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1.
生活在同一地域的物种,会因强烈的资源竞争而产生生态位重叠与分离,从而实现相互共存。以神农架地区啮齿动物为研究对象,比较分析不同啮齿类食性、脏器重量及消化道形态差异,探索其共存机制及其生理生态学上的适应策略。食性上,安氏白腹鼠(Niviventer andersoni)、社鼠(N.confucianus)、高山姬鼠(Apodemus chevrieri)、中华姬鼠(A.draco)均为杂食者,但各自喜食偏好不同,安氏白腹鼠的食物组成以植物枝叶和种子为主,社鼠、高山姬鼠和中华姬鼠的食物组成均以种子和动物性食物为主。与各自生态习性及其食性相适应,不同啮齿动物的脏器重量及消化道形态发生相应的变化。脏器重量上,不同啮齿动物心鲜重、肺鲜重、脾鲜重和干重无显著差异,其它指标差异显著。安氏白腹鼠的心干重、肺干重、肝鲜重和干重、肾鲜重和干重显著大于社鼠、高山姬鼠和中华姬鼠。消化道形态上,不同啮齿动物盲肠长、净鲜重和干重无显著差异,其它指标差异显著。其中,胃含内容物鲜重、净鲜重和干重,盲肠含内容物鲜重,大肠长、含内容物鲜重、净鲜重和干重均以安氏白腹鼠具较大值,但各自变化趋势不同;小肠长、含内容物鲜重、净鲜重和干重则以社鼠具较大值。且同属姬鼠属的高山姬鼠和中华姬鼠脏器重量及消化道形态各指标间均无显著差异。由于小泡巨鼠和猪尾鼠数量较少,未进行统计分析。以上结果显示:食物资源利用上的分化有利于安氏白腹鼠与其近缘物种社鼠及其他鼠类的同域共存,且为适应不同的食物资源利用模式,其脏器及消化道形态也发生了适应性的变化;同域分布的近缘物种高山姬鼠、中华姬鼠则有可能采取其它策略而非食物资源分化模式实现共存。  相似文献   

2.
肥满度被广泛用于动物生长状况与环境、生存、繁殖等方面的研究。为揭示横断山脉森林环境中中华姬鼠(Apodemus draco)和社鼠(Niviventer confucianus)肥满度的变化规律及影响原因,我们于2008年4~11月对四川省蜂桶寨国家级自然保护区内中华姬鼠和社鼠肥满度在各年龄组及不同季节中的变化进行了研究。结果显示,中华姬鼠肥满度在各年龄组间的差异显著,其变化趋势为老年组>成年组>亚成年组>幼年组;亚成年组及老年组肥满度在各季节间无显著差异,而在成年组则差异明显,以春季中最高。社鼠肥满度在各年龄组间无显著性差异;亚成年组肥满度在各季节间差异显著,在夏秋季中最低,同时成年组及老年组肥满度在季节间无显著差异。中华姬鼠和社鼠亚成年组、成年组及老年组肥满度与海拔无显著的线性关系。分析认为,中华姬鼠老年组个体可能在应对外界环境方面要强于幼年个体而具有最高的肥满度,成年个体肥满度的季节变化可能受食物资源季节差异和繁殖能量需求的影响;社鼠成年及老年个体能通过相应的季节性调节维持肥满度的稳定,而亚成年个体在调节方面较弱,故其肥满度在夏秋季最低。  相似文献   

3.
我们于2008年4~11月对四川蜂桶寨自然保护区内中华姬鼠(Apodemus draco)和社鼠(Niviventer confucianus)肥满度在各年龄组及不同季节中的变化进行了研究,并初步分析了影响因素。结果显示:中华姬鼠肥满度在各年龄组中的性别差异不明显;在各年龄组间的差异显著,其变化趋势为老年组>成年组>亚成年组>幼年组,亚成年组及老年组肥满度在各季节间无显著差异,而成年组则差异明显。社鼠肥满度在各年龄组间无显著性差异,亚成年组肥满度在各季节间差异显著,同时成年组及老年组肥满度在季节间无显著差异;二物种,亚成年组、成年组及老年组肥满度与海拔无明显的线性关系。分析认为,繁殖期能量的消耗的增加可能导致中华姬鼠肥满度在繁殖期下降,而社鼠成年及老年个体面对食物资源、能量需求等方面的季节变化,能够通过相应的调节,维持肥满度的稳定。  相似文献   

4.
沈丽  王勇  王劼  胡忠军  张美文  李波 《四川动物》2005,24(2):132-137
对洞庭湖3种不同生态类型区(农区、林区、农林交错区)不同季节黑线姬鼠消化道各器官长度、鲜重和干重的测量表明,在3种生态类型区中,黑线姬鼠消化道各器官鲜重和干重季节变化显著。农区和林区消化道各器官的鲜重和干重在春季和冬季显著重于夏季和秋季,农林交错区消化道各器官鲜重和干重在春季显著重于夏季和秋季,这可能与春季和冬季黑线姬鼠能量需求增加、食物缺乏和食物质量下降有关。在同一季节,3种生态类型区之间消化道各器官长度、鲜重和干重均无显著性差异。这与3种生态类型区间黑线姬鼠食物变化较小有关。关于消化道各器官长度变化方面,除了农区的大肠长度有显著季节性差异外,其它指标均无显著季节性差异。以上结果表明黑线姬鼠消化道各器官在外界环境因素的影响下能产生不同的反应,消化道形态的变化是黑线姬鼠面临外界胁迫因子时的一种消化对策。  相似文献   

5.
对嫩江下游流域人工林区两同域共存优势种黑线姬鼠东北亚种(Apodemus agrarius mantchuricus)与黑线仓鼠三江平原亚种(Cricetulus barabensis manchuricus)夏季主要食物组成及消化道形态结构的适应性变化进行了比较分析.二者均以当年生植物嫩茎、叶、种子及昆虫为主要取食对象,但黑线姬鼠对茎和叶的采食频次小于黑线仓鼠,而种子、根和昆虫类在黑线姬鼠的食物中出现的频次则相对较高.与食物组成相适应,黑线仓鼠的胃、盲肠和大肠在长度及重量上均显著大于黑线姬鼠,这是黑线仓鼠对高纤维和低蛋白食物的适应性调整.研究结果表明,两种啮齿动物在长期的进化中产生了不同的食物资源利用模式,而其消化道形态结构的变化则可能是其在长期的种间竞争和进化压力下进行食物资源分享的一种功能性反应.  相似文献   

6.
横断山区高山姬鼠消化道形态的季节动态   总被引:3,自引:0,他引:3  
王蓓  朱万龙  练硝  王政昆 《生态学报》2009,29(4):1719-1725
为探讨栖息于横断山地区高山姬鼠的消化道特征与环境之间的适应关系,对野外条件下高山姬鼠消化道各项指标进行了测定.实验分别测定了不同季节高山姬鼠胃、小肠、大肠、盲肠的长度、含内容物重、去内容物重、干组织重.结果表明:高山姬鼠消化道特征存在季节性变化,胃、小肠、大肠的各项指标及盲肠去内容物重、干重均于食物质量较好的6月、9月份较高;盲肠长度和含内容物重于3月、11月份较高.高山姬鼠在低温、食物质量下降、繁殖等胁迫因子影响下,通过增加食物摄入、调节消化道形态来满足能量需求的增加,维持正常的生理机能.高山姬鼠的消化道在不同季节中表现出的变化模式说明其有能力适应低纬度高海拔,年平均温度较低的生存环境.  相似文献   

7.
社鼠和褐家鼠消化道长度和重量的季节变化   总被引:28,自引:0,他引:28  
杜卫国  鲍毅新 《动物学报》2000,46(3):271-277
测定了浙江金华的社鼠和褐家鼠消化道长度和重量的季节变化。野生社鼠消化道各器官无论长度不审重量都有明显季差异,在寒冷的冬季具有相对较大的小肠、大肠、盲肠、雄性社鼠的消化道长度在秋季由于食物条件的改善而明显下降,但雌性社鼠由于在秋季仍有繁殖负担,其消化道长度下降不明显,而家栖的褐家鼠只有总消化道、小肠和大肠的长度有季节差异,冬、春季高于夏、秋季。消化道形态季节变化与温度、食物条件和繁殖有关。  相似文献   

8.
洞庭湖区社鼠消化道长度和质量的季节变化   总被引:2,自引:0,他引:2  
对洞庭湖区社鼠(Niviventer confucianus)自然种群四季的消化道各器官的长度和质量进行了测定。结果表明。消化道指标季节变化明显。总体消化道含内容鲜质量、净鲜质量与干质量均具有显著的季节变化。以冬、春季较高。夏、秋季较低。消化道各器官的变化与总消化道不尽相同。其中,以胃的变化相对比较稳定。仅长度的变化达显著水平,以冬季最短,夏、秋季较长。这是动物为适应繁殖季节能量需求而增加摄食量的反应,也与夏秋季食物丰富度有关。小肠、盲肠、大肠的长度和质量指标(内容鲜质量、净鲜质量和干质量)以冬、春季较高。夏、秋季较低。这是该鼠对冬、春季低温和食物匮乏的适应性反应。总体来说。洞庭湖区社鼠为适应夏、秋季繁殖盛期能量需求增加的主要对策是增加摄食量;而为适应冬、春季低温环境和食物数量和质量减少的主要对策是增大消化道。提高消化效率。  相似文献   

9.
为探讨光周期和高脂食物对栖息于横断山地区高山姬鼠Apodemus chevrieri消化道形态的影响,将成年雌性高山姬鼠分别驯化于长光照低脂、高脂食物和短光照低脂、高脂食物条件下,7周后测定动物的体重、总消化道、胃、小肠、大肠、盲肠的长度及其含内容物重、去内容物重、干重。结果表明:短光低脂组总消化道长显著大于其他组,短光组的小肠长度显著大于长光组。总消化道含内容物重、去内容物重,胃去内容物重、干重以及大肠和盲肠的各项指标均是低脂食物组显著大于高脂食物组。而小肠干重则是高脂食物组显著大于低脂食物组。以上结果表明,高山姬鼠在光周期和食物质量不同的条件下,可能通过调节消化道形态来维持正常的能量代谢和生理机能。高山姬鼠的消化道在不同光周期和食物质量条件下表现出的变化模式,可能与其光照和食物资源季节性波动的野外生存环境有关,从一方面反映了该物种在不同环境下的生存机制和适应对策。  相似文献   

10.
种子贮藏是啮齿动物利用食物资源的一种适应性行为。同域分布的啮齿动物可能进化出不同的贮藏方式和策略。为了解同域分布的啮齿动物的贮藏策略及种子特征在动物贮藏行为决策中的作用,于2014年10-12月,通过半自然围栏实验,在秦岭南坡的佛坪国家级自然保护区内调查了同域分布社鼠、中华姬鼠和甘肃仓鼠对板栗和锐齿槲栎种子的贮藏策略差异,并探讨了2种种子特征在鼠类贮藏行为决策中的作用。结果显示:(1)社鼠主要集中贮藏板栗种子,未分散贮藏任何种子;中华姬鼠未贮藏板栗种子,对锐齿槲栎种子同时表现出集中和分散贮藏行为,以集中贮藏为主;甘肃仓鼠对2种种子均表现出集中贮藏行为,未表现分散贮藏行为;(2)社鼠和甘肃仓鼠均倾向于集中贮藏有较高营养价值(高蛋白和脂肪)且单宁含量较低的板栗种子;中华姬鼠倾向于分散贮藏单宁含量高的锐齿槲栎种子;(3)3种鼠均喜好取食有较高营养价值且单宁含量低的板栗种子,很少取食单宁含量高的锐齿槲栎种子。结果表明同域分布鼠类对不同种子的贮藏方式有所不同,种子特征影响鼠类的取食和贮藏策略。  相似文献   

11.
To understand habitat preferences, seasonal abundance and diets of rodents in wet and dry season surveys were conducted in Alage, Southern Ethiopia. Sherman and snap traps were used to capture rodents from the four habitats: bushland, Acacia woodland, maize and wheat farmlands. A total of 3312 trap nights, from the four trapping habitats, yielded 776 individuals that represented 11 species of rodents. The distribution of rodents varied between habitats and seasons. Wet season rodent abundance was 52.3% while in the dry season it was 47.7%. Seasonal differences in species abundance were insignificant. Bushland habitat had high wet and dry season abundances with 137 and 211 individuals, respectively. Abundance was low in maize farm (57 individuals) in the wet season and wheat farm (10 individuals) in the dry season. Stomach content composition analysis of snap‐trapped rodents from different habitats showed differences between species and across seasons. Six rodent species were recorded as pests on the farmlands in this study area. In conclusion, variation in habitat preferences and diet of rodents in different habitats and across seasons might be due to the role of ground cover and food sources.  相似文献   

12.
华咏乐  谢燕锦  殷宝法  魏万红 《生态学报》2022,42(21):8618-8627
放牧活动对小型啮齿动物种群数量的影响是草原生态系统研究中的热点问题,确定绵羊和小型啮齿动物的营养生态位关系对于草原生态系统的管理具有重要的作用。运用粪便显微分析法分析了内蒙古草原动物生态研究站大型野外围栏内布氏田鼠和绵羊在6-9月份的食谱组成,确定两种草食动物食性选择和营养生态位的变化,从食物利用途径揭示放牧活动对布氏田鼠种群数量的影响方式及二者之间的竞争与共存关系。研究结果表明:围栏中共有23种植物,其中糙隐子草、克氏针茅、羊草和刺藜是围栏中的优势植物;布氏田鼠共取食10种植物,绵羊共取食8种植物,禾本植物为两种动物的主要采食植物。布氏田鼠和绵羊的喜食植物种类都存在季节性变化;除7月外,两种动物的食物多样性与围栏植物多样性有显著的正相关关系,表明动物的食性选择受植物资源变化的影响。布氏田鼠和绵羊具有很高的营养生态位重叠度,除8月(0.691)外,6、7、9月份的营养生态位重叠度均高于0.9,表明二者之间存在激烈的食物竞争;放牧活动极显著地降低了禾本科植物的地上生物量,导致布氏田鼠的食物数量减少;放牧处理下布氏田鼠的喜食植物的物种数和营养生态位宽度(除9月)增加,导致布氏田鼠的食物质量下降。以上研究结果说明,较高的营养生态位重叠度引起动物间激烈的食物竞争;放牧会影响围栏中植物资源的变化,进而影响布氏田鼠的食性选择,放牧活动可能通过降低布氏田鼠的食物数量和质量对其种群数量产生负面效应;这也说明适度的放牧活动在增加人类对草场利用的同时,又可降低小型啮齿动物的数量及危害。  相似文献   

13.
Productivity, habitat heterogeneity and environmental similarity are of the most widely accepted hypotheses to explain spatial patterns of species richness and species composition similarity. Environmental factors may exhibit seasonal changes affecting species distributions. We explored possible changes in spatial patterns of bird species richness and species composition similarity. Feeding habits are likely to have a major influence in bird–environment associations and, given that food availability shows seasonal changes in temperate climates, we expect those associations to differ by trophic group (insectivores or granivores). We surveyed birds and estimated environmental variables along line‐transects covering an E‐W gradient of annual precipitation in the Pampas of Argentina during the autumn and the spring. We examined responses of bird species richness to spatial changes in habitat productivity and heterogeneity using regression analyses, and explored potential differences between seasons of those responses. Furthermore, we used Mantel tests to examine the relationship between species composition similarity and both the environmental similarity between sites and the geographic distance between sites, also assessing differences between seasons in those relationships. Richness of insectivorous birds was directly related to primary productivity in both seasons, whereas richness of seed‐eaters showed a positive association with habitat heterogeneity during the spring. Species composition similarity between assemblages was correlated with both productivity similarity and geographic proximity during the autumn and the spring, except for insectivore assemblages. Diversity within main trophic groups seemed to reflect differences in their spatial patterns as a response to changes between seasons in the spatial patterns of food resources. Our findings suggest that considering different seasons and functional groups in the analyses of diversity spatial pattern could contribute to better understand the determinants of biological diversity in temperate climates.  相似文献   

14.
Competition often occurs between sympatric species that exploit similar ecological niches. Among canids, competition may be reduced by partitioning resources such as food, time, and habitat, but the mechanisms of coexistence remain poorly understood, particularly among fox species. We described the food habits of two foxes that live sympatrically across northern and central Asia, the corsac fox (Vulpes corsac) and red fox (V. vulpes), by analyzing scats collected during a field study in Mongolia. We analyzed 829 corsac and 995 red fox scats collected from April 2005 to August 2007 and tested the extent to which food partitioning occurred. The diets of both species consisted mainly of insects followed by rodents, but also included birds, reptiles, large mammal remains (carrion), plant material (including fruits and seeds), and garbage. Despite high overlap in the proportion of food items consumed, differences existed between species in overall diet with corsacs more frequently consuming beetles, but proportionally fewer crickets and large mammal remains than red foxes. We detected interspecific differences during the pup rearing and dispersal seasons, when prey was abundant, but not during the breeding season, when prey was scarce and diet overlap highest. Each species’ diet also differed seasonally and exhibited moderate overall breadth. Corsacs consumed proportionally more beetles and rodents during pup rearing and crickets during dispersal relative to other seasons, whereas red foxes consumed proportionally more crickets during pup rearing and dispersal and more rodents and large mammals during pup rearing and breeding relative to other seasons. Our results suggest that partitioning of food resources during most of the year facilitates coexistence, and that the potential for competition is highest during winter months.  相似文献   

15.
Aim Studies comparing feeding habits across a genus in different geographical regions or habitats can identify factors associated with adaptive feeding behaviour, linking key ecological traits between consumers and their environment. We investigated biogeographical patterns in dietary composition and trophic diversity across the genus Martes in relation to geographical range and environmental variables. We hypothesized that widely distributed opportunistic Martes species should demonstrate adaptive variations in dietary composition and trophic diversity relative to regional geographical location (e.g. latitude, elevation), environmental variation (e.g. temperature, rainfall, snow cover and primary productivity) and concomitant variation in food supply. Location Europe, Asia and North America. Methods We examined the dietary habits of martens (Martes spp.) using original data expressed as relative frequency of occurrence, and using principal components analysis to extract the main gradients in diet composition. These were then used as response variables in regression analyses, predicted from latitude or elevation. Multiple regression analyses were performed to assess the influence of food types and environmental variables on the trophic diversity index. Results A clear latitudinal gradient in dietary composition was observed. Small mammals were the primary food type, but were less abundant in the diet of martens at lower latitude and elevation. Vegetable matter and insects were consumed more frequently in southerly and/or lower‐elevation localities. Trophic diversity was lower at higher elevation, and increased with a decline in consumption of the dominant food types, i.e. rodents, fruits and insects. Trophic diversity also increased with increasing mean temperature. Main conclusions Biogeographical variations in feeding habits across the genus Martes proved to be associated with latitude, local climate (especially temperature regime) and the availability of alternative potential foods. On an extensive geographical scale, martens respond to varying food availability by adjusting their foraging strategy and thus should be considered facultative generalists. At the species level, however, different climatic variables emerged as differentially important, indicative of adaptations to local conditions. Martes species are opportunistic and flexible feeders, and thus their conservation requires informed management, mindful of how changes in environmental conditions might influence their varied food supply.  相似文献   

16.
Forest fragmentation may benefit generalist herbivores by increasing access to various substitutable food resources, with potential consequences for their population dynamics. We studied a European roe deer (Capreolus capreolus) population living in an agricultural mosaic of forest, woodlots, meadows and cultivated crops. We tested whether diet composition and quality varied spatially across the landscape using botanical analyses of rumen contents and chemical analyses of the plants consumed in relation to landscape metrics. In summer and non-mast winters, roe deer ate more cultivated seeds and less native forest browse with increasing availability of crops in the local landscape. This spatial variation resulted in contrasting diet quality, with more cell content and lower lignin and hemicellulose content (high quality) for individuals living in more open habitats. The pattern was less marked in the other seasons when diet composition, but not diet quality, was only weakly related to landscape structure. In mast autumns and winters, the consumption of acorns across the entire landscape resulted in a low level of differentiation in diet composition and quality. Our results reflect the ability of generalist species, such as roe deer, to adapt to the fragmentation of their forest habitat by exhibiting a plastic feeding behavior, enabling them to use supplementary resources available in the agricultural matrix. This flexibility confers nutritional advantages to individuals with access to cultivated fields when their native food resources are depleted or decline in quality (e.g. during non-mast years) and may explain local heterogeneities in individual phenotypic quality.  相似文献   

17.
Reduced dispersal of large seeds into degraded areas is one of the major factors limiting rain forest regeneration, as many seed dispersers capable of transporting large seeds avoid these sites with a limited forest cover. However, the small size of tamarins allows them to use small trees, and hence to disperse seeds into young secondary forests. Seasonal variations in diet and home range use might modify their contribution to forest regeneration through an impact on the seed rain. For a 2-yr period, we followed a mixed-species group of tamarins in Peru to determine how their role as seed dispersers in a 9-yr-old secondary-growth forest varied across seasons. These tamarins dispersed small to large seeds of 166 tree species, 63 of which were into a degraded area. Tamarins’ efficiency in dispersing seeds from primary to secondary forest varied across seasons. During the late wet season, high dietary diversity and long forays in secondary forest allowed them to disperse large seeds involved in later stages of regeneration. This occurred precisely when tamarins spent a more equal amount of time eating a high diversity of fruit species in primary forest and pioneer species in secondary forest. We hypothesized that well-balanced fruit availability induced the movement of seed dispersers between these 2 habitats. The noteworthy number of large-seeded plant species dispersed by such small primates suggests that tamarins play an important, but previously neglected, role in the regeneration and maintenance of forest structure.  相似文献   

18.
Closely related sympatric species commonly develop different ecological strategies to avoid competition. Ctenomys minutus and C. flamarioni are subterranean rodents parapatrically distributed in the southern Brazilian coastal plain, showing a narrow sympatric zone. To gain understanding on food preferences and possible competition for food resources, we evaluated their diet composition performing DNA metabarcoding analyzes of 67 C. minutus and 100 C. flamarioni scat samples, collected along the species geographical ranges. Thirteen plant families, mainly represented by Poaceae, Araliaceae, Asteraceae and Fabaceae, were identified in the diet of C. minutus. For C. flamarioni, 10 families were recovered, with a predominance of Poaceae, Araliaceae and Asteraceae. A significant correlation between diet composition and geographical distance was detected in C. minutus, whereas the diet of C. flamarioni was quite homogeneous throughout its geographical distribution. No significant differences were observed between males and females of each species. However, differences in diet composition between species were evident according to multivariate analysis. Our results suggest some level of diet partitioning between C. flamarioni and C. minutus in the sympatric region. While the first species is more specialized on few plant items, the second showed a more varied and heterogeneous diet pattern among individuals. These differences might have been developed to avoid competition in the region of co-occurrence. Resource availability in the environment also seems to influence food choices. Our data indicate that C. minutus and C. flamarioni are generalist species, but that some preference for Poaceae, Asteraceae and Araliaceae families can be suggested for both rodents.  相似文献   

19.
We investigated the relation between temporally varying resources, diet composition, and seed-handling behaviors in a group of blue monkeys (Cercopithecus mitis doggetti) in a tropical montane forest of Rwanda. Changes in diet composition were related to concurrent phenological studies of fruit-producing trees, and density and abundance of tree resources within the monkey's home range. Fruit composed nearly 50 percent of the diet. Over 50 percent of the fruits eaten had juicy fleshy pulp. Observations of seed handling behavior provided insights into the role of these animals as potential seed dispersal agents. The monkeys moved the seeds of 29 species out of parent canopies by defecating seeds intact and by potentially carrying seeds in cheek pouches and dropping them later. Seeds of 18 species were found intact in fecal piles. Our study showed community-level phenology patterns did not indicate a decrease in fruit availability during the study period, but an analysis of the preferred fruits consumed by the monkeys showed distinct periods of low fruit availability. The study period included two dry seasons; only one of these produced a period of fruit scarcity for the animals. The animals employed different strategies during times of preferred fruit scarcity. They increased consumption of leaves and other fleshy fruits, and diet diversity increased, or became mainly seed predators and diet diversity decreased. The variable responses of these monkeys to changes in food availability highlights their dietary plasticity and imposes significant variations in their role as potential seed dispersers.  相似文献   

20.
In the Arctic, food limitation is one of the driving factors behind small mammal population fluctuations. Active throughout the year, voles and lemmings (arvicoline rodents) are central prey in arctic food webs. Snow cover, however, makes the estimation of their winter diet challenging. We analyzed the isotopic composition of ever‐growing incisors from species of voles and lemmings in northern Finland trapped in the spring and autumn. We found that resources appear to be reasonably partitioned and largely congruent with phylogeny. Our results reveal that winter resource use can be inferred from the tooth isotopic composition of rodents sampled in the spring, when trapping can be conducted, and that resources appear to be partitioned via competition under the snow.  相似文献   

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