繁殖季节和非繁殖季节布氏田鼠种群参数和生理特点的差异

在繁殖季节(6月份)和非繁殖季节(10月份),采集了内蒙古自治区阿尔善宝力格地区的布氏田鼠样本,比较其种群参数与生理指标,探讨了布氏田鼠社群结构和生理特征的季节性差异,并分析了原因。结果表明,布氏田鼠的年龄组成和性比存在明显的季节差异:繁殖季节洞口系数小,种群性比接近1,主要由当年新生鼠和越冬鼠组成;非繁殖季节洞口系数大,种群性比偏雄,主要由当年新生鼠组成。繁殖器官在繁殖季节显著大于非繁殖季节,保持了更高活性。非繁殖季节个体的胴重比更高,且雄鼠高于雌鼠,表明非繁殖季节个体和雄鼠具有更好的营养状态;同时,非繁殖季节个体具有更小的肾上腺和更大的脾脏,说明非繁殖季节中的布氏田鼠表现出更低的应激状态和更强的免疫能力。这些研究结果表明,布氏田鼠的种群参数和生理特点具有明显的季节性特点,这与不同季节中布氏田鼠采取的生存策略有着紧密联系。     

繁殖季节和非繁殖季节布氏田鼠种群参数

在繁殖季节（6月份）和非繁殖季节（10月份）,采集了内蒙古自治区阿尔善宝力格地区的布氏田鼠样本,比较其种群参数与生理指标,探讨了布氏田鼠社群结构和生理特征的季节性差异,并分析了原因。结果表明,布氏田鼠的年龄组成和性比存在明显的季节差异：繁殖季节洞口系数小,种群性比接近1,主要由当年新生鼠和越冬鼠组成;非繁殖季节洞口系数大,种群性比偏雄,主要由当年新生鼠组成。繁殖器官在繁殖季节显著大于非繁殖季节,保持了更高活性。非繁殖季节个体的胴重比更高,且雄鼠高于雌鼠,表明非繁殖季节个体和雄鼠具有更好的营养状态;同时,非繁殖季节个体具有更小的肾上腺和更大的脾脏,说明非繁殖季节中的布氏田鼠表现出更低的应激状态和更强的免疫能力。这些研究结果表明,布氏田鼠的种群参数和生理特点具有明显的季节性特点,这与不同季节中布氏田鼠采取的生存策略有着紧密联系。     

布氏田鼠标志种群的社群等级及其季节变化

在内蒙古锡林郭勒地区,通过标志重捕、染色标记和直接观测法对布氏田鼠社群等级的季节变化进行了研究。结果表明:在繁殖季节,布氏田鼠洞群内存在明显的社群等级。越冬雄鼠在社群内社群序位最高,其次是越冬雌鼠、当年成体雌鼠、当年成体雄鼠,亚成体鼠和幼鼠的社群地位最低。在繁殖末期,越冬雄鼠的地位明显下降,而当年成体雄鼠的等级序位逐渐上升。在繁殖季节,当年雄鼠在洞群中的等级序位依然很低,很少能有机会进行有效的交配,有效交配主要由越冬雄鼠来完成,因而越冬雄鼠对种群繁殖的贡献较大。本实验倾向于支持该鼠的婚配制度为一雄多雌制的观点。     

布氏田鼠肝毛细线虫感染率与其体重的关系

2005年5月和8月,在内蒙古锡林郭勒北部典型草原调查了肝毛细线虫对布氏田鼠种群的感染特征,分析肝毛细线虫对布氏田鼠的感染率与其性别、年龄、体重及种群密度的关系。结果表明:肝毛细线虫对布氏田鼠感染率没有性别差异,雄鼠与雌鼠的感染率相当;但是与布氏田鼠体重/年龄密切相关:幼鼠的感染率较低,成鼠感染率较高,感染率和平均感染度均随着个体年龄的增长而增高。布氏田鼠达到一定的年龄(或体重)后才可感染肝毛细线虫病,其最低感染体重为24.3 g。布氏田鼠的种群密度对肝毛细线虫的感染率和平均感染度没有明显的影响,但同一样地不同季节感染率不同,本次调查显示,2005年5月份感染率高于8月份群体感染率,同一样地的春季感染率与秋季感染率之间呈现出显著的正相关。     

储草期增加食物对布氏田鼠越冬存活率的影响北大核心CSCD

布氏田鼠(Lasiopodomys brandtii)是内蒙古典型草原区主要鼠种之一。该鼠种在秋季将食物储存在储草仓内,以此来度过植被贫瘠的冬季。为探究储草期增加食物对布氏田鼠越冬存活率的影响,2004年10月,于内蒙古阿巴嘎旗白音图噶苏木的布氏田鼠鼠害草场随机选取两块100 m×200 m的样地,分别设为增食样地和对照样地。增食样地内给每个布氏田鼠洞群补充食物,每天补充500 g小麦,连续补充2 d共计1000 g。对照样地内则不做任何处理。2004年10月,采用标志重捕法调查两块样地内布氏田鼠种群数量,调查显示,增食样地和对照样地内,布氏田鼠数量分别为310只和318只,以该结果作为计算其越冬存活率的基数。2005年5月,返回样地再次进行标志重捕,分别计算两样地布氏田鼠的越冬存活率。卡方检验显示,储草期增加食物能显著提高布氏田鼠越冬存活率。增食样地布氏田鼠越冬存活率为41.3%,显著高于对照样地布氏田鼠越冬存活率(24.2%,P<0.01)。增食样地雌性和雄性布氏田鼠越冬存活率分别为45.4%和37.3%,均显著高于对照样地雌性和雄性布氏田鼠越冬存活率(25.8%和22.6%,P<0.01)。但样地内雌性和雄性越冬存活率均无明显差异(P>0.05)。本研究结果表明,补充食物可大幅度提升布氏田鼠冬季存活率,增加布氏田鼠越冬存活基数,对来年种群增长起重要作用。     

密度因素在布氏田鼠种群调节中的作用

对布氏田鼠栖息密度不同的种群同时进行取样,研究密度因素对布氏田鼠种群发展的调节作用。结果表明,在高密度区布氏田鼠种群繁殖强度受到抑制,雌鼠怀孕率、雄鼠睾丸下降率、贮精囊肥大率和睾丸长度都小于低密度种群。高密度种群繁殖季节结束时间早于低密度种群,幼鼠肥满度较小,性成熟速度较慢,种群年龄结构中,幼年鼠所占比例小于低密度种群。这些都是导致高密度种群增长速度减慢的因素。     

食物多样性对布氏田鼠幼体存活率和生长率的影响

为探明食物多样性对植食性小型哺乳动物种群的影响,以羊草、克氏针茅、紫花苜蓿、沙葱和阿氏旋花5种实验地常见的草本植物,组成不同食物多样性的食谱,饲喂布氏田鼠幼体,探究布氏田鼠幼体的存活率和生长率对不同食物多样性的响应。结果表明：（1）随着食物多样性种类的增加,布氏田鼠幼体存活率显著提高（P<0.05）。与单一食物组相比,2~4种食物组饲喂的布氏田鼠幼体存活率分别增加15.6%、18.0%和12.2%;不同食物占食谱的比例对布氏田鼠幼体存活率变化具极显著作用（P<0.01）;随着克氏针茅、阿氏旋花在食谱中比例的增加,布氏田鼠幼体存活率显著下降（P<0.05）。（2）随着食物多样性的增加,布氏田鼠幼体生长率在第5周时极显著降低（P<0.01）;不同食物在食谱中的比例对布氏田鼠幼体生长率变化具有显著影响（P<0.01）。随着羊草在食谱中比例的增加,在第5周时布氏田鼠幼体生长率极显著提高（P<0.01）,随着克氏针茅在食谱中比例的增加,至第3周和5周时布氏田鼠幼体的生长率均显著下降（P<0.05）,随着阿氏旋花在食谱中比例的增加,至第3周时布氏田鼠幼体生长率极显著下降（P<0.01）。结果表明,布氏田鼠幼体随着克氏针茅和阿氏旋花在其食物中所占比例增加,布氏田鼠幼体存活率和生长率相应下降,随着羊草在布氏田鼠幼体食谱中比例增加其生长率显著提高。因此,食物多样性在一定程度影响布氏田鼠幼体存活、生长和种群密度。     

布氏田鼠肥满度分析和小型兽类肥满度指标K与KWL（重长指标）的比较

通过对两个肥满度指标的理论和生物学意义分析,以及对布氏田鼠肥满度的研究和实际应用的讨论,认为描述动物的肥满度时,重长指标ＫＷＬ优于指标Ｋ。两指标的最大差别是成体的ＫＷＬ值大于幼体,而成体的Ｋ值小于幼体。布氏田鼠肥满度没有性别差异;有异著的年龄差异,成体鼠的肥满度高于幼鼠;有显著的季节变化,鼠种群春季肥满度最高,夏季降低,秋季回升;有显著的年际变化,高数量年的肥满度高于低数量年。     

典型草原区布氏田鼠的活动节律及其季节变化

采用标志重捕、染色标记和野外观测法研究典型草原区布氏田鼠野外实验种群,采用4 种活动模式指数(日活动差异指数θ,昼行性指数λ,峰型指数;活动强度指数η)分析田鼠昼夜活动节律及其季节变化。结果表明,布氏田鼠全年12 个月的昼行性指数λ 均高于0.542,为典型的昼行性种类。其活动节律的季节变化主要与环境温度有关:1、2、3、4、11、12 月,气温较低,布氏田鼠的活动模式呈典型的单峰型;5、6、7 月气温较高,为典型的双峰型;而8、9、10 月则属于单双峰过渡类型。田鼠的峰型指数 在冬季最低,夏季最高,与月均气温呈显著的正相关关系(r=0.89,n = 12,P<0.05)。活动强度指数η与气温也存在显著的正相关(r=0.94,n = 12,P < 0.05)。5～9 月,布氏田鼠的活动强度最高,每日活动时间在6 h 以上;冬季布氏田鼠的日活动量骤降,很少外出活动,尤其在1～2 月,布氏田鼠日均地面活动时间不足1min。另外,室内实验表明,布氏田鼠具有在黑暗环境中活动能力,但在野外条件下,夜间活动极少发生。     

布氏田鼠的一些生态资料

本文就呼伦贝尔草原布氏田鼠(Microtus brandti Radde)生态的一些资料简报如下: 1.布氏田鼠的生长 1975年6月,先后捕7只孕鼠,经笼养分别在6月5、8、9、12日产仔,幼鼠12—16天睁眼。这批幼鼠中有16只从6月养到9月,定期称重,到90天后处死。幼鼠初生平均体重2.05克;26日龄平均体重15.77克,平均日增重为0.54克;38日龄平均体重23.84克,此期平均日增重0.70克;64日龄平均体重30.2克,此期平均日增重0.25克;90日龄平均体重31克,日增重0.03克。     

Seasonal Changes of Body Iron Status Determine Cadmium Accumulation in the Wild Bank Voles

The objective of this study was to examine relations between body iron (Fe) status and cadmium (Cd) accumulation in a small rodent, the bank vole, caught from the wild population in late autumn (November) and early spring (March). The concentrations of Fe in the liver, kidneys, and duodenum in the bank voles from the spring were only 30%, 60%, and 70%, respectively, of those found in the animals from the autumn. An analysis of hematocrit and hemoglobin content of blood showed no significant effect of the season, suggesting that the animals from the spring were not anemic. The exposure to dietary Cd (10 μg/g) for 7 days resulted in 70% higher accumulation of Cd in the liver and kidneys of the spring than autumn bank voles, and the concentration of Cd in the duodenum was 3.5 times higher in the spring animals, despite the fact that relative Cd intake was significantly higher in the autumn bank voles. The data indicate that seasonal changes of body Fe status occurring in the wild bank voles may influence tissue accumulation of Cd.     

Redundancy, synergism, and active inhibitory range of non-host volatiles in reducing pheromone attraction in European spruce bark beetle Ips typographus

Brandt's voles ( Microtus brandti ) are small native mammals that inhabit the grasslands of Inner Mongolia, China. The species is considered a pest, particularly during population outbreaks, which have increased in frequency since 1970 from 1 every 7 years to 1 every 3 to 5 years. Using historical records taken between 1948 and 1998, we found that there was significant correlation between years for which the monthly averages of the Southern Oscillation Index (SOI) were consistently high, and years in which outbreaks occurred. Also there was a tendency for outbreaks not to occur in years with precipitation above or below average. For some years at some sites, annual or biannual estimates are available for the density of Brandt's vole populations. We found that the seasonal rate of increase over the non-breeding season from autumn to spring was negatively correlated with the density in autumn. The rate of increase over the breeding season from spring to autumn was independent of the density in spring but instead, reflects the species' preference for habitat with short, sparse grass; populations do not persist in highly degraded grasslands or in tall, dense grassland. The link between outbreaks and climatic indices, and the numerical response of Brandt's voles to particular habitat characteristics, suggest that current grazing intensity tends to maintain grass at low height in years with average precipitation. The substantial increase in livestock numbers over the last 50 years appears to have increased the number of years when the balance of grazing and plant growth favours high rates of increase in Brandt's vole populations, and hence, there has been an increase in the frequency of outbreaks.     

A time series and geographical analysis of population dynamics of the red-backed vole in Hokkaido,Japan

Summary A time series and geographical analysis of the long term (25-years and 16-years) census data of the red-backed vole, Clethrionomys rufocanus bedfordiae, populations in Hokkaido, Japan was carried out. Eighty seven populations from all over Hokkaido were grouped into the following 4 types according to their flucturation patterns: type A: low density-constant type; type B: medium density-gradual increase type; type C: medium density-wavy change type; type D: high density-large amplitude type. The border between type B and type C was not clear. Although the distribution of the fluctuation types did not show any geographical cline, the high density type (type D) occurred in limited areas where the winter was severe and spring came later and almost all the populations in the Oshima peninsula were the low density type (type A). The most common type of population in Hokkaido, type C, greatly fluctuated from year to year with the maximum density level/the minimum one being over 10. The periodicity of the peak years was not statistically significant, although peaks often occurred at 3 or 4 year intervals. The population grew from spring to autumn in almost all years so that the pattern of the seasonal change was qualitatively constant. The population density levels in spring were not significantly different between peak years and others, while those in autumn were greatly different between them, so that the population growth rates from spring to autumn were variable from year to year. This differential pattern was also found between high and low density areas.     

Unique population dynamics of Japanese field vole: Winter breeding and summer population decline

It is common knowledge that winter temperatures influence the life history of small mammals. Cold temperatures necessitate increased energy requirements for survival, and recent studies indicate that snow cover can have both negative and positive influences. With each new observation, we develop a more comprehensive understanding of the mechanisms that influence small mammal populations. Here we report on our recent study on Japanese field vole Microtus montebelli, which reaches its peak in population during the early spring and its low during the autumn. To understand the population dynamics of these voles, we conducted a capture-mark-recapture survey, then estimated the seasonal abundance, recruit, capture probabilities, and survival probabilities using the Bayesian hierarchical model. We also analyzed the impact of mammalian generalist predator visits on the survival probabilities. Our data indicates that the early spring peak in population is due to intensive winter breeding and the highest survival probabilities during the periods of deep snow cover. When snow cover reaches a certain depth, the circumstances can combine to raise survival probability and favor breeding. During the breeding season in May and June, on the contrary, the survival probability reached its lowest, resulting in a decrease in population despite breeding. The low survival probability between spring and autumn could be attributed to the impact of generalist predators, and low vegetation may have amplified the effect. In summary, the deep snow cover and generalist predators were considered to be the key factors shaping this unique population dynamics in this orchard area.     

Dampening prey cycle overrides the impact of climate change on predator population dynamics: a long‐term demographic study on tawny owls

Predicting the dynamics of animal populations with different life histories requires careful understanding of demographic responses to multifaceted aspects of global changes, such as climate and trophic interactions. Continent‐scale dampening of vole population cycles, keystone herbivores in many ecosystems, has been recently documented across Europe. However, its impact on guilds of vole‐eating predators remains unknown. To quantify this impact, we used a 27‐year study of an avian predator (tawny owl) and its main prey (field vole) collected in Kielder Forest (UK) where vole dynamics shifted from a high‐ to a low‐amplitude fluctuation regime in the mid‐1990s. We measured the functional responses of four demographic rates to changes in prey dynamics and winter climate, characterized by wintertime North Atlantic Oscillation (wNAO). First‐year and adult survival were positively affected by vole density in autumn but relatively insensitive to wNAO. The probability of breeding and number of fledglings were higher in years with high spring vole densities and negative wNAO (i.e. colder and drier winters). These functional responses were incorporated into a stochastic population model. The size of the predator population was projected under scenarios combining prey dynamics and winter climate to test whether climate buffers or alternatively magnifies the impact of changes in prey dynamics. We found the observed dampening vole cycles, characterized by low spring densities, drastically reduced the breeding probability of predators. Our results illustrate that (i) change in trophic interactions can override direct climate change effect; and (ii) the demographic resilience entailed by longevity and the occurrence of a floater stage may be insufficient to buffer hypothesized environmental changes. Ultimately, dampened prey cycles would drive our owl local population towards extinction, with winter climate regimes only altering persistence time. These results suggest that other vole‐eating predators are likely to be threatened by dampening vole cycles throughout Europe.     

毛竹光合作用对环境因子的季节响应

采用Li-6400测定毛竹光合作用对光照强度、CO2浓度、温度和湿度等环境因子响应的季节变化,结果表明:毛竹最大净光合速率、光补偿点、光饱和点、光合量子效率的年均值分别为7.30、19.15、1075mmol.m-2.s-1,0.032;最大净光合速率夏季>秋季>冬季>春季;春季的光补偿点最高,夏季次之,而秋季和冬季均较小;光饱和点与光合量子效率的季节变化均为秋季>夏季>冬季>春季。毛竹CO2补偿点、CO2饱和点、羧化效率的年均值分别为73.52、1500μmol.mol-1,0.033。CO2补偿点春季>冬季>秋季>夏季;CO2饱和点春季>秋季>夏季>冬季;羧化效率夏季>秋季>冬季>春季。毛竹光合最适温度均在20～30℃,光合最适温度在春、秋季与实验前3天最高气温的平均值十分接近,而夏、冬季与测定前10天的最高气温平均值较为接近,光合最适温度在春、秋两季相当,夏季稍高,冬季最低。光合最适湿度为40%～65%,季节变化趋势:秋季>夏季>冬季>春季。总体而言,毛竹光合作用对环境因子的季节响应与环境因子的季节变化、叶片的生理活性密切相关。     

Survival in fluctuating bank vole populations: seasonal and yearly variations

For most organisms, both within‐year (i.e. seasonal) and between‐year variations in demography are important components in shaping the population dynamic patterns observed on a multiannual scale. These two sources of variation have, however, rarely been studied simultaneously. Most of the recent work on small rodent population dynamics, for example, has focused on between‐year variation. Densities of seed‐ and fruit‐eating rodents, such as the bank vole (Clethrionomys glareolus), are in particular known to have between‐year variation related to seed crop production. Here we report on the analysis of a long‐term (1976–1982) capture‐mark‐recapture (CMR) study of the bank vole in Belgium. The study was done on two grids, an open and a fenced grid. As part of the CMR statistical analysis, we propose a general modelling approach which allows for a detailed understanding of the relative importance of seasonal and between‐year variation in survival. We demonstrate that most of the seasonal variation corresponds to a lower apparent survival in spring compared to the rest of the year. During winter, apparent survival was lower on the open grid than on the fenced grid. Dispersal is therefore concluded to be an important determinant of the seasonal pattern. The between‐year variation in survival is largely attributable to variation in seed crops, and is comparable in magnitude to the seasonal variation.     

The autumn and spring emigrations of juvenile Atlantic salmon, Salmo salar L., from the Girnock Burn, Aberdeenshire, Scotland: environmental release of migration

Peaks in the emigratory activity of sexually immature, juvenile Atlantic salmon, Salmo salar , occur in autumn and early winter and in spring at the Girnock Burn in Aberdeenshire. Stream temperature is apparently without effect on the release of potentially emigrant fish from the stream. Migrants tend to leave the stream when stream discharge rate is elevated. Whereas downstream movements in autumn and the earlier part of the spring are made almost invariably when the stream's discharge rate is higher than the seasonal norm, later in spring they often occur when discharge rates are lower than the seasonal norm and when no apparent increase in absolute stream discharge rate has occurred. Emigration is depressed in the lunar quarter centred on the full moon. The nature of the relationship between the autumn and spring emigrations is discussed.     

雄性大熊猫褪黑素与睾酮季节性变化

褪黑素通过调控下丘脑-垂体-性腺内分泌轴使季节性繁殖动物在适宜的季节进行繁殖活动.大熊猫(Ailuropoda melanoleuca)在春季集中繁殖.为探究雄性大熊猫褪黑素和睾酮的季节性变化规律,本研究选取成都大熊猫繁育研究基地3只成年雄性大熊猫作为实验对象,在自然光照下对这3只大熊猫进行每周1次为期1年(2018年...     

Predator population dynamics under a cyclic prey regime: numerical responses,demographic parameters and growth rates

The consequences of cyclic fluctuations in abundance of prey species on predator continue to improve our understanding of the mechanisms behind population regulation. Among predators, vole‐eating raptors usually respond to changes in prey abundance with no apparent time‐lag and therefore contradict predictions from the predator–prey theory. In such systems, the interplay between demographic traits and population growth rate in relation to prey abundance remains poorly studied, yet it is crucial to characterize the link between ecological processes and population changes. Using a mechanistic approach, we assessed the demographic rates associated to the direct and indirect numerical responses of a specialist raptor (Montagu's harrier) to its cyclic prey (common vole), using long term data from two adjacent study sites in France. First‐year survival rates were weakly affected by vole abundance, probably due to the fact that Montagu's harriers are trans‐Saharan migrants and thus escape the vole collapse occurring in autumn–winter. Recruitment of yearling as well as breeding propensity of experienced adult females were strongly affected by vole abundance and at least partially shaped the trajectory of the breeding population. We argued that the strong density dependent signal detected in predator time series was mostly the phenomenological consequence of the positive direct numerical response of harriers to vole abundance. Accounting for this, we proposed a method to assess density dependence in predator relying on a cyclic prey. Finally, the variation in Montagu's harrier population growth rates was best explained by overwinter growth rates of the prey population and to a lesser extent by previous residual predator density.