四川梅花鹿的昼夜活动节律与时间分配

198 7年 2月至 2 0 0 0年 9月 ,用直接观察法在四川省铁布自然保护区中先后对 2 87只四川梅花鹿的昼夜活动节律和时间分配进行了 2 93 4h的观察。四川梅花鹿的昼夜活动具有明显的活动与休息相间出现的节律 ,晨昏和午夜是其活动的高峰期 ,白昼活动强度较低以休息反刍为主。不同季节其昼夜活动节律有较大的变化。春、夏、秋、冬 4季每天单位时间的平均活动频率分别为 :5 5 2 9± 3 2 97%、 46 42± 3 7 2 4%、 48 2 1± 3 5 80 %、 47 75± 3 2 2 1% ,季节差异不明显 (F =0 3 2 相似文献   

笼养东北虎行为的时间分配

1998年4月至2001年3月,采用瞬时扫描取样法和全事件取样法对哈尔滨动物园的4只笼养东北虎的活动规律进行了研究。结果表明,笼养东北虎在全年的昼夜行为时间分配表现为睡眠所占比值最多;其次是卧息和活动;摄食和其它行为（包括饮水、排尿、排粪、修饰、嗅闻、嬉戏、站立、直立、发声等）最少。在不同季节笼养东北虎的活动变化规律基本相似,一昼夜的睡眠、运动和卧息均有两个高峰期,但高峰期出现和持续的时间有所差异。睡眠的高峰期在10：00-14：00和20：00至次日06：00,活动的高峰期在05：00-10：00和14：00-17：00,卧息的高峰期在05：00-10：00和13：00-20：00,摄食仅在16：00-20：00有一个高峰期。冬季（12-2月）与春（3-5月）、夏（6-8月）、秋季（9-11月）相比,东北虎在白昼睡眠的时间显减少,夜晚则显增多。     

应用植入式遥测技术观察自发性高血压大鼠血压的昼夜波动

目的应用植入式遥测技术观察自发性高血压大鼠在清醒无束缚状态下血压昼夜波动变化。方法取8只SPF级3月龄雄性SHR大鼠,进行C50-PXT植入子植入手术,恢复7 d后,用遥测系统进行24 h连续清醒无束缚的血压监测,并用EMKA分析软件对动态血压心率均值、24 h血压心率趋势等指标进行分析。结果 3月龄的SHR大鼠血压和心律呈昼夜节律性变化,白昼阶段血压明显低于夜间阶段(P<0.01),血压在1∶30～2∶30和20∶30～21∶30时出现两个高峰期,14∶00～14∶30时出现一低谷期。其中夜间阶段平均收缩压为166.02 mmHg,两个收缩压峰值分别为172.13 mmHg和171.38 mmHg;白昼平均收缩压是162.73 mmHg,收缩压谷底值为155.73mmHg。而心率两个高峰期出现在1∶30～2∶00和20∶00～21∶00,高峰值分别为375.00次/分和373.26次/分;心率低谷出现在11∶00左右,谷底值为310.91次/分,白昼和夜间的平均心率分别为328.85次/分和346.05次/分。结论 3月龄的SHR大鼠血压和心律呈昼夜节律性变化,血压和心率在夜间出现两个高峰,白昼出现一个低谷,且夜间的平均血压和心率要高于白昼,SHR大鼠的血压和心率的节律变化与其活动有关。植入式遥测技术可准确反映SHR大鼠血压昼夜的节律性变化,有助于正确评价抗高血压药物的作用和高血压的生理机制研究。     

四川梅花鹿春季昼夜活动节律与时间分配

1997年4月,在四川铁布自然保护区用直接观察法对220头次四川梅花鹿群的昼夜活动节律和时间分配进行了观察。结果表明,鹿群春季昼夜活动的规律性较强。白昼,鹿群活动呈现明显的双峰型,2个高峰时段为08：30和19：30前后,活动频率分别为71．9％和94．13％,其他时间多处于休息状态;鹿群夜间活动强于昼间,活动频率均在6l％以上,仅在半夜01：30前后有一个相对不活跃期。同时发现,春季活动高峰期约90％的活动时间被四川梅花鹿用于采食和移动。这可能与光照、食物及人类活动的影响有关。     

四川卧龙国家级自然保护区四川羚牛舔盐习性研究

为深入理解四川羚牛Budorcas tibetanus舔盐行为的活动模式,于2017年7月1日—2019年6月30日,基于远程视频监控系统,持续观察四川卧龙国家级自然保护区四川羚牛的舔盐行为,分析了不同性别、年龄段个体舔盐行为的年、日活动节律和时间分配、舔盐与排尿行为的相互关系以及不同区域、月份盐井水的微量元素含量。结果表明：（1）四川羚牛偏好夜间舔盐,白天和夜晚在观察点的滞留时间分别占28.98%和71.02%;（2）四川羚牛舔食盐井水的高峰为5月,成年雌性有更高的累计出现只次;（3）舔盐行为的日活动节律呈U型,08∶00—13∶00为活动低谷,22∶00至次日06∶00为活动高峰;（4）四川羚牛进入盐井的第一次排尿间隔时间显著低于第二、三次排尿;（5）天然盐井水的Na含量较溪水高。本研究为相关保护区对四川羚牛的保护和其栖息地管理提供了基础科学参考依据。     

大兴安岭地区紫貂的活动节律

借助无线电遥测技术,对４只紫貂全年的活动节律进行了研究,结果表明,紫貂的活动节律春季和冬季的高峰是在晨昏二个阶段,夏秋二季的活动高峰在白昼。春季总体活动节律与夏季相比有明显差异（Ｆ＝４．４９９,ｄｆ＝１,２２,２３;Ｐ＝０．０４５）,春季与秋季的活动节律也有差异（Ｆ＝７．０３９;ｄｆ＝１,２２,２３;Ｐ＝０．０１５）。其总体平均活动强度,春季活动量最小（１７．５３％）,夏季最高（３８．２９％）,其     

小熊猫夏秋季的昼夜活动节律

2002年5~11月,在邛崃山系宝兴蜂桶寨自然保护区采用无线电遥测技术对6只野生小熊猫的昼夜活动节律进行了研究。结果表明,小熊猫具有晨昏活动的习性,5~11月的平均活动率为0.5286。小熊猫以白昼活动为主,兼夜间活动,白昼的活动率(0.5903±0.0538)高于夜晚活动率(0.4468±0.0413)。每昼夜有(52.86±9.8)%的时间处于活动状态,其中64.53%的活动时间在白昼,35.47%的活动时间在夜晚。每昼夜有两个活动高峰,分别出现在08∶00~10∶00和17∶30~18∶30。在休息时间的分配上,小熊猫每昼夜长休息平均2.07次,持续时间平均3.75小时;中等长度休息1.56次,持续1.59小时;短休息1.21次,持续0.84小时;长休息有44.06%在白昼,55.94%在夜晚。     

东方田鼠昼夜活动节律观察

在半自然条件下观察了洞庭湖区东方田鼠的昼夜活动节律。该鼠昼夜均活动 ,两个活动高峰分别出现在日出和日落前后 ,夜间活动明显多于白昼。该鼠昼夜均取食、饮水 ,昼夜间差异不显著。雌鼠巢外活动、取食和饮水分别为 ( 1 0 85 0± 35 1 0 )s、( 1 1 0 3± 6 4 3)s和 ( 96 0± 5 0 4 )s;雄鼠分别为 ( 1 1 4 2 3±6 0 5 9)s、( 1 2 93± 733)s和 ( 1 2 0 1± 5 6 1 )s,巢外活动、取食及饮水时间量及频次雌雄间差异均不显著。雌雄同巢时间为 ( 1 0 4 42± 5 2 4 9)h。     

圈养马麝夏秋冬活动格局的比较

2000年6月至2001年1月间,在甘肃兴隆山保护区麝场对46只圈养马麝进行扫描取样观察,记录其站立及运动、摄食、反刍和静卧4种行为,并对各行为的发生率进行了统计分析。结果表明：圈养马麝的活动有昼夜节律和季节变化,夏季活动型属于晨昏型偏夜型,秋季偏向昼夜型,冬季也属昼夜型但趋于白昼活动;除季节间分布不一的晨昏活动高峰期外,3个季节均有相对恒定的午夜（22：00－01：30）活动高峰;气温是影响圈养马麝活动格局的主要因子。     

笼养大斑啄木鸟行为时间分配和活动节律

2011年6～8月,在北京市野生动物救护中心露天笼舍内,采用瞬时扫描法对笼养条件下的4只大斑啄木鸟(Dendrocopos major)行为时间分配和活动节律进行了研究,利用单因素方差分析来说明不同性别大斑啄木鸟间行为时间分配差异以及研究对象在日间不同时间段行为节律差异.结果显示,笼养条件下大斑啄木鸟的各种行为活动具有一定的时间分配特点和日行为节律.大斑啄木鸟的行为主要表现为休息和飞行走动,占全部行为的36.24％和26.96％,其次为觅食行为,占17.69％.除觅食、理羽和其他行为外,雌雄间行为时间分配差异不显著(P＞0.05).大斑啄木鸟昼间活动的高峰期出现在上午,中午有午休现象,日间行为节律明显.飞行走动、休息、理羽、跳跃行为的发生频次在雌雄间无显著差异(P＞0.05),而雄性觅食的发生频次显著地大于雌性的(P＜0.05).     

矮岩羊夏季活动节律、时间分配和集群行为

采用扫描取样法（每隔10 min进行一次扫描纪录,记录时间为5 min）对36只矮岩羊夏季昼间节律与时间分配进行了观察和研究,将矮岩羊行为划分为取食、移动、站立、卧息和其他行为等5类。结果表明,矮岩羊在夏季有3个取食高峰（6：00－9：00、10：00－11：00和16：00－20：00）;1个卧息高峰（11：00－15：00）。在时间分配上,用于取食的时间最多（30.14±3.32）%,其次是卧息（26.44±3.59）%,站立（24.90±4.27）%,移动（15.73±1.26）%,而用于其他行为的时间,仅占（2.82±1.00）%。通过不同个体的比较,发现成年雄性用于取食和站立的时间最多,幼体用于移动和其他行为的时间最多,成年雌性用于卧息的时间最多。在矮岩羊集群方面,其集群类型有：混合群、母仔群、雄性群、雌性群和独羊,在夏季集群平均大小为（7.81±8.42）只,2~8只的羊群,占总群数的54.05%;不同集群类型的大小差异极显著（χ2=13.197,d&#402;=3,P=0.004）,混合群群体最大,而雄性群最小;雌雄比为1∶0.54,雌幼比为1∶0.26,成幼比为1∶0.17。这些都说明矮岩羊这类独特的行为和种群特征是长期适应金沙江干热河谷的结果。     

新疆托木尔峰自然保护区冬季北山羊昼间活动节律与时间分配

2005年10~12月,在新疆托木尔峰自然保护区用直接观察法对193头次北山羊(Capra ibex)的活动节律和时间分配进行了观察。结果表明,北山羊群冬季的活动规律性较强,呈现双峰型,2个高峰时段为08∶00~08∶30时和16∶30~17∶00时前后,活动频率分别为98.6%和93.3%。同时发现冬季其61%的活动时间用于采食,用于移动和站立的时间分别为19%和15%。这种活动节律可能与光照以及人类放牧干扰有关。     

人工环境下棘胸蛙(Paa spinosa)繁殖期的行为谱及活动节律

2007年4月，利用红外线摄像设备记录人工环境下的棘胸蛙行为活动，采用扫描取样法和目标动物取样法对录像资料进行分析，对人工环境下棘胸蛙的个体行为和活动节律进行了研究。结果表明：人工环境下的棘胸蛙行为主要包括静止行为（休息、对视）；社会行为（打斗、追逐）；运动行为（游泳、呜叫、跳跃）；捕食行为；繁殖行为（求偶呜唱、侵占、驱赶、撕咬，摔跤、抱对、错抱、拒绝行为、产卵）等。日变化规律变化表明：棘胸蛙的静止行为占了多数，其余多数行为集中在夜间，在凌晨03：00～05：00间出现一个最高峰，与此不同的是棘胸蛙的打斗行为在白天06：00～07：00、08：00～09：00、11：00～12：00多次出现高峰，而在夜间17：00～24：00打斗行为时间分配很少。呜叫行为在06：00—07：00，13：oo～14：00出现两个高峰，而在夜间17：00～01：00鸣叫行为时间分配很少。棘胸蛙的繁殖行为也主要发生在夜间，在凌晨02：30—04：30为高峰，其间抱对行为占到67％，其次为摔跤17％，撕咬15％，而其余所占很少。在行为描述的基础上，对棘胸蛙的有关行为机制进行了探讨。     

The influence of circadian rhythm during a sustained submaximal exercise and on recovery process.

The purpose of this study was to examine the time-of-day effects on muscle fatigue and recovery process following an isometric fatiguing contraction. Sixteen male subjects were tested at two times (06:00h and 18:00h) and were requested to perform a sustained submaximal contraction of the elbow flexors, consisting in maintaining 40% of their absolute strength as long as they could. Isometric maximal voluntary contractions (MVC) were performed before (Pre), immediately after (Post), and up to 10min after the endurance task. Endurance time, peak torque (PT) and electromyographic (EMG) activities of the biceps brachii and triceps brachii were recorded and analysed. Results showed that under Pre-test conditions, PT developed at 18:00h was higher than at 06:00h. No time-of-day effect appears for the endurance time and EMG activities during the test. No time-of-day effect was observed on either MVC or EMG recovery. From the results of this study, it seems that both muscle fatigue and recovery process are not time-of-day dependent. We conclude that circadian rhythm of the force do not influence the evaluation of muscle capacities during a submaximal exercise corresponding at 40% of MVC.     

圈养小熊猫的昼夜活动节律

Daily activity rhytlms of three radio-collared captive red pandas were monitored individually at 15 minute intervals for 3 euntinuous days each month at Yele Nature Reserve, Xiangling Mountains, June- October 1995. Our data indicated that mean rate of activity [0.51 ) of captive red pandas was lower than that of wild red pandas. Three captive red pandas showed similar daily activity patterns, being least active during night and more active during daytime. Mean rate of activity during daylight (0.58)was higher than during nighttime (0.41). Daily mean durations of activity and rest were 12.21 hours and 11.79 hours, respectively. Active times of captive red pandas accounted for 50.6% of each 24 hours, of which 66.5% were recorded during daylight and 33.5% during night. Two active peaks appeared at07: 30-09: 15 and 17: 30- 19: 00. We recorded a mean of 2.17, 2.13 and 0.88 long, mid-length, and short resting bouts daily, which had mean durations of 3.47, 1.65 and 0.87 hour, respectively.Among these long rests, 46.1% occurred during daytime and 53.8% during nighttime.     

Circadian rhythms may not influence the outcomes of thrombolysis in patients with ischemic stroke: A study from China

ABSTRACT

Circadian rhythms can affect physical or mental activities as well as the time of stroke onset. The impact of circadian rhythms on acute ischemic stroke (AIS) patients treated by recombinant alteplase (rt-PA) is still incongruent. This study aims to consider whether the outcomes of thrombolysis differ depending on stroke onset time and rt-PA infusion time in patients with AIS. A total of 447 AIS patients, who underwent rt-PA intravenous infusion within 4.5 hours after stroke onset, were enrolled in this study consecutively from June 2010 through December 2016. All of the patients were grouped based on the stroke onset time and rt-PA infusion time into two exact 12-hour intervals as daytime (06:01–18:00) and nighttime (18:01–06:00) and further divided into four subgroups at 6-hour time intervals (00:01–06:00, 06:01–12:00, 12:01–18:00 and 18:01–24:00). Major neurological improvement at 1 hour, 24 hours and 7 days, 7-day mortality rate and 24-hour hemorrhage transformation was recorded. The results showed that a total of 295 patients (66.4%) appeared with AIS and 252 (56.4%) were treated during daytime. Higher NIHSS at admission was observed when stroke occurred in nighttime, especially during 00:01–06:00. Patients with stroke onset in nighttime especially during 18:01–24:00 had a significant shorter onset-door time and onset-needle time. No differences of the major neurological improvement at 1 hour, 24 hours and 7 days, 24-hour hemorrhagic transformation and 7-day fatality rate were found among either 12-hour time frames or 6-hour time frames according to the time of stroke onset or rt-PA infusion. In conclusion, there was no evidence to predict that circadian rhythms could influence the outcomes of AIS patients treated with rt-PA in China, although stroke onset during nighttime might aggravate neurological impairment before treatment. Further, multicenter and prospective clinical trials with larger number of subjects are still needed to draw more reliable conclusions.     

The pattern of entrainment of the human sleep-wake rhythm by the natural photoperiod in the north

Recently, it was shown that the sleep-wake rhythm of the inhabitants of the temperate zone is entrained to sun time. In the North, significant seasonal changes in the photoperiod may interfere with entrainment of the circadian system to sunlight. This investigation assessed the influence of photoperiod characteristics on the sleep length and sleep-wake rhythm of residents of high latitude. The study was conducted in four towns and six villages located between 59.5?N and 67.6?N latitude between the months of October and May from 2009 through 2011 and included 2822 subjects aged 10 to 97 yrs, 1621 of whom were females and 1201 males. The chronotype and sleep length of the subjects were assessed using the Munich Chronotype Questionnaire. The instructions for the questionnaire stressed the need to specify the sleep-wake schedule during the week preceding the date of completing the questionnaire. The study found that the length of sleep and the chronotype of the inhabitants surveyed in Northern European Russia depend on age, sex, type of settlement, and place of residence. The time of sunrise was a stronger predictor of sleep length and chronotype than the time of sunset and day length. A later chronotype and shorter sleep length were found for the subjects during the equinox (sunrise at 06:00 h) than under long-photoperiod conditions (sunrise at 04:00-05:00 h). During short-photoperiod conditions (sunrise at 07:00-10:00 h), no significant changes in the self-reported sleep-wake rhythm were found. The time of sunrise had the strongest impact on the sleep-wake rhythm of 30- to 97-yr-old persons. Sunrise had a stronger influence on chronotype and sleep length in January to May, when the days become longer, than in October to December, when the days become shorter. Age- and season-associated changes were found in the entrainment of the sleep-wake rhythm by photoperiod in the North.     

Effects of Waking Time and Breakfast Intake Prior to Evaluation of Psychomotor Performance in the Early Morning

Many studies conducted in the field of chronobiology report diurnal fluctuation in cognitive and physical performance that occurs in phase with the body temperature circadian rhythm. Waking time and whether or not breakfast is consumed are currently considered to influence the diurnal fluctuation in data collected in the morning at 06∶00 h and evening at 18∶00 h. Nineteen male subjects participated in four test sessions to examine if wake‐up time (04∶00 h or 05∶00 h) and eating or not eating breakfast influence psychomotor performance capacity at 06∶00 h. All four sessions were separated by ≥36 h and were completed in a counterbalanced order. Each test session comprised sign cancellation, Epworth Sleepiness Scale, simple reaction time, and manual dexterity tests. Most of the results indicate that psychomotor performance when evaluated at 06∶00 h under each of the four different study situations (two waking times and two breakfast conditions) is not statistically significantly different. Consequently, previous results that documented diurnal fluctuations in morning and evening performance capacities, with test sessions at 06∶00 h, are confirmed. Being less efficient in the early morning than in the afternoon potentially exposes people to elevated risk of accident and injury at this time of the day. Prior waking time and/or consumption of a light meal, plus other countermeasures mentioned in the literature, are insufficient to prevent this risk.     

24-hour pattern in lag time of response by firemen to calls for urgent medical aid

The aim of the study was to assess the group 24-h pattern of lag time (LT) in response by regular and volunteer firemen (RFM and VFM) to calls for medical help (CFMH), specifically calls for out-of-hospital cardiac arrest (OHCA). LT, duration in min between a CFMH and departure of service vehicle equipped with a semiautomated defibrillator and generally staffed with four well-trained and ready-to-go FM, represents the integrated duration of several processes, each with separate reaction and decision-making times. The exact time of each CFHM (in min, h, day, month, yr) was recorded electronically, and the exact departure time from the station of the responding FM vehicle was recorded by an on-duty FM. Overall, CFMH made up 53 ± 9% (SEM) of all emergencies calls for aid. To standardize the study methods, the reported findings are based on 568 CFMH specifically regarding OHCA that occurred during the 4-yr study span (January 2005 to December 2008). CFMH exhibited a 24-h pattern with a major peak at 10:00 h (mean ± SEM: n = 9.5 ± 1.6) and major trough at 01:00 h (n = 1.3 ± 0.3; t test, p??.05). In CFMH/h pooled time series, ANOVA-detected differences between the hourly means (p?相似文献