笼养褐马鸡冬季的社群等级

本文用BBS方法（Batchelder-Bershad-Simpson Scaling Method)对笼养褐马鸡的社群等级进行了排序,发现其等级制度为近单线式。成鸟的等级明显高于亚成体,成年雄鸟的等级明显高于成年雌鸟,成年个体的等级与体重呈显著正相关,与面部红斑大小及耳簇羽长呈极显著正相关,全体14只鸟的体重与体长及耳簇羽长呈显著正相关,与面部红斑大小呈极显著正相关。体重可以认为是直接与个体的争斗实力相关的参数,而面部红斑大小,耳簇羽长则可能是个体争斗实力的外在信号,在体重相近的雌性个体中,面部红斑和耳簇羽对社群等级有很大的影响。褐马鸡的争斗炫耀可能是以面部为中心的。     

黄腹角雉静止代谢率的研究

采用Ｋａｌａｂａｋｈｏｖ－Ｓｋｏｒｔｓｏｖ呼吸计,在不同环境温度下,测定了黄腹角雉雏鸟发育过程中的静止代谢率以及成鸟在不同季节的静止代射率。结果表明,黄腹角雉雏鸟在初始日龄时,体温随环境温度而变化,其化学性体温调节能力基本建成的日龄为９日龄。成体黄腹角雉在春,夏,秋季静止代谢率与温度间均有显著的相关性。三季的化学体温调节强度无显著差异。各季间的代谢水平也无显著差异。     

大石鸡的静止代谢率

国外鸟类静止代谢率(Rest Metabolic Rate,RMR)研究几乎涉及鸟类各目,但鸡的种类不多.体重在0.03～1.0kg之间的鸟的资料欠缺.     

倭蜂猴静止代谢率和体温调节的研究

通过研究倭蜂猴在不同环境温度下的静止代谢率和体温调节特征发现；倭蜂猴（Ｎｙｃｔｉｃｅｂｕｓ ｐｙｇｍａｅｃｕｓ）的ＲＭＲ为０．４９８±０．０３９６０２ｍｌ／ｈｒ．ｇ，仅为预期值的６３．７％；热中性区不明显，实测 下临界温度为３０℃；平均最低热传导为０． ０８０４±０． ００２１０２ｍｌ／ｈｒ． ｓ．℃；在室温下平均体温为３３． ８ ±０．１８℃；在冷压下体温变化较大，温调指数为０．５３５；在高温时主要以高体温和分泌唾液进行体温调节。显示典型热带原猴类动物热能代谢特征。     

小鹀和栗鹀静止代谢率的特征

最适的能量平衡是其主要的生存对策之一,它影响着鸟类的分布和丰富度,而鸟类对环境的形态、生理和行为的适应与其能量利用密切相关(Weathers,1997).关于鸟类能量代谢的研究,国内起步较晚,仅见少数报道(李世纯等,1979;邓合黎等,1990),而小鹀和栗鹀的代谢率则尚无报道.为了进一步认识鸟类能量代谢的特征,我们测定了小型鸟小鹀和栗鹀的静止代谢率(restingmetabolic rate,RMR),通过代谢率与体温调节的分析,探讨它们对寒冷环境的适应特征.     

丽斑麻晰和草原沙晰静止代谢率的研究

本文研究丽斑麻蜥Eremias argus和草原沙蜥Phrynocephalus frontalis的静止代谢率(RMR)与环境温度及体重的关系，并测定了RMR的昼夜节律。     

广东罗坑自然保护区鳄蜥的体温调节及静止代谢率的热依赖性

探讨鳄蜥（Shinisaurus crocodilurus）的体温调节和静止代谢率及其热依赖性特征,测定了在自然和实验室条件下的环境温度、鳄蜥体温以及静止代谢率（RMR）等热生物学指标。结果显示：在自然条件下,鳄蜥的野外活动体温（Th）稍高于基质温度（Tc）和空气温度（Td）并与后二者呈正相关关系（Tb=11．65＋0．47Tc,r^2=0．34,F1.75=39．11,P〈0．0001;Tb=11．61＋0．46Td,r^2=0．56,F1.75=96．56,P〈0．0001）。鳄蜥在野外的活动体温存在明显的月份间差异,但无性别及年龄上的差异。环境温度为15℃-30℃的实验条件下,鳄蜥的静止体温（Tb）与环境温度（Ta）呈正相关关系：Tb=12．450＋0．5641Ta（F1.110=11．34,r^2=0．997,P〈0．001）;在缺乏温度梯度的环境中,尽管鳄蜥的体温、空气温度和基质温度都有显著的昼夜差异,但体温、空气温度和基质温度的日平均温度之间无显著差异。鳄蜥的RMR不存在雌雄个体间的差异,并与环境温度呈正相关关系。分析显示鳄蜥的体温既有行为调节也有生理调节,其体温调节及RMR符合变温动物的热生物学特征,但是相对于其他活动较多的蜥蜴而言,鳄蜥的生理调节能力较强,这可能与其活动时间分配中静栖占绝大部分的行为特点是相适应的[动物学报54（6）：964-971,2008]。     

中华蟾蜍静止代谢率与高耗能器官大小的关系

摄食增量假说认为,持续能量支出与静止代谢率正相关,且需要较大的高耗能器官(心脏、肝脏、肾脏和小肠等)与其匹配.因此,该假说预测静止代谢率与高耗能器官质量正相关.该预测在脊椎动物种间研究中得到普遍支持,但在种内研究中的结论尚不一致.在外温动物中的种内验证尤其缺乏.本研究以中华蟾蜍Bufo gargari-zans为研究对...     

不同海拔地区高原鼠兔探究性和静止代谢率的差异

环境的差异影响动物种群生活史对策的进化。对地理分布范围广的物种而言,栖息地环境差异大,不同种群的生活史对策亦存在显著差异。个性特征作为生活史的一部分,反映了动物对环境的适应模式。前期研究表明,不同海拔区域的高原鼠兔的生活史对策存在显著差异,然而,其个性特征及与能量代谢的关联性是否也存在差异,目前尚不清楚。2018年9-10月,分别在海拔3268 m的贵南县和3980 m的玛沁县测定当地高原鼠兔的探究性与静止代谢率。结果发现,高海拔雄性高原鼠兔的探究性显著低于低海拔雄性个体;高海拔雌性高原鼠兔体重矫正静止代谢率显著高于低海拔雌性个体。高海拔地区,雌性高原鼠兔的探究性和体重矫正静止代谢率呈显著正相关,雄性高原鼠兔的探究性和体重呈显著负相关;低海拔地区,高原鼠兔的探究性和体重矫正静止代谢率或体重之间均无显著相关性。该结果 表明,调整个性特征和能量代谢及其两者的关联性也是高原鼠兔适应不同海拔栖息地环境差异的生活史对策之一。     

百花山国家级自然保护区褐马鸡栖息地利用分析

栖息地破坏是生物多样性丧失的主要原因之一,对濒危物种的生存也构成严重威胁。褐马鸡(Crossoptilon mantchuricum)作为我国特有珍稀濒危物种,目前仅分布于山西、陕西、河北和北京地区。2013年10月至2014年6月,在北京百花山国家级自然保护区使用样线法进行野外调查,使用存在点与伪不存在点数据,结合海拔、坡度、坡向、距道路距离、距居民点距离和植被类型作为变量,运用CART、Random Forest、Tree Net三个机器学习模型对褐马鸡的上述6种栖息地因子重要性排序,结果显示,海拔是影响褐马鸡分布的最主要因子,其次是植被类型、距道路距离和距居民点距离。根据AUC值选择Tree Net模型为最适宜模型,划分褐马鸡的适宜栖息地类型,并计算适宜面积。本研究有助于了解重点栖息因子对北京地区褐马鸡的影响状况,利于褐马鸡保护管理对策的制定。     

Improved Equations for Estimating the Resting Metabolic Rate

New models were developed for predicting the resting metabolic rate (RMR) with sufficient accuracy for use in epidemiologic studies and for weight control of individuals. For this purpose, the RMR of 213 women and 76 men was measured, and physical measurements were taken. The RMR was regressed on correlates of RMR, avoiding harmful degrees of collinearity by rejecting interregressor correlations exceeding r=0.5. For women, the best model (R₂=0.71) included the regressors age, race, weight, pulse rate, smoking, and body temperature. The best model for males (R2 = 0.81) included age, race, weight, blood pressure, smoking, time (of day the RMR was measured), and whether subjects had a meal prior to calorimetry. The models were cross validated internally and also validated using an external database. In both cases, the mean estimated RMR did not differ significantly from the measured RMR. The accuracy of the models was compared with four models reported in the literature, three of which overestimated the RMR by up to 17%. In conclusion, improved RMR prediction models have been developed, more accurate than existing models, rendering them suitable for application to epidemiological databases and for individual weight control programs.     

普通朱雀标准代谢率的初步研究

以普通朱雀的耗氧量为指标 ,探讨了普通朱雀的能量代谢特征。普通朱雀的热中性区为 2 6.7～3 7.5℃ ,最低标准代谢率为 4 .2 1mlO2 g·h ,最低热传导为 0 .2 4mlO2 g·h·℃。环境温度 (Ta)在 5～ 2 5℃范围内 ,其代谢率与Ta呈负相关 ,回归方程为SMR =8.74 -0 .1 7Ta ,体温稍有降低。Ta超过 3 7.5℃ ,SMR升高。     

力竭运动锻炼和饥饿对南方鲇静止代谢率及体重的影响

在25℃饥饿和维持日粮(1.5%体重)条件下,测定了连续15d无氧运动锻炼(追赶至力竭)及随后5d撤消运动锻炼过程中南方鲇(Silurus meridionalis)静止代谢率(VO2rest)的变化。实验以饥饿和维持日粮条件下非运动锻炼组分别作为饥饿及摄食对照组。研究发现:饥饿和摄食对照组的VO2rest在实验过程中显著下降(P<0.05),饥饿锻炼组VO2rest在锻炼的4～15d显著上升(P<0.05),而摄食锻炼组的VO2rest相对稳定;当撤消锻炼后,饥饿和摄食锻炼组VO2rest迅速下降,与对照组无显著差异。研究表明,相对于对照组,4～7d的无氧运动锻炼导致VO2rest显著上升;而撤消锻炼后,15d的锻炼影响在3～5d内完全消除。实验还提示,与维持日粮处理比较,饥饿条件下无氧运动锻炼对VO2rest的影响更为显著。     

温度和饥饿对鲤鱼幼鱼静止代谢率及自发运动的影响

分别在15和25℃条件下对鲤鱼(Cyprinus carpio)幼鱼[体重(10.36±0.22)g,n=88]进行2周的饥饿处理(饥饿组)或持续投喂(对照组),然后对实验鱼的静止代谢率(resting metabolic rate,RMR)进行了测定,同时以活动期的胸鳍﹑尾鳍摆动频率,观察期(10 min)胸鳍﹑尾鳍平均摆动次数,和运动时间比为指标对实验鱼的自发运动进行了观察。研究发现:温度和饥饿均显著影响鲤鱼幼鱼的静止代谢率(P0.05);在15与25℃条件下饥饿分别导致静止代谢率下降了19%和20%;温度由15℃上升至25℃,对照组与饥饿组静止代谢率分别增加了83%和80%。在15与25℃条件下,饥饿对鲤鱼幼鱼的自发运动具有显著不同的影响(P0.05),且胸鳍和尾鳍的结果十分相似;在15℃饥饿组与对照组的胸鳍、尾鳍摆动频率(活动期,以下类同)均无显著差异,而饥饿组运动时间比显著低于对照组,导致饥饿组的胸鳍、尾鳍平均摆动次数(观察期,以下类同)均显著低于对照组(P0.05);而在25℃饥饿组的胸鳍、尾鳍摆动频率均显著高于对照组,运动时间比无显著差异,导致饥饿组的胸鳍、尾鳍平均摆动次数均显著高于对照组(P0.05)。研究结果提示,在15℃下鲤鱼幼鱼通过降低自发运动以降低能量消耗来适应饥饿,而在25℃条件下,鲤鱼幼鱼通过增加自发运动来增大获取食物的机率以应对饥饿,这可能与野外环境中不同温度下食物丰富度及鲤鱼幼鱼的生理状况有关,但静止代谢率并未呈现与自发运动相关联的变化。     

内蒙古草原布氏田鼠代谢率与身体器官的关系

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(Microtus brandti) 的基础代谢率(basal metabolic rate , BMR) 、日能量消耗(daily energy expenditure , DEE) 和冷诱导的最大代谢率(maximum metabolic rate , 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” (metabolic machinery) 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。     

Energy metabolism, thermogenesis and body mass regulation in Brandt's voles (Lasiopodomys brandtii) during cold acclimation and rewarming

Environmental cues play important roles in the regulation of an animal's physiology and behavior. The purpose of the present study was to test the hypothesis that ambient temperature was a cue to induce adjustments in body mass, energy intake and thermogenic capacity, associated with changes in serum leptin levels in Brandt's voles (Lasiopodomys brandtii). We found that Brandt's voles increased resting metabolic rate (RMR) and energy intake and kept body mass stable when exposed to the cold while showed a significant increase in body mass after rewarming. The increase in body mass after rewarming was associated with the higher energy intake compared with control. Uncoupling protein 1 (UCP1) content in brown adipose tissue (BAT) increased in the cold and reversed after rewarming. Serum leptin levels decreased in the cold while increased after rewarming, associated with the opposite changes in energy intake. Further, serum leptin levels were positively correlated with body mass and body fat mass. Together, these data supported our hypothesis that ambient temperature was a cue to induce changes in body mass and metabolism. Serum leptin, as a starvation signal in the cold and satiety signal in rewarming, was involved in the processes of thermogenesis and body mass regulation in Brandt's voles.     

Seasonal changes in body mass and thermogenesis in tree shrews (Tupaia belangeri): The roles of photoperiod and cold

Environmental factors play an important role in the seasonal adaptation of body mass and thermogenesis in small, wild mammals. To determine the contributions of photoperiod and cold on seasonal changes in energy metabolism and body mass, the resting metabolic rates (RMR), nonshivering thermogenesis (NST), energy intake and gut morphology of the tree shrews were determined in winter and summer and in laboratory acclimated animals. Body mass, RMR and NST increased in winter, and these changes were mimicked by exposing animals to short-day photoperiod or cold in the animal house. Energy intake and digested energy also increased significantly in winter, and also during exposure of housed animals to both short-day photoperiod and cold. The lengths and weights of small intestine increased in winter. These results indicated that Tupaia belangeri overcomes winter thermoregulatory challenges by increasing energy intake and thermogenesis, and adjusted gut morphology to balance the total energy requirements. Short-day photoperiod and cold can serve as environmental cues during seasonal acclimatization.     

Seasonal variation in the metabolism-temperature relation of House Sparrows (Passer domesticus) in KwaZulu-Natal,South Africa

Many birds exhibit considerable phenotypic flexibility in metabolism to maintain thermoregulation or to conserve energy. This flexibility usually includes seasonal variation in metabolic rate. Seasonal changes in physiology and behavior of birds are considered to be a part of their adaptive strategy for survival and reproductive success. House Sparrows (Passer domesticus) are small passerines from Europe that have been successfully introduced to many parts of the world, and thus may be expected to exhibit high phenotypic flexibility in metabolic rate. Mass specific Resting Metabolic Rate (RMR) and Basal Metabolic Rate (BMR) were significantly higher in winter compared with summer, although there was no significant difference between body mass in summer and winter. A similar, narrow thermal neutral zone (25–28 °C) was observed in both seasons. Winter elevation of metabolic rate in House Sparrows was presumably related to metabolic or morphological adjustments to meet the extra energy demands of cold winters. Overall, House Sparrows showed seasonal metabolic acclimatization similar to other temperate wintering passerines. The improved cold tolerance was associated with a significant increase in VO₂ in winter relative to summer. In addition, some summer birds died at 5 °C, whereas winter birds did not, further showing seasonal variation in cold tolerance. The increase in BMR of 120% in winter, compared to summer, is by far the highest recorded seasonal change so far in birds.     

北小麝鼩的代谢产热和体温调节特征

为探讨食虫目小型哺乳动物的代谢产热和体温调节特征,本文采用封闭式流体压力呼吸仪测定了北小麝鼩在环境温度5 ～ 30℃下的静止代谢率(RMR),结果显示:在环境温度(Ta)为17 5 ～25℃ 的范围内,北小麝鼩的体温基本维持恒定,平均体温为36.55 ± 0.38℃ ;热中性区(TNZ) 为20 ～ 25℃ ;基础代谢率BMR 为5.46 ±0.23 (mLO₂ /g· h),其中环境温度在25℃ 时静止代谢率最低,为4.84 ± 0.39 (mLO₂ /g· h)。在5 ～ 25℃环境温度范围内,热传导值保持稳定;在此温度范围内,北小麝鼩的热传导率(C) 最低,平均为0.42 ± 0.01mLO₂ / (g·h·℃ )。总之,北小麝鼩的产热和体温调节特征为较高的BMR,中等的热传导率,较低的体温和较宽的热中性区。这些特征可能与该物种体型小、夜行性、主要以无脊椎动物为食等生活习性密切相关。