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。     

单宁酸对棕色田鼠和小鼠食物选择、日食量和蛋白质消化率的影响

目的用不同浓度单宁酸（tannic acid,TA）处理后的花生喂养棕色田鼠（Lasiopodomys mandarinus）和小鼠（Mus musculus）,研究单宁酸对两种鼠食物选择倾向、食物摄入量、蛋白质消化率的影响。方法本研究的设计如下：1）选择一批棕色田鼠和小鼠,单笼饲养,自由饮水。用正常花生饲喂二周实验用棕色田鼠和小鼠,使其适应这种食物;2）随机选出棕色田鼠和小鼠各10只（雌雄各半）,单笼饲养。用经0%、5%、10%TA处理的花生饲喂供试鼠一周,观察和记录两种鼠对TA处理后花生的选择和取食特征;3）随机选出18只棕色田鼠和18只小鼠,单笼饲养,并各分为3组（每组均为6只）,按两种鼠分别命名为对照组、低单宁酸组、高单宁酸组,并分别用经0%、5%和10%TA处理的花生饲喂一周,测定两种鼠的食物摄入量;同时收集粪便,用凯氏定氮仪测定粗蛋白含量,计算蛋白质消化率。结果1）棕色田鼠和小鼠均优先选择无TA食物（P〈0.001）,二者间差异达显著性水平（P〈0.001）;2）食物中的TA降低棕色田鼠和小鼠的相对日食量（P〈0.001）和食物中蛋白质的消化率,随TA含量的升高,棕色田鼠和小鼠的相对日食量和蛋白质消化率均显著下降。结论TA降低棕色田鼠和小鼠的食物摄入量和食物中蛋白质的消化率。TA对鼠类的食物摄入量和蛋白质消化率的影响有种间差异性,小鼠对TA的适应性更强。     

光照对棕色田鼠和昆明小鼠活动性的影响

光照对啮齿动物的行为格局和活动节律有着重要的影响。本研究以比较生物学方法,以光照强度和鼠种两个因素,在实验室内利用动物行为监视系统,以焦点动物取样法( Focus animal sampling) ,在＜ 20 Lux、200 Lux、800 Lux 和1 600 Lux 等4 个水平的光照强度下,监测和记录棕色田鼠和昆明小鼠的移动和静止行为,并在实验结束时测定实验动物的体重; 在800 Lux 光照强度下,设置正常( 12L∶ 12D) 和全黑( 0L∶ 24D) 两种光照时间,连续12 h监测并记录实验动物的行为。采用双因素方差分析方法对数据进行统计分析。结果表明:1) 光强与鼠种对静止行为存在显著交互作用,棕色田鼠的静止行为与光强间存在显著的负相关关系,而昆明小鼠的静止行为则与光强无显著的相关; 2) 光强对两种动物移动行为的影响与静止行为表现方式相反; 3) 在12 h的光暴露条件下,棕色田鼠的相对活动显著强于昆明小鼠; 4) 光强对两种动物体重的影响不同,棕色田鼠体重与光强呈正相关关系,昆明小鼠与光强呈负相关关系,但差异不显著。本研究进一步验证了地面鼠与地下鼠对光强适应的差别。     

棕色田鼠胃的形态与组织学观察

目的研究棕色田鼠胃的适应性特征。方法采用大体解剖、组织学和扫描电镜研究方法,观察棕色田鼠胃部形态学结构特征。结果根据形态特征棕色田鼠胃部可明显的分为2个胃室,根据有无腺体分布可分为有腺区和无腺区,第一胃室及第二胃室的大部分区为无腺区,胃的无腺区表面为角质化复层扁平上皮;有腺区上皮为单层柱状上皮;第一胃室与第二胃室交界处存在有19～21个特殊的瓣膜结构。结论棕色田鼠胃的形态发生了明显的适应性变化特征,出现了两个胃室,胃室之间首次发现有瓣膜结构存在。     

The difference of urine between Brandt’s voleLasiopodomys brandtii in the breeding and non-breeding condition

Using animal house experiments we demonstrated that urine odor can elicit physiological changes in the maturation rate of Brandt’s vole (Radde, 1861). We showed that the urine of estrous females, anestrous females and non-breeding males had no effect on the time of sexual maturity of young voles. In contrast, the maturation rate of young female voles was accelerated, and the maturation rate of young male voles was slowed, by exposure to the urine of breeding adult males. Headspace analysis revealed significant differences in the levels of a subset of volatile constituents of urine from breeding and non-breeding males. From a total of 50 components, Propanoic acid, 2,5-Dimethylpyrazine, Dimethyldisulfide, 1-Octene, 1-Hexanol, Hexanoic acid and p-Xylene were observed only in the urine of breeding male Brandt’s voles. All other substances were present in the volatiles from urine of both breeding and non-breeding male Brandt’s vole.     

Isolation and characterization of polymorphic microsatellite loci from Brandt's voles (Lasiopodomys brandtii)

Ten polymorphic microsatellite loci from Lasiopodomys brandtii have been isolated and characterized. Two to 11 alleles per locus were detected from 52 Brandt's voles samples collected from a single population. Expected heterozygosities ranged from 0.406 to 0.840. For the majority of loci observed heterozygosities were similar to or greater than the expected heterozygosity. One locus pair appeared to be in linkage disequilibrium. The microsatellite markers will enable the studies of genetic diversity, population structure and relatedness in this species, and perhaps in closely related species of vole.     

The predation risks of interspecific eavesdropping: weasel–vole interactions

Competing species benefit from eavesdropping on each other's signals by learning about shared resources or predators. But conspicuous signals are also open to exploitation by eavesdropping predators and should also pose a threat to other sympatric prey species. In western Finland, sibling voles Microtus rossiameridionalis and field voles M. agrestis compete for food and space, and both species rely upon scent marks for intraspecific communication. Both vole species are prey to a range of terrestrial scent hunting predators such as least weasels, however, the competitively superior sibling voles are taken preferentially. We tested in large out‐door enclosures whether field voles eavesdrop on the signals of its competitor, and whether they behave as though this eavesdropping carries a risk of predation. We presented field voles with scent marks from unknown conspecifics and sibling voles and measured their visitation, activity and scent marking behaviours at these scents under high (weasel present) and low (weasel absent) predation risk. Field voles readily visited both field and sibling vole scents under both high and low predation risk; however their activity at sibling vole scent marks declined significantly under increased predation risk. In contrast, predation risk did not affect field voles’ activity at conspecific scents. Thus, field voles were compelled to maintain eavesdropping on heterospecific scents under an increased risk of predation, however they compensated for this additional risk by reducing their activity at these risky scents. Scent marking rates declined significantly under high predation risk. Our results therefore reveal a hidden complexity in the use of social signals within multi‐species assemblages that is clearly sensitive to the potential for increased predation risk. The predation risks of interspecific eavesdropping demonstrated here represents a significant generalisation of the concept of associational susceptibility.     

雌性棕色田鼠和昆明小鼠在慢性间歇性低氧条件下血象变化的比较

本文旨在对雌性棕色田鼠(Lasiopodomys mandarinus)和昆明小鼠(Mus musculus)在慢性间歇性低氧条件下血象的变化进行比较,从而为地下生活鼠种血液系统对慢性间歇性低氧的应答对策的研究提供基础数据。采用实验氧舱对棕色田鼠和昆明小鼠进行每天4h、持续28d的慢性间歇性低氧(氧浓度10.0%)处理,然后对其血象进行了比较分析。结果显示:(1)常氧下棕色田鼠的红细胞计数(red blood cell count,RBC)显著高于昆明小鼠,而红细胞平均体积(mean corpuscular volume,MCV)则显著小于昆明小鼠,慢性间歇性低氧处理后昆明小鼠的MCV和红细胞压积(hematocrit,HCT)显著增加,而棕色田鼠MCV和HCT无明显影响;(2)常氧条件下棕色田鼠的平均血红蛋白含量(mean corpuscular hemoglobin,MCH)显著低于昆明小鼠,而平均血红蛋白浓度(mean corpuscular hemoglobin concentration,MCHC)则显著高于昆明小鼠,慢性低氧处理后昆明小鼠血红蛋白(hemoglobin,HGB)含量和MCH均显著增加,而在棕色田鼠仅出现MCH的明显增加;(3)常氧条件下棕色田鼠的白细胞计数(white blood cell count,WBC)和血小板(platelet,PLT)都显著低于昆明小鼠,慢性低氧处理后棕色田鼠和昆明小鼠的WBC和PLT均未发生显著变化。以上结果表明,棕色田鼠作为地下生活鼠种,对低氧环境具有较好的耐受性,其血液系统对低氧胁迫的应答机制与地面生活鼠种昆明小鼠不同。     

Importance of sandy bottoms in coral reefs to the oscillation of daily rhythms in the tropical wrasse Halichoeres trimaculatus

Most wrasse species swim during the day and bury themselves in the sandy bottoms of shallow reefs at night. This study aimed to evaluate the importance of sandy bottoms to the day-active/night-inactive rhythmicity of the tropical wrasse Halichoeres trimaculatus. Actogram analysis revealed that fish were active during the photophase and inactive during the scotophase in aquariums with both sandy and bare bottoms. When fish were kept in aquariums with bare bottoms, rhythmicity was maintained under constant dark conditions (DD) but became obscured under constant light conditions (LL), suggesting that a day-active/night-inactive rhythmicity is regulated by the circadian system. Robust fluctuations in Period1 (wPer1) and Period2 (wPer2) expression were observed in the pectoral fin tissue under light–dark conditions (LD). Similar fluctuations in wPer1 expression persisted under DD. When fish were kept under LD conditions for 7 days and then DD for 20 days, the emergence of fish from the sandy bottom was delayed gradually. At the same time, the peak time of wPer1 expression under DD was retarded from 06:00 to 10:00. Although wPer2 expression was dampened under DD, it increased after exposing fish to light. These results suggest that wPer1 and wPer2 are differentially involved in the day-active/night-inactive rhythmicity, and that blocking light with a sandy bed at night and exposing fish to light during emergence in the morning play important roles in maintaining consistent activities in wrasse species.     

Comparison of social interaction and neural activation in the main olfactory bulb and the accessory olfactory bulb between Microtus mandarinus and Microtus fortis

To gain insight into the function of AOB and MOB during different social interaction and in different vole species,the behaviors and neural activation of the olfactory bulbs in social interactions of mandarin voles Microtus mandarinus and reed voles Microtus fortis were compared in the present research.Mandarin voles spent significantly more time attacking and sniffing their opponents and sniffing sawdust than reed voles.During same sex encounters,mandarin voles attacked their opponents for a significantly ...     

Social but lonely: Species delimitation of social voles and the evolutionary history of the only Microtus species living in Africa

The social vole of Cyrenaica, Libya, is the only extant representative of the Cricetidae family found in Africa. Its taxonomic status has been under debate, partly due to the problematic systematics of the entire group of social voles and partly due to the lack of morphological and molecular data from Cyrenaican specimens. In this study, we applied ancient DNA protocols to produce three cytochrome b (cytb) sequences of Cyrenaican voles and built a phylogenetic reconstruction (195 sequences in total) incorporating all available cytb sequences of the remaining social voles, other representatives of the genus Microtus and closely related cricetids. We used this phylogeny to test the performance of the model-based, single-locus, species delimitation approach implemented in mPTP and delimited nine species of social voles. Among them are the Cyrenaican vole, Microtus mustersi and its sister species M. guentheri, distributed along the Mediterranean coasts of southwestern Asia. Biogeographical reconstruction of ancestral area and molecular clock estimations of the time since the divergence of the two sister lineages suggest that their common ancestor dispersed into Africa through a coastal route and was isolated in Cyrenaica as a result of population fragmentation associated with Middle Pleistocenic pluvial/interpluvial cycles. Geographic isolation triggered the speciation process, but species distribution modeling gave evidence of subsequent niche divergence; M. guentheri has adapted to the xeric conditions of its distributional area, while M. mustersi benefited from the milder Cyrenaican climate. The Cyrenaican vole is a relict species more than 200,000 years old, has a small and isolated distribution and probably merits conservation.     

Food ingestion and circadian rhythmicity

Feeding is organised within the 24-h of the light - dark (LD) cycle. Food is ingested in a circadian manner in nature and in laboratory animals kept under constant conditions. The circadian rhythmicity in food ingestion is driven by a biological clock located in the suprachiasmatic nuclei (SCN) of the hypothalamus. The circadian organisation of food ingestion not only allows animals to live in harmony with their environment but food intake could also act as a zeitgeber for other rhythmic functions. Lesions in the area of the SCN result in the loss of most rhythmic functions as well as to a disrupted circadian rhythmicity of food and water intake. These findings, together with observations from daytime feeding experiments conducted in nocturnal animals, suggest that food intake may serve as a temporal signal for some peripheral organs to oscillate in phase with the SCN. This paper overviews and discusses how food intake interacts with the circadian system.     

Multiple captures provide evidence of small mammal social behavior

Social behavior of small mammals living under natural conditions often is inferred from live-trapping data, particularly from incidents in which two or more individuals are captured together in a trap. We examined whether multiple-capture data from a long-term study of prairie voles (Microtus ochrogaster) and meadow voles (Microtus pennsylvanicus) were consistent with well-known species differences in social behavior (whereas prairie voles are highly social and display monogamy, meadow voles are less social and promiscuous). When possible, we also examined multiple captures of two nontarget species, northern short-tailed shrews (Blarina brevicauda) and western harvest mice (Reithrodontomys megalotis). Percent of total captures that were multiple captures and percent of total adult captures that were male–female captures were highest for prairie voles and lowest for meadow voles; values for harvest mice and shrews were in between those of the vole species, but more similar to values for meadow voles. Repeat captures of the same male–female pair occurred most commonly in prairie voles, and multiple captures of this species typically involved individuals from the same social group. Multiple captures of adults and juveniles were more common in prairie voles than meadow voles, except for captures of at least one adult male and at least one juvenile, which did not differ between the two vole species. Multiple capture data for prairie voles and meadow voles were largely consistent with established species differences in social behavior, suggesting that such data can provide an accurate indication of social and mating systems of small mammals.     

Hare and vole browsing preferences during winter

The aim with this study was to, under controlled conditions, determine the food preference of mountain haresLepus timidus Linnaeus, 1758 and bank volesClethrionomys glareolus (Schreber, 1780) for a substantial part of the woody plants potentially available for these herbivores during winter. In addition, we compared hare and vole preference patterns. Thirteen woody plant species were simultaneously presented to 9 captive voles and 9 captive hares in preference tests during winter. Consumption by hares from 50 g bundles (one per species) was measured after 3 h, whereas shoot consumption by voles was measured after 12 h. Both hares and voles preferred deciduous species to conifers,Populus tremula, andVaccinium myrtillus being the most preferred species. However, there was considerable variation in palatability among deciduous plant species and only a marginally significant correlation was found between hare and vole preference. One striking differences between hares and voles was that Sorbusaucuparia was the most utilised by voles but the least preferred by hares. In conclusion, deciduous plant species were generally considerably more palatable to hares and voles than conifers, which is consistent with current theories. Nevertheless, the high variation in palatability among deciduous trees and the difference in preference between hares and voles indicate more complex and species-specific patterns with regard to plant— animal interactions. The latter also suggests that hares and voles differ in their dietary adaptations and have different dietary constrains.     

Expression of early developmental genes in vole <Emphasis Type="Italic">Microtus rossiaemeridionalis</Emphasis>

The expression of genes Sox2, Klf4, Myc, Sall4, Gata6, Foxa2, Hnf4a, Cdx2, Esrrb, Hand1 in cell lines, embryos and organs of adult voles Microtus rossiaemeridionalis was studied. High resemblance of the expression patterns of these genes in the organs of adult voles, mice and humans was demonstrated. It was established that genes Gata6, Foxa2 and Hnf4a were specifically expressed in vole extraembryonic endoderm cells, while Cdx2 and Hand1 genes, in trophoblast stem cells. This shows that these genes can be used as markers of corresponding vole cell lines. Indirect confirmation pointing to the fact that Oct4 gene is a marker gene for epiblast cells both in the vole and mouse was obtained.