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内蒙古草原布氏田鼠代谢率与身体器官的关系 被引量:13

Relationship Between Metabolic Rate and Organ Size in Brandt's Voles ( Microtus brandti )
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摘要 动物代谢率存在差异的原因及其意义是进化生理学的一个核心问题。为了解代谢率的影响因素和功能意义 ,我们测定了不同驯化条件下布氏田鼠 (Microtusbrandti)的基础代谢率 (basalmetabolicrate ,BMR)、日能量消耗 (dailyenergyexpenditure,DEE)和冷诱导的最大代谢率 (maximummetabolicrate ,MMR) ,分析了动物体内 11种器官、组织的重量与代谢率的关系。结果显示 ,排除温度、光照、食物质量和体重的影响后 ,BMR与心脏、肝脏、肾脏、胃和盲肠相关 ;DEE与心脏、肾脏、胃和盲肠相关 ;MMR与脑重显著负相关。这表明 :在布氏田鼠体内存在着代谢活性器官 ,主要包括心脏、肝脏、肾脏、胃和盲肠 ,这些器官对BMR有较大的贡献。动物的能量周转水平与体内“代谢机器” (metabolicmachinery)的大小相关连 ,主要受到心脏、肾脏、胃和盲肠的影响。最大代谢率受脑重的影响。BMR与MMR的相关性不显著 ,而BMR与DEE的相关性显著 ,说明较高的BMR有助于维持较高的DEE ,但不能维持较高的MMR。 A central problem in evolutionary phys iology concerns the physiologica l origin and functional significance of the great intra and inter specific var i ations in basal metabolic rate (BMR). We analyzed the relationships between BMR , cold induced maximum metabolic rate (MMR), daily energy expenditure (DEE) and 1 1 body organs. BrandtDK's voles ( Microtus brandti ) were divided into 8 groups and acclimated in different photoperiod [long day (16 Light:8 Dark, and short da y (8 Light:16 Dark)], temperature [cold (5℃), and warm (23℃)], and di et qua lity [high fiber diet (56.9%) and low fiber diet (35.6%)].After 3 weeks of acclimation, BMR,MMR and DEE were measured. Then voles were killed and 11 body organs wer e dissected. After removal of the effects of photoperiod, temperature, diet qual ity and body mass, we found that BMR was positively related to the sizes of heart, l iv er, kidneys, stomachDK' and cecum. The heart, kidneys, stomach, and cecum were highl y correlated with DEE. And the brain was negatively correlated with MMR. These res ults indicate that there is a relationship between the sizes of internal organs and their contribution to BMR. And the energy turnover rate and thermogenic lim itation were related to the metabolic machinery of the body. There is a signifi cant correlation between BMR and DEE. However, no significant correlation betwe en BMR and MMR was detected. Our results do not support the prediction that hi gh B M R can generate high MMR, but support the prediction that high BMR can generate h igh DEE. Furthermore, the results in the present study support the 'assimilati on capacity model', rather than the 'aerobic capacity model' of endothermy.
作者 宋志刚 王德华
机构地区 中国科学院动物研究所农业虫鼠害综合治理研究国家重点实验室
出处 《兽类学报》 CAS CSCD 北大核心 2003年第3期230-234,共5页 Acta Theriologica Sinica
基金 国家自然科学基金项目 ( 3 9970 12 8和 3 0 0 70 12 5 ) 中国科学院创新项目 特别支持费资助项目 (KSCX2 -SW -10 3和STZ -0 1-0 6)
关键词 内蒙古草原 布氏田鼠 代谢率 身体器官 日能量消耗 Basal metabolic rate Maximum metabolic rate D aily energy expenditure Organ size Evolution BrandtDK's vole ( Microtus b randti )ZK)
分类号 Q959.837 [生物学—动物学]
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参考文献24

  • 1宋志刚,王德华.内蒙古草原布氏田鼠的最大同化能[J].兽类学报,2001,21(4):271-278. 被引量:22
  • 2宋志刚,王德华.长爪沙鼠的代谢率与器官的关系[J].动物学报,2002,48(4):445-451. 被引量:19
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二级参考文献33

  • 1王祖望,魏善武,姜永进,王德华,杨福囤,胡德夫,孙儒泳.高寒草甸金露梅灌丛根田鼠种群生产力的研究 Ⅲ.种群生物能学[J].兽类学报,1993,13(1):38-49. 被引量:10
  • 2谢小明,孙儒泳,房继明.布氏田鼠婚配制度和繁殖的实验研究[J].动物学报,1994,40(3):262-265. 被引量:24
  • 3李庆芬,黄晨西,刘小团.光周期和温度对布氏田鼠产热的影响[J].动物学报,1995,41(4):362-369. 被引量:16
  • 4王德华,孙懦泳,王祖望.根田鼠的最大同化能量[J].动物学报,1996,42(1):35-41. 被引量:13
  • 5[1]Bech, C. and J. E. Ostnes 1999 Influence of body composition on the metabolic rate of nestling European shags (Phalacrocorax aristotelis). J. Comp. Physiol. B. 69:263~270.
  • 6[2]Burness, G. P., R. C. Ydenberg and P. W. Hochachka 1998 Interindividual variability body composition and resting oxygen consumption rate in breeding tree swallows, Tachycineta bicolor. Physiol. Zool. 71:247~256.
  • 7[3]Byrne, H. K. and J. H. Wilmore 2001 The relationship of mode and intensity of training on resting metabolic rate in women. Int. J. Sport. Nutr. Exerc. Metab. 11:1~14.
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  • 9[5]Daan, S., D. Masman, A. Groenewold 1990 Avian basal metabolic rates: their association with body composition and energy expenditure in nature. Am. J. Physiol. 259:R333~R340.
  • 10[6]Else, P. L. and A. J. Hulbert 1985 An allometric comparision of the mitochondria of mammalian and reptilian tissues: the implication of endothermy. J. Comp. Physiol. 156:3~11.

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