植食性哺乳动物觅食功能反应模型机制的检验

植食性哺乳动物在食物密集斑块的觅食为 型功能反应。在新鲜苜蓿叶片构成的食物密集斑块上 ,以高原鼠兔作为实验动物 ,检验植食性哺乳动物的觅食功能反应及其模型机制。食物大小可调节高原鼠兔的口量 ,尽而控制其瞬时摄入率 ;高原鼠兔觅食叶片的口量 S与瞬时摄入率 I存在渐近的函数关系 ,为 型功能反应 ;高原鼠兔的食物收获率 B随口量 S的增加呈非线性递减 ;最大处理速率 Rmax的测定值与模型的预测值极为近似 ;瞬时摄入率 I的测定值与模型的预测值线性回归显著 ( P<0 .0 1 )。研究结果充分验证了提出的假设 :植食性哺乳动物 型功能反应模型能有效地预测其摄入率的动态 ;植食性哺乳动物收获与咀嚼间的竞争能调其收获率和摄入率     

植食性小型哺乳动物觅食的功能反应模型及其机制检验

采用新鲜苜蓿叶片密集的食物斑块 ,测定和检验根田鼠觅食苜蓿叶片功能反应模型及其机制。苜蓿叶片大小可调节根田鼠口量 ,进而控制其瞬时摄入率 ;根田鼠觅食苜蓿叶片的口量 (S)与其瞬时摄入率 (I)为渐进函数关系 ,属Ⅱ型功能反应 ,回归方程为I =0 0 94S/(0 0 0 1 +S) ;根田鼠收获率 (B)随其口量 (S)的增加呈非线性递减 ,回归方程为B =0 0 95 /(0 0 0 1 +S) ;最大处理速率的测定值与模型预测值极为近似 ;瞬时摄入率测定值与预测值之间存在极显著 (P <0 0 1 )的线性回归关系。结果验证了植食性哺乳动物Ⅱ型功能反应模型能有效地预测其瞬时摄入率动态 ,收获与咀嚼间的竞争可调节其收获率及瞬时摄入率的假设     

根田鼠瞬时摄入率对植物可利用性变量集功能反应的格局

在实验室条件下,以随机区组设计的新鲜紫花苜蓿叶片斑块,测定苜蓿叶片可利用性变量,叶片密度,生物量密度和叶片大小对根田鼠瞬时摄入率的作用格局。苜蓿叶片大小对根田鼠摄入率具有显作用（P＜0．01）,而叶片密度与生物量作用则不显（P＞0．05）;根田鼠摄入率对其口量变化能作出2倍以上的反应（P＜0．01）;观测摄入率与模型预测摄入率的回归显（P＜0．01）,研究结果证明,以叶片大小替代根田鼠口量是影响其摄率的独立变量;检验了植物大小是替代植食性哺乳动物口量的有效变量,以及植物大小是影响植食性哺乳动物摄入率潜在独立变量的假设。     

植食性哺乳动物能量收益增长减速机制的检验

能量收益函数描述了植食性哺乳动物在植物斑块的食物摄入量与在斑块停留时间的函数关系,为觅食生态学理论的重要组成部分。在新鲜白三叶叶片构成的各类叶片斑块上,测定东方田鼠的觅食行为,建立其能量收益函数模型,分析植食性哺乳动物能量收益增长减速的机制。研究结果表明,东方田鼠觅食大叶片时,叶片干物质收益与停留时间呈非线性渐进函数关系,能量收益函数为渐进函数;觅食中、小型叶片时,叶片干物质收益与停留时间呈线性函数关系,能量收益函数为线性函数;没有检测到东方田鼠的能量收益动态呈分段线性函数或S型函数增长。东方田鼠在大、中型叶片斑块觅食时,随停留时间的增大,口量呈线性或指数递减,而处理时间则呈线性或指数递增,采食时间、间隔时间及咀嚼频次保持相对稳定,瞬时摄入率呈减小趋势;东方田鼠在小叶片斑块觅食时,觅食行为参数口量、摄入率、采食时间、间隔时间、处理时间及咀嚼频次均保持相对稳定。研究结果充分验证了,植食性哺乳动物在消费植被过程中,大型可利用性植物减少,受植物大小调控的动物口量减小,处理时间增加,引起瞬时摄入率降低,导致其能量收益增长减速的假说。     

东方田鼠警觉对其功能反应的作用格局

植食性哺乳动物功能反应描述了摄入率与植物可利用性变量的动态关系。动物警觉因占用了处理食物时间即觅食中断时间而延迟与下一口食物相遇,引致摄入率降低,进而对功能反应构型产生影响。在新鲜白三叶叶片构成的各类食物密集斑块上,测定东方田鼠觅食行为,建立功能反应函数模型,检验觅食中断对功能反应的作用格局及机制。结果发现,除小叶片斑块觅食中断时间在觅食活动中所占的比例较低外,在大、中型叶片斑块的觅食中断时间比例均达到15.42%-26.82%;尽管,觅食中断使摄入率降低了33%,但东方田鼠功能反应仍为Ⅱ型功能反应。除东方田鼠采食时间及觅食回合时间随叶片重增大保持相对稳定外,处理时间及觅食中断时间均随叶片重增大呈线性递增趋势;采食时间、处理时间及觅食中断时间随口量的增大呈线性递增趋势;采食率随叶片重和口量增大呈指数递减趋势。研究结果揭示,东方田鼠因警觉引起的觅食中断事件是导致采食率及摄入率降低的主要因子。摄入率测定值与模型预测值的线性回归极显著(P < 0.01),表明,新建立的功能反应模型具有良好的可预测性。推测,东方田鼠因警觉引起采食率及摄入率减小的代价,是以延长觅食时间来补偿的。研究结果充分验证了,在可利用性植物密集斑块,由植物大小调控的动物口量决定其摄入率,且受采食和处理食物竞争及觅食中断的制约,其功能反应为Ⅱ型功能反应的假说。     

植食性哺乳动物觅食的功能反应及其模型

章主要介绍植食性哺乳动物觅食功能反应与模型的研究进展。植食性哺乳动物觅食的摄入率与其食物可利用性的功能反应是动物觅食生态学过程的基础。可利用植物的生物量密度、植物密度、植物大小、以及动物觅食的口量是影响动物觅食功能反应的潜在变量集。这些变量的差异导致动物功能反应格局的复杂化。生物量密度和植物密度对动物摄入率无明显影响,而植物大小对动物摄入率则有显影响。有食物密集的斑块条件下,以植物大小代替动物     

视野受阻对东方田鼠觅食行为的影响

植食性小型哺乳动物的觅食行为是对特定生境的适应性产物。食物斑块周边植被对动物视野遮挡是否通过作用于其觅食活动中的警觉而影响摄入率。采用新鲜白三叶叶片构建东方田鼠密集均质食物斑块,以牛皮纸模拟食物斑块周边植被遮挡田鼠视野,测定其在食物斑块上的觅食行为序列过程及行为参数,检验食物斑块周边植被高度对东方田鼠摄入率的影响。结果发现,个体在不同程度视野受阻条件下食物摄入率无显著差异。分析觅食行为参数动态发现,在不同视野受阻条件下,个体能通过调整各采食回合内警觉行为动作的发生频次和持续时间,维持觅食回合内总的觅食中断时间的稳定,进而保证进食时间的稳定。东方田鼠在不同程度的视野遮挡条件下均能通过行为变异和优化使摄入率保持稳定。结果亦充分说明,东方田鼠在警觉强度上的变化不能反映觅食中断所带来的食物收益减损的代价,但觅食活动中各警觉动作的持续时间的变异却能够明确指示个体摄入率的动态变化,因此,以觅食活动中警觉引起的觅食中断时间代价为线索,检验其对摄入率的影响,是评价植食性小型哺乳动物在不同生境觅食适应性策略的有效的方法。     

捕食风险对东方田鼠功能反应格局的作用

植食性哺乳动物对食物斑块的选择和利用不仅取决于食物的可利用性,且与觅食环境潜存的各种风险紧密关联。捕食风险是否通过作用于动物觅食活动中的警觉影响其功能反应格局。在新鲜白三叶叶片构成的各类食物密集斑块上,测定东方田鼠觅食行为,建立功能反应模型,检验捕食风险对其功能反应格局的作用。结果发现,捕食风险能显著地延长东方田鼠的觅食决定时间,但其摄入率保持稳定,功能反应构型亦未发生改变,仍为Ⅱ型功能反应;除了对照组个体的采食时间随叶片大小增大无明显变动规律外,处理组个体的采食时间及对照组和处理组个体的处理时间、觅食中断时间均随叶片大小及口量的增大呈线性增高趋势,处理组个体的觅食中断时间明显大于对照组个体的;对照组和处理组个体的采食率均随叶片大小及口量呈非线性渐近递减趋势,但处理组个体的采食率较对照组个体的略有降低。结果揭示,在捕食风险压力下,虽然上述觅食参数变异能潜在地降低摄入率,但个体能通过改变觅食活动中各种警觉行为动作如降低嗅闻和静听监视动作的发生频次,增大视觉监视动作比重,以此缓冲捕食风险压力,维持摄入率。摄入率测定值与模型预测值的线性回归极显著,表明,功能反应模型具有良好的预测性。在可利用植物密集斑块,动物觅食活动中的警觉能缓冲捕食风险压力;动物摄入率是由植物大小调控的口量决定的,且受采食与处理食物竞争及觅食中断的制约;其功能反应仍属Ⅱ型功能反应。     

东方田鼠家族群对成员个体觅食行为的影响

植食性哺乳动物在分享社群觅食带来好处的同时,是否因个体间的相互干扰而影响其摄入率。在新鲜马唐叶片构建的均质密集食物斑块上,测定东方田鼠家族群成员个体在食物斑块上的觅食行为序列过程及行为参数,检验家族群存在对成员个体觅食行为的影响。结果发现,东方田鼠家族群雌、雄成员个体的觅食行为参数均无显著差异。然而,与单只个体相比,家族群觅食尽管能显著地缩短成员个体的觅食决定时间,但却显著地降低了成员个体的摄入率。分析觅食行为参数觅食中断时间发现,相较于单只个体,家族群成员个体间因相互干扰而引起的觅食中断时间的增加,不但增大了收获每口食物的时间,而且导致其摄入率下降。检测家族群成员个体各警觉行为动作参数,发现,成员个体间的相互干扰能引致个体的一般扫视、盯视及嗅闻动作时间比例显著增大,尽管直立扫视和静听动作时间比例减少显著,但并未使个体的觅食中断时间减小。结果充分说明,东方田鼠家族群成员个体间的相互干扰能使个体觅食行为参数发生变异,导致觅食中断时间增加,摄入率降低。     

植食性哺乳动物能量收益函数模型的预测性及适用性

以东方田鼠喜食的白三叶叶片作为食物,在保持叶片生物量不变的条件下,改变叶片大小,配置东方田鼠觅食的各类食物大小异质斑块,测定东方田鼠觅食的行为。通过比较几种植食性哺乳动物能量收益函数模型的预测性,评价其适用性。结果发现,没有检测到东方田鼠食物摄入量动态呈S型能量收益函数增长。线性函数模型能准确地预测东方田鼠在中、小型食物斑块的停留时间;在大型食物斑块,尽管,分段线性函数及渐进函数均能很好地拟合东方田鼠的食物摄入量动态,但仅分段线性函数模型能准确地预测其停留时间。线性函数模型及分段线性函数模型是在功能反应机制模型-口量模型基础上建立的,反映了调节摄入率动态的机制,为机制性模型。因此,此2种模型是在口量及摄食站尺度上,探讨动物在食物斑块的能量收益动态及停留时间;而渐进函数模型及S型函数模型均为实验性模型,是在斑块尺度上预测动物能量收益动态及停留时间,未能反映动物摄入率动态,故其预测效果较差。由于此4种模型均未考虑动物在食物斑块搜寻食物及非觅食活动如警觉和逃跑等花费的时间,因而,限制了模型的广泛应用。建议,发展新的模型,促进觅食生态学斑块模型理论研究的深入发展。     

实验检验东方田鼠学习能力的性别差异

东方田鼠选择从禾本科植物叶片的不同部位采食会引起食物摄入率的巨大差异,这项具有明显的认知和学习行为的觅食活动是否存在性别差异。在由带两片叶的新鲜马唐茎秆配置的密集食物斑块上,测定东方田鼠觅食马唐叶片的行为序列、过程及参数,检验其在学习能力上的性别差异。结果表明,雌鼠和雄鼠的觅食决定时间尽管均随觅食学习天数的增加而减小,但雌鼠的觅食决定时间显著地高于雄鼠的;雌鼠和雄鼠均由从对叶片部位无差别选择和采食转向偏爱从叶片基部采食。学会这项采食技能后,雌鼠从叶片基部采食的选择指数显著地高于雄鼠的;二者的摄入率均随觅食学习天数的增加极显著地增大,但雌鼠的摄入率却极显著地高于雄鼠的。研究结果充分验证了提出的假设:雄鼠较雌鼠能更快地习得从禾本科植物叶片的基部采食和收获食物;但当二者习得这项采食技艺后,雌鼠较雄鼠能获得更高的食物摄入率;同时也说明,新建立的评价小型植食性哺乳动物认知和学习能力的实验方法,具有可靠的有效性和实用性。     

银狐气味对根田鼠繁殖和觅食的影响

在实验室条件下, 主要测定银狐的气味对根田鼠社会行为、觅食、繁殖特征及性激素水平的影响, 并探讨银狐气味使根田鼠产生繁殖迟滞的机制。结果表明, 银狐气味对82 %的配对根田鼠产生显著的繁殖迟滞, 对根田鼠一般动作、探究、自我修饰及婚配行为的频次具有显著的抑制作用( P < 0105) 。对各种行为累积时间的作用则产生明显的性别差异, 银狐气味可提高雄体及雌体一般动作及雌体亲密行为的累积时间; 对雄体自我修饰行为, 以及雌体攻击、探究及自我修饰行为的累积时间有显著的降低作用( P < 0105) 。雄体附睾精子计数、雌体卵巢指数及胚胎重量极显著地减低( P < 0101) , 相应地, 雌体血清孕酮显著地提高( P< 0101) 。     

Contribution of relative growth rate to root foraging by annual and perennial grasses from California oak woodlands

Plants forage for nutrients by increasing their root length density (RLD) in nutrient-rich soil microsites through root morphological changes resulting in increased root biomass density (RBD), specific root length (SRL), or branching frequency (BF). It is commonly accepted that fast-growing species will forage more than slow-growing species. However, foraging responses may be due solely to differences in relative growth rates (RGR). There is little evidence, after the effects of RGR are removed, that the fast versus slow foraging theory is correct. In a pot study, we evaluated foraging of four grass species that differed in RGR: one fast-growing annual species, Bromus diandrus, two intermediate-growing species, annual Bromus hordeaceus and perennial Elymus glaucus, and one slow-growing perennial species, Nassella pulchra. We harvested plants either at a common time (plants varied in size) or at a common leaf number (plants similar size, surrogate for common biomass). By evaluating species at a common time, RGR influenced foraging. Conversely, by evaluating species at a common leaf number, foraging could be evaluated independent of RGR. When RGR was allowed to contribute to foraging (common time harvest), foraging and RGR were positively correlated. B. diandrus (fast RGR) foraged to a greater extent than did E. glaucus (intermediate RGR) and N. pulchra (slow RGR). E. glaucus (intermediate RGR) foraged to a greater extent than N. pulchra (slow RGR). Root growth within nutrient-rich microsites was due to significant increases in RBD, not to modifications of SRL or BF. However, when RGR was not allowed to influence foraging (common leaf number harvest), none of the four species significantly enhanced RLD in nutrient-rich compared to control microsites. This suggests that RGR strongly influenced the ability of these grass species to forage and also supports the need to evaluate plastic root traits independent of RGR.     

Foraging patterns of voles at heterogeneous avian and uniform mustelid predation risk

Temporal variation of antipredatory behavior and a uniform distribution of predation risk over refuges and foraging sites may create foraging patterns different from those anticipated from risk in heterogenous habitats. We studied the temporal variation in foraging behavior of voles exposed to uniform mustelid predation risk and heterogeneous avian predation risk of different levels induced by vegetation types in eight outdoor enclosures (0.25 ha). We manipulated mustelid predation risk with weasel presence or absence and avian predation risk by reducing or providing local cover at experimental food patches. Foraging at food patches was monitored by collecting giving-up densities at artificial food patches, overall activity was automatically monitored, and mortality of voles was monitored by live-trapping and radiotracking. Voles depleted the food to lower levels in the sheltered patches than in the exposed ones. In enclosures with higher avian predation risk caused by lower vegetation height, trays were depleted to lower levels. Unexpectedly, voles foraged in more trays and depleted trays to lower levels in the presence of weasels than in the absence. Weasels match their prey's body size and locomotive abilities and therefore increase predation risk uniformly over both foraging sites and refuge sites that can both be entered by the predator. This reduces the costs of missing opportunities other than foraging. Voles changed their foraging strategy accordingly by specializing on the experimental food patches with predictable returns and probably reduced their foraging in the matrix of natural food source with unpredictable returns and high risk to encounter the weasel. Moreover, after 1 day of weasel presence, voles shifted their main foraging activities to avoid the diurnal weasel. This behavior facilitated bird predation, probably by nocturnal owls, and more voles were killed by birds than by weasels. Food patch use of voles in weasel enclosures increased with time. Voles had to balance the previously missed feeding opportunities by progressively concentrating on artificial food patches.     

Differential behavioural and hormonal responses of voles and spiny mice to owl calls

Rodents usually respond to the presence of owls by reducing overall activity, in particular foraging. In this study, a playback of recorded tawny owl, Strix aluco, calls was sufficient to induce a marked effect in the social (Gunther's) vole, Microtus socialis. Some of the voles exposed to owl calls reduced their activity ('freeze' pattern) unlike control voles exposed to a human voice. Other voles, however, dashed around the cage ('flee' pattern). Owl calls also increased corticosterone levels in the voles, showing that the calls induced stress. We suggest that the behavioural dichotomy to freeze or flee in voles is a result of differences in individual normal behaviour and/or in stimulus interpretation. In the common spiny mouse, Acomys cahirinus, no behavioural changes were detected after exposure to owl calls, despite increased cortisol levels which are indicative of stress. Differences in the habitats of voles and spiny mice may explain the apparent lack of behavioural response in the latter. They are rock-dwelling rodents preferentially foraging between boulders and in rock crevices, where they are relatively protected from aerial predation, whereas voles forage in relatively open spaces. Copyright 1999 The Association for the Study of Animal Behaviour.     

Differential foraging in presence of predator and conspecific odors in bank voles: a field enclosure study

Bank voles detect and discriminate other organisms, e.g., predators versus conspecifics, based on olfactory clues like urine, feces, or scent marks. The present field enclosure experiment was set up to determine whether scented food is sufficient for inducing such differentiated reactions in bank voles. Fourteen different odors were tested, divided into four categories: (1) terrestrial predators, (2) avian predators, (3) conspecifics, and (4) neutral origin (human, dog, solvent-treated, and unscented). The odors were extracted with methanol from pellets or feces, or were an artificial substitute. To test the influence of odors on the foraging behavior of voles, artificial food patches containing scented feeders were used. The feeders were cleaned and refilled daily with a calibrated amount of food sprayed with 1 ml of a different odor randomly chosen. The patches were also equipped with monochromatic cameras to monitor the occurrences of voles around the feeders. Both the visits at scented feeders and food consumption were analyzed for each odor. The results show that relative to their foraging activity on unscented food, bank voles significantly reduce it on food scented with odors of terrestrial predators, and increase it in the presence of conspecific odors. Their foraging activity was not affected by neutral scent, nor by scents from avian predators. These results prove that bank voles react to scented food in a way that varies according to the source of odor, even in the semi-natural conditions of an outdoor enclosure.     

Root vole movement patterns: do ditches function as habitat corridors?

1. Ditches are often connected to root vole habitat patches (i.e. moist reed patches) in the Netherlands. Due to the linear structure of ditches and because ditch habitat is qualitatively similar to root vole habitat patches, we hypothesized that ditches could function as habitat corridors facilitating dispersal movement of root voles. In order to test this hypothesis, we radiotracked root voles released in a landscape novel to them, consisting of ditches and agricultural meadows.
2. Agricultural meadows often surround the marsh patches inhabited by root voles. As the meadows are mowed regularly, we included the length of the meadow vegetation as an experimental factor in the study.
3. Assuming that ditches function as habitat corridors, we expected root voles in the ditches to move faster and more unidirectionally than root voles in the meadows, and to prefer the ditches to meadows.
4. We found that the ditches did not facilitate faster movements than the meadows. Although the root voles moved back and forth within the ditches, they showed a more directional movement pattern than the root voles in the meadows. Furthermore, the root voles preferred the ditch habitat irrespective of the vegetative cover in the meadow.
5. We conclude that ditches could function as habitat corridors for root voles, as they preferred to move in ditches when in unfamiliar areas.     

Palatability of silver birch seedlings to root voles Microtus oeconomus

We used laboratory feeding trials to test the palatability of silver birch Betula pendula seedlings to root voles Microius oeconomus Seedlings of two B pendula families (A and B) were grown in growth chambers on three soil types and under two light intensities. Seedlings from family A grew taller and had more resin droplets on their bark than seedlings from family B The more light or nutrients the seedlings received the taller they grew and the more resm droplets they had on their bark We offered 10 root voles both basal and top 5–10 cm segments of winter-dormant seedlings one treatment at a time (no-choice arrangement) in a random order The seedlings grown on low-fertility soil were eaten more than those grown on non-fertilized or fertilized peat The top segments of seedlings grown in low light were slightly more eaten than those grown in high light Birch family did not have any effect on the consumption Consumption correlated negatively with the amount of resin droplets on the bark when the seedling material was compared over different treatments These results indicate that root voles would prefer young birch seedlings that have low amount of resin droplets on the bark and that grow in poor soils or under low light conditions