anaerobic respiration
英 [ˌænəˈrəʊbɪk ˌrespəˈreɪʃn]
美 [ˌæneˈroʊbɪk ˌrespəˈreɪʃn]
缺氧呼吸;缺气(氧)呼吸(作用)
双语例句
- Anaerobic respiration occurs only in particularly active tissues such as muscles during severe exercise.
厌氧呼吸只有在处于剧烈运动状态的肌肉等特别活跃的组织中才会发生。 - Ethanol is a product of anaerobic respiration in plants, and waterlogged roots suffer from a shortage of oxygen.
乙醇是植物无氧呼吸的产物,水淹的植物根系受到短时间的缺氧。 - Geological significances of anaerobic respiration lie in that reduction of Fe ( III) oxides relate change of Si and P. Which increases release of these nutrient elements.
Fe(III)氧化物的还原偶联着Si、P等元素的变化,对提高这些营养元素的有效性发挥着重要作用。 - The results suggested that` Dongfangxingguang 'could maintain high levels of aerobic respiration, and ethanol fermentation was the primary pathway of anaerobic respiration under hypoxic stress whereas lactate fermentation was the leading pathway of anaerobic respiration under hypoxia stress in` Xiyu 1'.
说明‘东方星光’在低氧胁迫下能保持较高的有氧呼吸水平,无氧呼吸的主要途径为乙醇发酵,而‘西域一号’在低氧胁迫下无氧呼吸的主要途径为乳酸发酵。 - Ca~ ( 2+) Effects on the Growth of Cucumber Seedlings and the Anaerobic Respiration Enzymes in their Roots under Rhizosphere Hypoxia Stress
Ca~(2+)对低氧胁迫下黄瓜幼苗生长和根系无氧呼吸酶的影响 - These processes are controlled by anaerobic decomposition of soil organic matter and respiration and excretion of rice roots, relating to soil proper-ties as well.
其转化主要受土壤有机质嫌气分解和水稻根系呼吸及分泌作用的制约,并与土壤基本性质密切相关。 - There shows a strong anaerobic respiration in the sampled soil, which is stimulated by C source addition.
供试土壤表现出很强的厌氧呼吸作用,并受外加C源的促进。 - The results showed that the incidence of anaerobic respiration arose the browning, the softening, accumulation of MDA content and increase of relative conductivity.
结果表明,无氧呼吸引发枣果乙醇积累,从而导致枣果褐变和软化、MDA含量的上升及相对电导率的增加。 - Dissimilatory Fe ( III) oxide reduction under anaerobic condition is a process which is an anaerobic respiration with Fe ( III) as the terminal electron acceptor.
厌氧条件下Fe(III)氧化物的还原,是微生物介导的、以Fe(III)氧化物为最终电子受体的厌氧呼吸过程。 - Dissimilatory iron reduction is a microbial anaerobic respiration, Which with Fe ( III) as the terminal electron acceptor and oxidize organic matter to gain energy.
异化铁还原是铁还原微生物以Fe(III)氧化物作为最终电子受体,通过氧化有机物质获得能量的厌氧呼吸过程。 - Fe ( III) in environment undergoes reduction under anaerobic condition. And this process is a microbial dissimilatory reduction, namely an anaerobic respiration with Fe ( III) as the terminal electron acceptor.
厌氧条件下环境中的Fe(III)氧化物发生还原,并且这一过程主要是微生物介导的异化还原,即微生物以Fe(III)氧化物为最终电子受体的厌氧呼吸过程。 - The regulation of anaerobic and aerobic modes of respiration appeared to play an important role in energy generation.
缺氧呼吸和有氧呼吸的转换在能量生成中发挥了重要功能。 - The results showed that: Modification of film treatment can effectively reduce the citrus physiological activity during storage, the biofilm permeability can regulate gas exchange inside and outside of the film and effective to prevent the anaerobic respiration of citrus.
结果表明:改性膜处理能有效的降低芦柑在贮藏期间的生理活性,其生物膜的膜透性可以调节膜内外的气体交换,有效的避免芦柑的无氧呼吸。