, advocate for better waste management policies, and support sustainable agricultural practices. By fostering a deeper understanding of how human actions contribute to the deoxygenize (去氧化) of our water systems, we can work towards solutions that protect our aquatic environments.In conclusion, the term deoxygenize (去氧化) encapsulates a critical environmental issue that affects ecosystems worldwide. Through collaborative efforts in research, policy-making, and community engagement, we can mitigate the impacts of this process and ensure that our water bodies remain vibrant and full of life. The health of our planet's waters depends on our ability to understand and address the factors that lead to deoxygenize (去氧化), making it imperative for us to act responsibly and sustainably.
在环境科学领域,理解影响我们大气的过程至关重要。其中一个过程是某些生物去氧化它们所生活的水体的能力。这个术语指的是从物质中移除氧气,尤其是在水生环境中,氧气的平衡对于海洋生物的生存至关重要。当我们谈论水体的去氧化时,我们通常指的是细菌和其他微生物在分解过程中消耗氧气的活动。水中氧气的重要性不容小觑。鱼类、水生植物和各种微生物依赖溶解氧生存。然而,当有机物分解时,可能会导致氧气水平显著下降,这一过程称为缺氧。这种现象可能导致海洋和湖泊中出现死区,生命无法生存。理解何时以及为何某些条件导致水体的去氧化对环境管理和保护工作至关重要。人类活动也在这一过程中发挥了重要作用。农业的营养物质径流、污水排放和工业废物可以将过量的营养物质引入水体。这些营养物质促进了藻类的繁殖,最终死亡并分解,导致水体迅速去氧化。后果是可怕的;鱼类死亡和生物多样性的丧失只是低氧水平可能带来的几个影响。为了应对去氧化的负面影响,科学家和环保主义者正在探索各种策略。一种方法是通过实施更好的农业实践来减少营养污染,从而最小化径流。此外,恢复湿地可以帮助在污染物到达较大水体之前进行过滤,从而维持更健康的氧气水平。公众意识和教育在解决去氧化带来的挑战中也至关重要。社区可以参与清理工作,倡导更好的废物管理政策,并支持可持续农业实践。通过加深对人类行为如何导致水体去氧化的理解,我们可以朝着保护水生环境的解决方案努力。总之,去氧化这一术语概括了影响全球生态系统的关键环境问题。通过在研究、政策制定和社区参与方面的协作努力,我们可以减轻这一过程的影响,确保我们的水体保持生机勃勃和充满生命。我们星球水域的健康取决于我们理解和应对导致去氧化的因素的能力,使我们有必要负责任和可持续地行动。
