Dampening of population cycles in voles affects small mammal community structure,decreases diversity,and increases prevalence of a zoonotic disease

Long‐term decline and depression of density in cyclic small rodents is a recent widespread phenomenon. These observed changes at the population level might have cascading effects at the ecosystem level. Here, we assessed relationships between changing boreal landscapes and biodiversity changes of small mammal communities. We also inferred potential effects of observed community changes for increased transmission risk of Puumala virus (PUUV) spread, causing the zoonotic disease nephropatica epidemica in humans. Analyses were based on long‐term (1971–2013) monitoring data of shrews and voles representing 58 time series in northern Sweden. We calculated richness, diversity, and evenness at alpha, beta, and gamma level, partitioned beta diversity into turnover (species replacement) and nestedness (species addition/removal), used similarity percentages (SIMPER) analysis to assess community structure, and calculated the cumulated number of PUUV‐infected bank voles and average PUUV prevalence (percentage of infected bank voles) per vole cycle. Alpha, beta, and gamma richness and diversity of voles, but not shrews, showed long‐term trends that varied spatially. The observed patterns were associated with an increase in community contribution of bank vole (Myodes glareolus), a decrease of gray‐sided vole (M. rufocanus) and field vole (Microtus agrestis) and a hump‐shaped variation in contribution of common shrew (Sorex araneus). Long‐term biodiversity changes were largely related to changes in forest landscape structure. Number of PUUV‐infected bank voles in spring was negatively related to beta and gamma diversity, and positively related to turnover of shrews (replaced by voles) and to community contribution of bank voles. The latter was also positively related to average PUUV prevalence in spring. We showed that long‐term changes in the boreal landscape contributed to explain the decrease in biodiversity and the change in structure of small mammal communities. In addition, our results suggest decrease in small mammal diversity to have knock‐on effects on dynamics of infectious diseases among small mammals with potential implications for disease transmission to humans.     

根田鼠母体摄食经历对幼体食物选择的影响

社会学习是动物的一种可塑性行为表型,能使动物个体获得提高其适合度的行为模式。母体对幼体的食性形成具有重要的影响。本文以栖息于青藏高原的根田鼠作为研究对象,在实验室条件下,根田鼠母体怀孕后期及哺乳期分别供给以0.01%糖精或0.1%橘子汁处理的食物,当幼体断乳时,同时供给断乳幼体糖精和橘子汁分别处理的食物,测定其食物选择。结果表明:根田鼠母体在怀孕期和哺乳期摄食经橘子汁处理的食物,断乳幼体在同时供给经橘子汁处理的食物和糖精处理的食物时,断乳幼体喜食经橘子汁处理的食物;而母体在怀孕期和哺乳期摄食经糖精处理的食物,断乳幼体在同时供给根田鼠断乳幼体经橘子汁处理和糖精处理的食物时,断乳幼体喜食经糖精处理的食物。说明根田鼠在断乳后仍喜食母体在怀孕期和哺乳期摄食过的食物种类。根田鼠栖息于季节性变化剧烈的环境中,幼体通过母体尽早学习食物选择是一种可塑性表型方式,利于其获得适应栖息地的行为模式。     

Small mammal responses to biosolids on grazed rangelands in British Columbia

Grasslands are globally declining due to habitat conversion, overgrazing, climate change, and changes in fire and drought regimes. Degraded grasslands are less able to support wildlife species, which contributes to the imperilment of many species. Biosolids are used by some ranchers as an organic amendment to support more plant growth and in turn more livestock. We worked on a large cattle ranch in central British Columbia, Canada, to determine how biosolids amendment affected small mammal populations, as mice and voles are major prey for many predators and contribute to seed dispersal and underground dynamics. We found that biosolids-amended pastures had more grass cover and supported fewer deermice (Peromyscus maniculatus) than did unamended pastures. Voles were scarce, likely due to a cyclic low. Although we sampled sites that had had biosolids applied 1 or 3 years prior to our work started, deermouse populations were similarly low across these sites. The reduction in deermice on sites with biosolids relative to unamended sites could be a signal of habitat restoration, because deermice prefer disturbed habitats rather than ones with high plant cover. Grass cover was more than twice as high on sites amended with biosolids, making these sites less suitable for deermice.     

Protein polymorphisms and their genetic control in the red-backed vole, Clethrionomys rufocanus bedfordiae

Twenty enzymatic and non-enzymatic proteins in a wild population of red-backed voles, Cletrionomys rufocanus bedfordiae , were investigated by electrophoresis. Seven enzymatic and non-enzymatic protein systems were found to be polymorphic. Breeding data indicated that the mode of inheritance of the enzyme systems ME-1, ME-2, GPD and EST were consistent with a Mendelian law. Two systems, 6 PGD and SOD, were estimated to be genetically controlled from the electrophoretic patterns and mother-offspring comparison of phenotypes. In the Tf system two new additional phenotypes were observed, but their inheritance could not be elucidated. Gene frequencies at seven loci were also investigated in 88 animals. There was no significant deviation from Hardy-Weinberg equilibrium.     

褐家鼠肥满度的研究

褐家鼠肥满度的研究杨再学,郭世平（贵州省余庆县植保站,５６４４００）ＲｅｌａｔｉｖｅＦａｔｎｅｓｓｏｆＢｒａｎｄ＇ｓＶｏｌｅ（Ｒａｔｔｕｓｎｏｒｖｅｇｉｃｕｓ）．￥ＹａｎｇＺａｉｘｕｅ;ＧｕｏＳｉｐｉｎｇ（ＹｕｑｉｎｇＣｏｕｎｔｙＰｌａｎｔＰｒｏｔｅ...     

棕色田鼠和沼泽田鼠的气味识别

把棕色田鼠或沼泽田鼠暴露于同种个体底物(个体饲养箱内的锯末)1h,不同组别的田鼠在间隔15min、30min、60min后,记录对暴露过的熟悉底物和另一个陌生底物的访问、嗅闻、挖掘等社会探究行为(每组在每一个时间间隔只试验1次),统计分析发现,田鼠在暴露于同种异性底物,然后间隔不同的时间后,总是倾向于选择熟悉同种异性底物;田鼠在暴露于同种同性底物,然后间隔不同的时间后,总是倾向于选择陌生同种同性底物;棕色田鼠在暴露于同性底物1h,然后间隔60min后,对陌生的同性底物有明显多的探究行为,但沼泽田鼠在同种情况下却没有表现出这种选择倾向。在暴露底物1h,然后间隔60min后,雌性田鼠比雄性田鼠表现出更明显的选择倾向。以上结果表明不同种类和性别的田鼠对气味表现出不同的识别模式。这种差异可能表明不同种具有木同的社会组织、生态和生活史对策。     

田鼠亚科啮齿动物的社会组织、交配制度和栖息地的关系

田鼠亚科的两种啮齿动物黄腹田鼠(prairie vole,Microtus ochrogaster)和草甸田鼠(meadow vole,M.pennsylvanicus)是社会组织完全不同的两个种。黄腹田鼠原始栖息地在北美北部中央大片毗连的草原上,生境较稳定。该种易于接触,其交配为一夫一妻制,并成对结合。雌雄鼠共居在同一巢穴里,雌鼠只与配对雄鼠交配,雄鼠回避非配对的外来雌鼠,并分担巢穴的营造和维修,同时也照管幼仔,包括饲养、聚集和挽救。幼体断乳后,多数仍留在巢穴里,并协助照管下一窝幼仔,不参加繁殖,只有那些从家族群中扩散出去,并与无亲缘关系的雄鼠交配的雌性青年鼠才能繁殖后代。这种交配制度的作用是扩散种群,子代为寻求婚配而从家族群中离去,从而避免局部种群密度增高,以及由此造成的食物短缺。由于繁殖对是由非亲缘关系的个体结合而成,避免了近亲繁殖及由此带来的遗传性有害影响。     

Cadmium,zinc and iron interactions in the tissues of bank vole <Emphasis Type="BoldItalic">Clethrionomys glareolus</Emphasis> after exposure to low and high doses of cadmium chloride

In present study, bank voles Clethrionomys glareolus were peritioneally injected with different doses of cadmium, 0, 1.5, 3.0 mg Cd/kg body mass. Animals were sacrificed on the 21st day after cadmium exposure and the liver and kidney were obtained for cadmium, zinc and iron analysis using atomic absorption spectrometry. Results showed that cadmium had accumulated in the tissues according to dosage and sex. Cadmium affected the survival and body masses of dosed females. Cadmium decreased the iron concentrations in the liver of voles, whereas zinc concentrations increased in both the kidney and liver.     

草原田鼠和草甸田鼠波动种群雌鼠的攻击性

本文比较研究了草原田鼠和草甸田鼠自然种群在不同密度周期时相雌鼠攻击水平的变化。结果表明, 不同密度时相, 草原田鼠种群中攻击雌鼠所占比例以及接近、威胁、进攻、退避, 进攻/ 接近等5 种行为变量均无显著的差异, 5 种行为变量与种群密度亦均不呈显著的线形相关关系。然而, 草甸田鼠在不同密度时相攻击雌鼠的比例差异显著。低密度时相, 雌鼠发生威胁行为的平均次数显著高于上升和衰减时相, 进攻行为的平均次数亦显著高于其它时相。本研究结果不支持有关田鼠种群在一个完整的周期过程中具有多态性行为的假设。     

田鼠种群波动的原因和时间

本文总结了橙腹田鼠（Microtus ochrogaster）和草原田鼠（M．permsylvanicus）25年的种群统计学研究结果和结论。探讨了田鼠种群波动周期性、诱发种群波动以及导致波动期间峰值变异的因素。并对种群存活值和繁殖活动的作用进行了分析和评价。根据两种田鼠种群波动周期性、波动峰值出现的时间以及特定年份峰值的高度等特征,证明两物种波动均具有不稳定性。两种田鼠存活值的变化是由特定年份是否发生波动以及波动峰值出现的时间决定。增加初始阶段的种群密度及时间长度是造成两种动物种群波动峰值不同的主要原因。橙腹田鼠种群停止增长的原因是存活值降低,而草原田鼠则是繁殖活动减少。据推测,与种群波动初始密度相关的种群死亡率的差异是由捕食者的净效应（Net effect）决定的,调控两种群密度的因素均为非密度的其它生态学因子。由于特定年份田鼠种群捕食压力的不确定性,导致了橙腹田鼠和草原田鼠种群波动的不稳定性。     

布氏田鼠越冬集群贮草面积的两种估算方法比较

布氏田鼠 (Ｍｉｃｒｏｔｕｓｂｒａｎｄｔｉ)为内蒙古典型草原区的主要害鼠 ,具贮草越冬习性[2 ,5～ 7] 。因此 ,研究其越冬集群的贮草面积 ,对于分析该鼠的越冬生态特征以及定量衡量其危害程度 ,具有重要的意义。本文提出两种估算布氏田鼠越冬集群贮草面积的方法 ,即黄蒿根计数法和跑道测量法 ,并对两种估算方法进行了比较。1　材料与方法本项研究是于 1 995年度在内蒙古赤峰市克什克腾旗阿其乌拉苏木 ( 1 1 6°2 5′Ｎ ,37°5 1′Ｅ)以及中国科学院内蒙古草原生态系统定位研究站 ( 43°37′Ｎ ,1 1 6°4 1′Ｅ)进行的。1 0月中旬 ,在阿其…     

浅谈田鼠亚科动物的种群调节─—食物、营养及复合因子假说

浅谈田鼠亚科动物的种群调节─—食物、营养及复合因子假说姜永进,王德华（中国科学院西北高原生物所,西宁８１０００１）（北京师范大学生物系,１００８７５）ＲｅｇｕｌａｔｉｏｎｏｆＶｏｌｅＰｏｐｕｌａｔｉｏｎ：ＩｎｖａｌｉｄｉｔｙｏｆｔｈｅＦｏｏｄ,Ｎｕｔ...     

Is there a relationship between dominance rank and condition in captive male bank voles, Clethrionomys glareolus?

The sexual selection theory predicts that traits associated with male–male competition or female mate choice honestly reflects individual quality when they are costly and condition dependent. Dominance seems to be a reliable signal of male quality. The aim of this study was to investigate whether dominance rank, measured in terms of agonistic interactions and trait correlated with dominance, such as preputial gland mass, depends on condition in captive male bank voles. We used five physiological measures to characterize condition: body mass, neutrophils to lymphocytes ratio (N/L ratio), spleen mass, thymus mass and adrenal gland mass. Additionally, the condition of males was challenged with a T cell-dependent antigen, sheep red blood cells. Dominance rank was not significantly related to body mass, N/L ratio and adrenal gland mass but was positively correlated with immune defence organ mass. Moreover, testes mass was positively related to the N/L ratio. However, after Bonferroni correction, only the relationship between preputial gland mass and thymus mass remained significant. Results of this experiment showed condition dependence of dominance in captive male bank voles.     

Microhabitat use and behavior of voles under weasel and raptor predation risk: predator facilitation?

An example of predator facilitation is that a microhabitat shiftin a prey species induced by one predator increases the probabilityof the prey falling victim to other predators. Least weasels(Mustela nivalis) hunt in dense plant cover, whereas kestrels(Falco tinnunculus) hunt in habitats with sparse plant cover.Field voles (Microtus agrestis), the main food of weasels andkestrels, prefer open country with a high grass layer. We simulateda multipredator environment in an aviary (3.0 x 4.8 x 2.2 m)to find out whether predator facilitation plays a role in theinteractions between voles, small mustelids, and raptors. Ineach replicate, we placed a field vole in a pen including sidesof high and low grass layers (cover and open). In a predator-freesituation, voles preferred cover but shifted to open when aweasel was introduced to cover. In the presence of a kestrel,voles occupied cover and decreased their mobility. In the presenceof a weasel plus a kestrel, voles behaved as under the kestrelrisk alone. Therefore, in these aviary circumstances, volesperceived the kestrel risk as greater than the weasel risk.Predator facilitation in the assemblage of predators subsistingon rodent prey may contribute to the crash of the four-yearvole cycle: microhabitat shift due to an avoidance of weaseljaws may drive voles to raptor talons.     

The influence of climate on morphometric traits of fossil populations of Microtus arvalis and M. agrestis from the Carpathian Basin,northern Hungary

In this study, we analysed morphometrically fossil populations of Microtus arvalis and M. agrestis from eight late Middle to Late Pleistocene archaeological and palaeontological sites in the Carpathian Basin, northern Hungary. The intra‐ and interspecific variations in both species can be related to climatic oscillations linked to the onset of the Eemian interglacial and the first phases of Marine Isotope Stage 5. The size of M. agrestis can be correlated with the presence/absence of relatively humid climatic and environmental conditions and of surface water resources (such as marshes and flooded areas). A possible immigration event of M. arvalis populations into the Carpathian Basin, also related to the Eemian interglacial, is also identified.     

Intergenerational transmission of the behavioral consequences of early experience in prairie voles

We examined intergenerational and epigenetic effects of early handling manipulations on the social behavior of the prairie vole (Microtus ochrogaster), a monogamous rodent. Laboratory-born parents and their newborn pups were assigned to either a MAN0 “zero handling” manipulation (transfer with a cup during weekly cage changes) or a MAN1 “gloved handling” manipulation (transfer with a gloved hand). Previous studies from our laboratory (Bales et al., 2007) showed that MAN0 juvenile males that received this manipulation as pups are less alloparental and that MAN0 adult females that received this manipulation as pups display impaired pair-bonding. In the present study, when MAN0 and MAN1 pups reached adulthood, they were mated in three combinations (MAN1 female × MAN1 male; MAN0 female × MAN1 male; MAN1 female and MAN0 male). Once the pairs produced offspring, we examined their parental behavior towards their own pups. The offspring of these pairings (F2 generation) also were tested as juveniles for alloparental behavior. MAN1 females paired with a MAN0 male displayed higher levels of parenting behaviors. In the F2 generation, juvenile offspring with a MAN0 parent were less alloparental than were offspring from other pairs. These results suggest that early experiences can be transmitted intergenerationally.