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首页> 外文期刊>ASHRAE Transactions >Mass Generation Rates of Ammonia, Moisture, and Heat Production in Mouse Cages with Two Bedding Types, Two Mouse Strains, and Two Room Relative Humidities
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Mass Generation Rates of Ammonia, Moisture, and Heat Production in Mouse Cages with Two Bedding Types, Two Mouse Strains, and Two Room Relative Humidities

机译:具有两种床上用品,两种小鼠菌株和两种房间相对湿度的鼠笼中氨,水分和热量产生的质量发生率

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Mass generation rates of ammonia, moisture, and heat production were measured for mice that were housed in standard shoebox cages at a density of five mice per cage and maintained in either a 35% or 75% room relative humidity. Two mouse strains kept on two different types of bedding materials were compared when bedding material had been in the cages for two, six, and ten days. Gas exchanges directly measured were ammonia, water vapor, oxygen, and carbon dioxide. Water balance was calculated from gain in bedding weight, drinking water consumption, partial pressure of water vapor, and metabolism (CO_2 produced and O_2 consumed). All measurements were taken on the second, sixth, and tenth day of each test. All weight and volume measurements were obtained in the home environmental chamber in which the mice were housed. Gas exchanges were obtained after four cages of five mice each had been placed into one of three open system calorimeters. Relative humidity was not controlled in the calorimeters because it would have led to erroneous ammonia generation measurements. Relative humidity had a dramatic influence on ammonia generation rate from the mouse cages. Generation rates at 35% relative humidity were essentially negligible across all treatments. At 75% relative humidity, it tookaroundsix days bedding age for ammonia generation to start, but it increased rapidly by ten days bedding age. Ammonia mass generation rate was 12.4 and 0.154 (mg/h)/20 mice (2.7E-5 and 3.4E-7 lb/h/20 mice) in the 75% and 35% humidity treatments, respectively. Mouse strain and bedding type had a significant effect on ammonia generation rates with CD-1 mice producing larger amounts of ammonia than BALB/c mice, and pulp bedding producing larger amounts of ammonia than chip bedding. Relative humidity significantly influenced ammonia emission interactions between strain, bedding material, and bedding age. Carbon dioxide and oxygen exchange were not affected by relative humidity. Heat production on a body mass basis was calculated to be 17.9 and 15.7 W/kg BW (27.7 and 24.3 Btu/h/lb BW) for CD-1 and BALB/c mice, respectively.
机译:测量了以标准笼箱饲养的小鼠的氨,水分和热量产生的质量发生率,每个笼子密度为五只小鼠,并保持在35%或75%的室内相对湿度下。当床上用品在笼子里放置了两天,六天和十天时,比较了两种保留在两种不同床上用品上的小鼠品系。直接测量的气体交换是氨,水蒸气,氧气和二氧化碳。根据床上用品重量的增加,饮用水的消耗,水蒸气的分压和新陈代谢(产生的CO_2和消耗的O_2)来计算水平衡。在每个测试的第二,第六和第十天进行所有测量。所有重量和体积测量值均在容纳小鼠的家庭环境室内进行。在将每只五只小鼠的四个笼子放入三个开放式系统热量计之一后,进行气体交换。热量计中的相对湿度不受控制,因为这会导致错误的氨生成测量。相对湿度对小鼠笼中氨的产生速率有显着影响。在所有处理中,相对湿度为35%时的产生率基本上可以忽略不计。在相对湿度为75%的情况下,开始生成氨气大约需要6天的床褥期,但到10天的床褥期后,它迅速增加。在75%和35%的湿度处理下,氨的质量产生率分别为12.4和0.154(mg / h)/ 20小鼠(2.7E-5和3.4E-7 lb / h / 20小鼠)。小鼠品系和床上用品类型对氨生成速率有显着影响,其中CD-1小鼠比BALB / c小鼠产生更多的氨,纸浆床上用品比木屑床上用品产生更多的氨。相对湿度显着影响应变,垫层材料和垫层年龄之间的氨气排放相互作用。二氧化碳和氧气的交换不受相对湿度的影响。对于CD-1和BALB / c小鼠,按体重计算的热量产生分别为17.9和15.7W / kg BW(27.7和24.3 Btu / h / lb BW)。

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