oxygenic
简明释义
英[ˌɒksɪˈdʒenɪk]美[ˌɑːksɪˈdʒenɪk]
adj. 氧的;含氧的;似氧的
英英释义
Relating to or denoting a process that produces oxygen, especially photosynthesis in plants and certain bacteria. | 与产生氧气的过程有关,特别是植物和某些细菌中的光合作用。 |
单词用法
氧气光合作用 | |
氧气细菌 | |
氧气生成过程 | |
有氧和无氧 | |
氧气生物 | |
氧气环境 |
同义词
反义词
无氧的 | 某些细菌中发生无氧光合作用。 |
例句
1.Red is the new GREEN Researchers working with cyanobacteria may have extracted a new variety of chlorophyll that can use more near-infrared light than is typical for oxygenic photosynthetic organisms.
红色是一种新的绿色研究人员可能从蓝细菌中提取出一种新的叶绿素分子,这种新叶绿素分子比典型产氧光合生物中的叶绿素分子更能利用偏近红外波段的光。
2.Red is the new GREEN Researchers working with cyanobacteria may have extracted a new variety of chlorophyll that can use more near-infrared light than is typical for oxygenic photosynthetic organisms.
红色是一种新的绿色研究人员可能从蓝细菌中提取出一种新的叶绿素分子,这种新叶绿素分子比典型产氧光合生物中的叶绿素分子更能利用偏近红外波段的光。
3.Oxidation of magnetite grains is divided into tow stages, according to temperature, and iron ion diffuses at lower temperature and diffusion amount of oxygenic ion increases at higher temperature.
磁铁矿颗粒氧化按温度划分为两段,在较低温度下主要是铁离子扩散,较高温度下氧离子扩散的扩散能力增强。
4."I think this is a very important new development and is the first new type of chlorophyll discovered in an oxygenic organism in sixty years," he wrote via E-mail.
“我认为这是一个非常重要的新进展,而且也是60年里在产氧生物中发现的第一个新叶绿素分子”他在Email里写道。
5.While after being treated with electronic method, the content of oxygenic groups of all ranks of coal decreases in a certain extent.
当采用不同的电化学法还原处理后,不同变质程度煤的含氧官能团也都有不同程度的减少。
6.New oxygenic bleaching AIDS not contains NaOH, its process does not need infiltrator, stabilization, chelating and purifier etc.
新型氧漂助剂不含烧碱,其工艺无需渗透剂、稳定剂、螯合剂和精练剂等。
7.The effect of oxygenic ion and organic of composition of electrolyte on the breakdown voltage of wet tantalum capacitors was .
该文研究了电解质中的负离子浓度及有机物的含量对液体钽电解电容器闪火电压的影响。
8.The result shows that the oxygenic groups decrease with the increase of coal ranks.
结果表明,随着煤的变质程度增高,含氧官能团减少。
9.The process of photosynthesis is primarily carried out by oxygenic 产氧的 organisms like plants and cyanobacteria.
光合作用主要由像植物和蓝藻这样的产氧的生物进行。
10.In contrast to oxygenic 产氧的 photosynthesis, some bacteria perform anoxygenic photosynthesis.
与产氧的光合作用相对的是一些细菌进行无氧光合作用。
11.Research shows that oxygenic 产氧的 photosynthetic processes are crucial for maintaining atmospheric oxygen levels.
研究表明,产氧的光合作用过程对于维持大气氧气水平至关重要。
12.The oxygenic 产氧的 nature of certain algae makes them vital for aquatic ecosystems.
某些藻类的产氧的特性使它们对水生生态系统至关重要。
13.Cyanobacteria are known for their oxygenic 产氧的 capabilities, which played a significant role in Earth's history.
蓝藻因其产氧的能力而闻名,这在地球历史上发挥了重要作用。
作文
In the realm of biology and ecology, the term oxygenic refers to processes that produce oxygen as a byproduct. This concept is particularly important when discussing photosynthesis, the process by which green plants, algae, and certain bacteria convert sunlight into chemical energy. During this process, they take in carbon dioxide and water, and through a series of complex reactions, they release oxygen into the atmosphere. The significance of oxygenic photosynthesis cannot be overstated, as it is the primary source of oxygen for our planet's atmosphere and is essential for the survival of aerobic organisms, including humans. The majority of the Earth's oxygen is produced by oxygenic photosynthetic organisms, primarily phytoplankton in the oceans. These microscopic plants not only contribute to the oxygen supply but also form the base of the aquatic food web. When we consider the vastness of the oceans, it becomes clear that oxygenic photosynthesis plays a crucial role in maintaining the balance of life on Earth. Furthermore, the process of oxygenic photosynthesis has significant implications for climate change. As these organisms absorb carbon dioxide during photosynthesis, they help mitigate the greenhouse effect. This natural mechanism is vital in regulating the Earth's temperature and combating global warming. Therefore, protecting ecosystems that support oxygenic photosynthesis is essential for environmental sustainability. In contrast to oxygenic photosynthesis, there exists another type known as anoxygenic photosynthesis, which does not produce oxygen. This process is carried out by certain types of bacteria that utilize other substances, such as hydrogen sulfide, instead of water. While less common, anoxygenic photosynthesis highlights the diversity of metabolic pathways in nature and the adaptability of life forms in various environments. The study of oxygenic processes extends beyond just plants and microorganisms; it also has implications for biotechnology and renewable energy. Researchers are exploring ways to harness the principles of oxygenic photosynthesis to develop sustainable energy sources, such as biofuels. By mimicking the natural processes that occur in plants, scientists hope to create efficient systems that can convert sunlight into usable energy while simultaneously producing oxygen. In conclusion, the term oxygenic encapsulates a fundamental aspect of life on Earth. From the air we breathe to the food we consume, the processes associated with oxygenic photosynthesis are integral to our ecosystem. Understanding this term helps us appreciate the delicate balance of our environment and the importance of protecting the organisms that contribute to it. As we face challenges such as climate change and habitat destruction, recognizing the value of oxygenic processes will guide us in making informed decisions for a sustainable future.
在生物学和生态学的领域中,术语oxygenic指的是产生氧气作为副产品的过程。这个概念在讨论光合作用时尤为重要,光合作用是绿色植物、藻类和某些细菌将阳光转化为化学能的过程。在这一过程中,它们吸收二氧化碳和水,通过一系列复杂的反应,将氧气释放到大气中。oxygenic光合作用的重要性不言而喻,因为它是我们星球大气中氧气的主要来源,并且对包括人类在内的有氧生物的生存至关重要。 地球上大多数的氧气都是由oxygenic光合生物,主要是海洋中的浮游植物产生的。这些微小的植物不仅为氧气供应做出贡献,而且形成了水生食物链的基础。当我们考虑到海洋的广阔时,就会明白oxygenic光合作用在维持地球生命平衡方面的关键作用。 此外,oxygenic光合作用的过程对气候变化有重要影响。当这些生物在光合作用过程中吸收二氧化碳时,它们有助于减轻温室效应。这一自然机制对于调节地球温度和应对全球变暖至关重要。因此,保护支持oxygenic光合作用的生态系统对环境可持续性至关重要。 与oxygenic光合作用相对的是无氧光合作用,这种过程不产生氧气。某些类型的细菌进行这种过程,利用其他物质,如硫化氢,而不是水。虽然不太常见,但无氧光合作用突显了自然界中代谢途径的多样性以及生命形式在各种环境中的适应能力。 对oxygenic过程的研究不仅限于植物和微生物;它还对生物技术和可再生能源有意义。研究人员正在探索利用oxygenic光合作用的原理来开发可持续能源源,例如生物燃料。通过模仿植物中发生的自然过程,科学家希望创造出能够将阳光转化为可用能量的高效系统,同时产生氧气。 总之,术语oxygenic概括了地球生命的一个基本方面。从我们呼吸的空气到我们消费的食物,伴随oxygenic光合作用的过程对我们的生态系统至关重要。理解这个术语有助于我们欣赏环境的微妙平衡以及保护为其作出贡献的生物的重要性。在面对气候变化和栖息地破坏等挑战时,认识到oxygenic过程的价值将指导我们为可持续未来做出明智的决策。
文章标题:oxygenic的意思是什么
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