最大呼吸量

The oxygen uptake and the respiratory quotient of the participants who did the Yuan-ji dance Part Ⅲ were recorded with K4B^2, and the statistics were compared with the maximal oxygen uptake and then their exercise intensity and energy expenditure were calculated.

实验设计是以受试者从事元极舞第三集，记录运动过程的摄氧量与呼吸商，然后与最大摄氧量作比较并推算出运动强度和能量消耗。

One of them also showed improvements in the ventilatory parameters at maximal exercise and the other one showed the better tolerance at non-steady state submaximal exercise level from the data of SL-GXT. It needs further study on responses in steady state condition to substantiate the improvements at submaximal exercise workload.

一名病人则在最大换氧量、最大潮量和最大呼吸频率等呼吸指标上显示出进步，另一名病人则显示其可能在低限量的运动上有较好的耐受力，不过比仍需在低限运动时的稳定状态下做进一步的探讨。

Terminal oxidative inhibitors, such as KCN, Salicylhydroxamic acid , antimycin A and NaN〓, can cut off electron transport chains of cytochrome pathway and alternative pathway, marked decreased BADH protein levels. Oxidative phosphorylation uncoupler 2, 4-dinitrophenol had a similar negative effect on BADH gene expression, and exogenous ATP and ADP increased the BADH levels. These results, in conjunction with the terminal oxidation results, indicated that ATP could be a critical component in BADH gene expression.

2.2 末端氧化抑制剂KCN、SHAM、抗霉素A和NaN〓能打断呼吸链，阻断电子传递，使BADH蛋白的表达量明显降低，说明末端氧化同样参与BADH基因表达的调节：末端氧化影响基因表达的实质就是ATP的影响，线粒体磷酸化解偶联剂DNP明显降低BADH蛋白的含量，而外源的ATP和ADP对BADH基因表达的正效应作用最大。

Fter different detraining cycles on the physiological performance, the detraining cycles will be reflected different degrees of impact. We found that the strength and endurance of athletes in detraining has reduced the capillary density, oxidative fibers, slow-twitch muscle. On the other hand, AVO2-diff, oxygen enzyme decline in the number of mitochondria, the change of muscle fiber types and reduced neuromuscular control in long-term detraining. In cardio-respiratory fitness, particularly in endurance athletes among blood flow, plasma volume, and cardiac output's decline are the most conspicuous. After hormone and metabolic's short term and long-term detraining, we found that growth hormone, testosterone, cortisol, respiratory exchange rate, showed a decline in insulin sensitivity, it will directly affect the exercises performance. Further more, the exercises performance and physiological benefits could have been completely eliminated.

bstract 不同周期停止训练后，对生理表现将反映出不同程度之影响，其中发现肌力性与耐力性运动员在短期停止训练后，毛细血管密度、氧化纤维、慢缩肌呈现减少情形；反观长期停止训练后，将会使动静脉血含氧差异(arterial-venous oxygen difference， AVO2-diff)、氧化酶粒腺体数目下降与肌纤维型态之改变，而减少神经肌肉控制能力、在心肺适能方面，尤以耐力性运动员在血流量、血浆量、每跳输出量、最大心输出量下降情形最明显；而贺尔蒙与代谢在短期与长期停止训练后，发现生长贺尔蒙(growth hormone， GH)、睪固酮、可体松、呼吸交换率、胰岛素敏感性均呈现下降情形，这些情形将直接影响其运动表现之发挥，甚至使先前获得之运动表现与生理效益完全消失。

Results show that microbial biomass carbon and microbial biomass nitrogen in fertilized soil peak in the first several days, and then decline. Incubating both sweet maize straw and white clover have the highest yield, maxima of 529.57 mgkg^(-1) and 75.50 mgkg^(-1) respectively. They also release respired CO2 the most among all treated soils. The best mineral nitrogen release is in white clover incubating, with a maximum of 29.81 mgkg^(-1) under a 26-day culture, and then keeping 1.60 times the control and reaching 2.48 times at 80-day culture. Sweet maize incubating has the least mineral nitrogen release. It is 13%~53% of the control under a 26-day culture, with a maximum of 7.51 mg kg^(-1). Soil nitrogen mineralization is insignificant under sweet maize incubating with urea in short-term.

研究发现，各施肥处理的土壤微生物量碳、微生物量氮均在培养前期出现峰值，后期平稳降低；甜玉米桔秆和白三叶草绿肥同时还田的土壤微生物量碳、微生物量氮在各培养时期均最大，峰值分别达529.57 mgkg^(-1)，和75.50 mgkg^(-1)，土壤呼吸产生的CO2最多；白三叶草绿肥单独还田有利于土壤无机氮的释放，培养第26d无机氮达到最大值，为29.81 mgkg^(-1)，之后一直在对照处理的1.60倍以上，第80d达到2.48倍；甜玉米秸秆单独还田不利于土壤无机氮的释放，培养的第26d至结束，甜玉米秸秆处理的无机氮为对照的13%~53%，最大为751 mgkg^(-1)；甜玉米秸秆配施尿素，短期内不利于土壤无机氮矿化。

Results show that microbial biomass carbon and microbial biomass nitrogen in fertilized soil peak in the first several days, and then decline. Intercropping Incubating both sweet maize straw and white clover have the highest yield, maxima of 529.57 mg·kg-1 and 75.50 mg·kg-1 respectively. They also release the most respired CO2 the most among all treated soils. The best mineral nitrogen release is in white clover intercroppingincubating, with a maximum of 29.81 mg·kg-1 under a 26-day culture, and then keeping 1.60 times the control and reaching 2.48 times at 80-day culture. Sweet maize incubatingintercropping has the least mineral nitrogen release. It is 13%~53% of the control under a 26-day culture, with a maximum of 7.51 mg·kg-1. Soil nitrogen mineralizatiomineralization is insignificant under sweet maize incubatingintercropping with urea in short-term.

研究发现，各施肥处理的土壤微生物量碳、微生物量氮均在培养前期出现峰值，后期平稳降低；甜玉米秸秆和白三叶草绿肥同时还田的土壤微生物量碳、微生物量氮在各培养时期均最大，峰值分别达529.57 mg·kg-1和75.50 mg·kg-1，土壤呼吸产生的CO2最多；白三叶草绿肥单独还田有利于土壤无机氮的释放，培养第26 d 无机氮达到最大值，为29.81 mg·kg-1，之后一直在对照处理的1.60倍以上，第80 d达到2.48倍；甜玉米秸秆单独还田不利于土壤无机氮的释放，培养的第26 d至结束，甜玉米秸秆处理的无机氮为对照的13%～53%，最大为7.51 mg·kg-1；甜玉米秸秆配施尿素，短期内不利于土壤无机氮矿化。

maximum breathing capacity：最大呼吸量

maximum breaking load 最大斷裂負載 | maximum breathing capacity 最大呼吸量 | maximum camber 最大彎度

maximum breathing capacity：abbr. mbc; 最大呼吸量

maximal breathing capacity：最大呼吸量,每分量大通气量

maximal blood pressure 最高血压 | maximal breathing capacity 最大呼吸量,每分量大通气量 | maximal call time 最长呼叫时间

MBC maximal breathing capacity：最大呼吸量

MB myoglobin 肌红蛋白 | MBC maximal breathing capacity 最大呼吸量 | MCO Microcredit Office 小额信贷办公室

MBC maximum breathing capacity：最大呼吸量

Mb myoglobin肌红蛋白 | MBC maximum breathing capacity最大呼吸量 | MbCO carbon monoxided myoglobin一氧化碳肌红蛋白

MB myoglobin：肌红蛋白

mA-s milliampere-second毫安秒 | Mb myoglobin肌红蛋白 | MBC maximum breathing capacity最大呼吸量

MBC：abbr. maximum breathing capacity; 最大呼吸量

maximum breaking load：最大断裂负载

maximum boom-free speed (MBFS) 最大無音爆速率 | maximum breaking load 最大斷裂負載 | maximum breathing capacity 最大呼吸量

IISIntensive immunosuppression：加强免疫抑制(法)

IcxImmune complex免疫复合体 | IISIntensive immunosuppression加强免疫抑制(法) | IMBCIndirect maximum breathing capacity间接最大呼吸量

IIS Intensive immunosuppression：加强免疫抑制(法)

Icx Immune complex 免疫复合体 | IIS Intensive immunosuppression 加强免疫抑制(法) | IMBC Indirect maximum breathing capacity 间接最大呼吸量