因此,脊椎动物的无氧能量储备与动物的大小成正比。
Thus the anaerobic energy reserves of a vertebrate are proportional to the size of the animal.
这篇文章提出的脊椎动物的无氧能量储备总量与脊椎动物的体型成正比,是基于以下哪些假设?
The passage's suggestion that the total anaerobic energy reserves of a vertebrate are proportional to the vertebrate's size is based on which of the following assumption?
能以无氧方式产生的能量是存在的糖原量的功能——在所有脊椎动物中,糖原量约占其肌肉湿重的0.5%。
The amount of energy that can be produced anaerobically is a function of the amount of glycogen present—in all vertebrates about 0.5 percent of their muscles' wet weight.
从甲酸盐中获取所需的能量是目前最简单的维持生命方式,虽然它依赖于无氧的环境。
Getting useful energy from formate is now the simplest way known for any life form to get its fuel, though it relies on the absence of oxygen.
结果为了满足更大的能量需要,人体自动切换到使用葡萄糖的无氧代谢。
As a result the body switches to anaerobic metabolism utilizing glucose to satisfy the demand for much needed energy.
因为在我们肠道中,是绝对的无氧环境,住在其中的有益细菌倾向于利用发酵,而发酵于获得能量而言,低效于呼吸。
Because essentially no oxygen is available in our intestines, the beneficial bacteria that reside there tend to use fermentation, which is less efficient than respiration for obtaining energy.
通过耗尽肌肉能量(三磷酸腺甙)和快速增加产生乳酸的无氧糖酵解加速尸僵发生。
This speeds up the onset of rigor mortis by depleting muscle energy (ATP) and rapidly increasing the anaerobic glycolysis that produces lactic acid.
对无氧铜在破碎前出现塑性失稳——多重颈缩进行了初步分析,利用能量平衡的破碎理论给出了无氧铜环的破碎分布。
The plastic instability, i. e. multiple necking fracture before the fragmentation was fundamentally analyzed, and the fragments distribution was obtained from the energy balance theory.
采用无质量分析器的离子注入机,以低能量低剂量注水的方式代替常规SIMOX注氧制备soi材料。
An implanter without ion mass analyzer was used to fabricate thin SOI materials by low energy and low dose water ions implantation instead of conventional SIMOX.
提示CO改变心肌能量代谢途径,增强无氧糖酵解以代偿CO所致的心肌缺氧。
These results suggest that co can change the way of cardiac energy metabolism and increase anaerobic glycolysis to compensate for cardiac hypoxia induced by co.
采用无泡曝气作为反冲洗气体,不但提高膜生物反应器中溶解氧量,而且氧利用率也得到提高,且能量消耗也有所降低。
Adopting bubbleless aeration as reflushing air which not only increased DO in the MBR, but also advanced the oxygen utilization, and the energy consumption decreased as well.
采用无泡曝气作为反冲洗气体,不但提高膜生物反应器中溶解氧量,而且氧利用率也得到提高,且能量消耗也有所降低。
Adopting bubbleless aeration as reflushing air which not only increased DO in the MBR, but also advanced the oxygen utilization, and the energy consumption decreased as well.
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