单宁酸对根田鼠食物摄入量和蛋白质消化率的效应

在食物中含10 %和20%蛋白质的条件下, 采用食物平衡法测定了单宁酸对根田鼠食物摄入量和蛋白质消化率的作用。食物蛋白质含量为10 %时, 第1～5 天, 单宁酸对根田鼠食物摄入量具有显著的抑制作用, 自第6天, 其作用不明显, 以3 %和6 %单宁酸处理的根田鼠, 其食物蛋白质消化率较对照组分别降低22 %和47.67 %;在食物蛋白质含量为20 %的条件下, 单宁酸对根田鼠的食物摄入量和蛋白质消化率无显著作用。上述结果验证了植物次生化合物能抑制植食性小哺乳动物食物摄入量及蛋白质消化率的假设。     

饥饿和食物单宁酸对东方田鼠(Microtus fortis)食物摄入量和觅食行为的影响

实验室条件下,测定饥饿和食物单宁酸对东方田鼠食物摄入量和觅食行为的影响。结果表明,饥饿使实验个体的食物总摄入量增加,食物摄入率及口量大小随饥饿强度的增大而增加,而觅食频次则无显著改变,实验个体每取食回合的觅食时间呈缓慢增加的趋势,与对照组比较,觅食时间差异不显著。东方田鼠优先选择0%单宁酸食物,次为3%单宁酸食物,而对6%单宁酸食物的摄入量最少。在饥饿条件下,东方田鼠食物摄入率的增加主要源于其口量大小,觅食频次和觅摄食时间对食物摄入量增加的贡献不显著。在饥饿条件下,植食性小哺乳动物并未通过延长觅食时间,降低用于防卫、繁殖活动时间来增加食物摄入量,而是通过增加口量大小,提高其食物摄入率来满足其营养需要。验证了饥饿与植物次生化合物共同作用引起田鼠类动物生理的改变,能影响其食物摄入量及觅食行为的假设。     

饥饿和食物单宁酸对东方田鼠(Microtus fortis)食物摄入量和觅食行为的影响

实验室条件下,测定饥饿和食物单宁酸对东方田鼠食物摄入量和觅食行为的影响。结果表明,饥饿使实验个体的食物总摄入量增加,食物摄入率及口量大小随饥饿强度的增大而增加,而觅食频次则无显著改变,实验个体每取食回合的觅食时间呈缓慢增加的趋势,与对照组比较,觅食时间差异不显著。东方田鼠优先选择0％单宁酸食物,次为3%单宁酸食物,而对6%单宁酸食物的摄入量最少。在饥饿条件下,东方田鼠食物摄入率的增加主要源于其口量大小,觅食频次和觅摄食时间对食物摄入量增加的贡献不显著。在饥饿条件下,植食性小哺乳动物并未通过延长觅食时间,降低用于防卫、繁殖活动时间来增加食物摄入量,而是通过增加口量大小,提高其食物摄入率来满足其营养需要。验证了饥饿与植物次生化合物共同作用引起田鼠类动物生理的改变,能影响其食物摄入量及觅食行为的假设。     

单宁酸对高原鼠兔和根田鼠生殖激素的影响

高原鼠兔和根田鼠是生存于青藏高原的小哺乳动物,它们所取食的高原植物含有多种次生化合物。为了证明食物中的次生化合物对高原鼠兔和根田鼠繁殖相关激素的影响,探讨它们与取食植物间的协同进化,分别对两种动物灌服0、5、10 和20 mg/ kg BW 剂量单宁酸1 d、3 d 及5 d 后,测定其下丘脑促性腺激素释放激素、血浆中睾酮和血浆雌二醇的含量。结果表明,单宁酸对高原鼠兔的LD₅₀ 为112 ±27.72 mg/ kg BW,对根田鼠的LD₅₀ 为117 ± 17.37 mg/ kg BW;单宁酸可以使高原鼠兔和根田鼠血浆睾酮和雌二醇水平升高,但对下丘脑促性腺激素释放激素水平没有明显的影响。说明单宁酸可能会促进这两种动物的性成熟,有利于它们的繁殖。     

极田鼠基础代谢率对单宁酸反应的格局

采用Kalabukhov-skvortsov封闭式流体压力计测定根田鼠基础代谢率对食物单宁酸的反应格局。在食物蛋白质为10％条件下,摄入3％单宁酸食物的根田鼠在第5天、10天和20天的基础代谢率分别较第0天增高10．94％、20．82％及23．54％;摄入6％单宁酸食物的根田鼠在第5天、第10天和第20天的基础代谢分别较第0天增高18．67％、29．07％及27．71％、当食物蛋白质为20％时,摄入3％单宁酸食物的根田鼠在第5天、第10天和20天的基础代率分别较第0天增高6．67％、10．63％及11．21％;摄入6％单宁酸食物的根田鼠在第5天、第10天和20天的基础代谢率分别较第0天增高9．01％、14．50％及16．09％。说明,食物单宁酸能显地增加根田鼠的基础代谢率,充分检验了单宁酸使植食性小哺乳动物基础代谢率增高的假设。     

蛋白质,纤维素和单宁酸对东方田鼠摄食的影响

食物选择性是动物对取食生境中现存的食物种类做出的选择,是一个复杂的生态适应过程,与动物自身生理状及环境中食物的可利用量密切相关。单宁酸、蛋白质和纤维素是影响植食性动物食物选择的重要因素。在控制其它营养因子的条件下,设置10%蛋白质+2.25%纤维素+3%单宁酸(食物1)/6%单宁酸(食物2)和20%蛋白质+4.51%纤维素+3%单宁酸(食物3)/6%单宁酸(食物4)4个处理组,通过自助餐式选择笼内的喂养实验,测定单宁酸、蛋白质和纤维素对东方田鼠食物选择的影响。结果表明,东方田鼠对3%单宁酸处理组食物摄食量显著高于对6%单宁酸处理组(P0.001);但东方田鼠对6%单宁酸食物摄食量依蛋白质浓度变化,在20%蛋白质处理组的摄食量显著高于10%蛋白质处理组(P0.05);在含3%单宁酸处理组中,纤维素成为影响东方田鼠摄食的主要因素,而当单宁酸浓度增加到6%时,纤维素和蛋白质对东方田鼠摄食影响差异不显著;总之,单宁酸、蛋白质和纤维素对东方田鼠的摄食都产生重要影响,单宁酸对东方田鼠食物选择的影响程度最大,纤维素次之,蛋白质对东方田鼠摄食的影响会随单宁酸浓度的升高而增大。     

植物化学防卫与植食性哺乳动物的适应对策

植物化学防卫与植食性哺乳动物的适应是动物—植物系统协同进化研究的重要内容。植物次生化合物可降低动物的食物摄入量及消化率、蛋白质可利用率。某些次生化合物还影响植食性哺乳动物的正常繁殖活动。单宁是动物的重要觅食阻遏剂之一。动物在学习食物选择的过程中,通过认知过程和感知过程处理食物信息,选择食物项目。幼体在胚胎期和哺乳期能从母体获得食物信息,或向有觅食经验的同胞伙伴学习处理食物的经验。动物亦可通过形成络和物,改变体内环境,通过微生物降解、氧化还原、基础代谢率等降低生理对策,以降低植物次生化和物的影响。     

根田鼠几种觅食功能反应模型的比较

植物组织空间排列对植食性哺乳动物功能反应的作用,是觅食生态学的热点问题之一。以新鲜紫花苜蓿叶片为食物,改变苜蓿叶片大小调控根田鼠口量,改变叶片间距调控叶片密度,设置叶片空间异质性斑块。在空间异质性斑块上测定根田鼠的觅食行为及其参数,检验植食性哺乳动物4种功能反应模型的预测性。除复合模型参数Rmax、h和Vmax及口量模型参数Rmax的最大似然估计值与测定值近似外,其它模型参数的估计值与测定值均存在较大差异。根田鼠摄入率测定值与4种模型预测值的线性回归均显著(P0.01),但与复合模型预测值的线性拟合效果最佳。表明,复合模型能很好地解释根田鼠觅食与行走的竞争对摄入率调节的动态。根田鼠复合模型存在调节其功能反应机制转变的距离临界值(d)。叶片间距大于该值时,叶片密度调节摄入率;叶片间距小于该值时,口量调节摄入率。结果充分地验证了提出的特定假设:在植物密集条件下,植物大小能调节植食性小型哺乳动物根田鼠的摄入率;在植物稀疏条件下,植物密度调节其摄入率。     

单宁酸对布氏田鼠能量代谢的影响

为了解单宁酸对成年布氏田鼠(Lasiopodomys bandtii**)能量代谢和产热的影响,本文采用含0、3.3%和6.6%单宁酸浓度的食物饲喂布氏田鼠21 d,对其体重、基础代谢率、非颤抖性产热和能量收支等进行了测定。代谢率采用封闭式流体压力呼吸计测定;非颤抖性产热用皮下注射去甲肾上腺素诱导;能量摄人采用食物平衡法测定。结果发现:(1) 单宁酸食物对布氏田鼠的体重没有明显影响;(2)取食含6.6%单宁酸食物的动物的基础代谢率于第10 d高于对照组。20 d时,3组动物的基础代谢率没有显著差异;(3) 单宁酸食物对非颤抖性产热没有显著影响;(4) 食用含单宁酸食物的动物的摄人能和消化能于第10 d显著低于对照组,但第20 d时则差异不显著。这些结果表明:布氏田鼠的基础代谢率和能量摄入对单宁酸的反应具有时段性,短期内能量消耗增加,随着动物对食物的适应,生理功能恢复到正常水平。     

植食性哺乳动物与植物协同进化研究进展

从动物-植物协同进化模式,植物对动物采食反应及动物对植物防卫的适应对策等方面综述了以植物次生化合物为媒介的植食性哺乳动物-植物协同进化的研究进展,动物与植物的协同进化模式包括成对协同进化,扩散协同进化,躲避-辐射协同进化,多样性的协同进化,平行分枝进化,互惠进化等模式,植物不仅以超补偿反应,物理防卫作为对植食性动物采食的应答,延长植食性动物的觅食时间,降低植食性动物的觅食效率,更能以其派生的次生化合物抑制动物的摄食,进而影响其消化,代谢及生长等生理生态特征,动物通过改变觅食行为,调整对各食物项目的相对摄入量,减少次生化合物的摄入量,动物还通过氧化,还原,络合,改变消化道内环境,形成相应的降解酶,改变代谢率等途径降低次生化合物对其的负作用。     

单宁酸对根田鼠断乳幼体生长和存活的影响

在食物中含10％和20％蛋白质条件下,测定了单宁酸对根田鼠幼体在断乳后20d内的生长和存活的影响。结果表明,食物中含蛋白质为10％的条件下,摄食含3％和6％单宁酸食物的试验个体生长速率分别为-0．135g/d和-0．25g/d,食物利用效率均显低于对照组,断乳后20d内平均存活天数较对照组分别下降26．23％和49．36％。在食物蛋白质为20％的条件下,摄食含3％和6％单宁酸食物的试验个体生长速率分别为0．134g/d和-0．116g／d,摄食6％单宁酸食物的试验个体食物利用效率显低于摄食3％单宁酸食物的试验个体和对照组个体,断乳后20d内的平均存活天数较对照组下降39．41％,摄食3％单宁酸食物的试验个体较对照组略有下降,但不显。上述结果验证了单宁酸能显影响植食性小哺乳动物生长和存活的假设。     

Detoxication of some naturally occuring phenolics by prairie voles: a rapid assay of glucuronidation metabolism

Mammals detoxicate many phenolic compounds by conjugation with glucuronic acid, and this increases urinary excretion of components of the glucuronic acid pathway. We evaluated a measure of total uronic acid excretion by prairie voles as an index of detoxication of phenolic compounds. Various levels of quercetin and tannic acid were fed at two levels of protein to weanling prairie voles. Uronic acid excretion increased greatly with increased concentrations of dietary phenolics, but was not a simple linear function of phenolic concentration. Voles fed low protein diets excreted more uronic acids than voles fed high protein diets, apparently because of more phenolic-protein complexing in the latter case. Measurement of uronic acid output appears to provide a simple, non-invasive index of detoxication loads in these mammalian herbivores.     

Identification of tannin–degrading microorganisms in the gut of plateau pikas (Ochotona curzoniae) and root voles (Microtus oeconomus)

Gut microorganisms are thought to play a role in the degradation of plant secondary metabolites in herbivores. Here, we examined the presence of tannin–degrading microorganisms in the gut of two herbivores, plateau pikas (Ochotona curzoniae) and root voles (Microtus oeconomus). Tannase activity in the feces of wild plateau pikas and root voles increased from June to August, corresponding to the increase in condensed and hydrolyzable tannin concentrations in plants during this period. Using intragastric tannic acid infusion, we found that tannase activities were significantly higher following administration of three concentrations of tannic acid than that in the control group for root voles. In contrast, for plateau pikas, animals administered tannic acid exhibited lower tannase activity in low–dose and high–dose groups than that in the control group. Tannase activities in root voles were higher than those in plateau pikas among different months and in different tannic acid infusion groups. Three tannin–degrading anaerobic strains were isolated from the cecum of plateau pikas (termed A1, A2, and A3) and root voles (termed M1, M2, and M3). 16 s rDNA sequencing assigned isolates A1 and M1 to the genus Enterobacter, A2 and M2 to the genus Shigella, and A3 and M3 to the genus Staphylococcus. These data provided the first evidence of microorganisms with tannin–degrading activity in the gut of plateau pikas and root voles. We speculated that both animals could degrade tannins in the gut, but that root voles would have a greater ability to process tannins than plateau pikas.     

ADRENOCORTICAL FUNCTION IN PINNIPED HYPONATREMIA

Potentially fatal sodium imbalance occurs in captive and free-ranging pinnipeds and is associated with a variety of stressors. We sought to determine the role of adrenal hormones, principally aldosterone, in the development of this condition. To induce hyponatremia, two ringed seals, Phoca hispida , were maintained in fresh water and fed a low-sodium diet; as controls, two other ringed seals were held in salt water and received a salt-supplemented diet. After 3–6 mo, adrenocorticotropic hormone (ACTH) was used to assess adrenocortical function. In normonatremic control seals, ACTH produced a 2-j-fold increase in circulating cortisol and a 7-fold increase in aldosterone. One of the experimental seals maintained normal plasma sodium levels, and ACTH elicited an exaggerated aldosterone response. The other salt-deprived seal became hypo-natremic, and ACTH had little effect on plasma aldosterone levels. An ACTH stimulation test performed on a spontaneously hyponatremic harp seal, P. groenlandica , which had been maintained in a salt-rich environment, failed to elicit cortisol or aldosterone secretion from the adrenal cortex. This study demonstrated the unusual sensitivity of the seal's zona glomerulosa to central stimulation, providing a mechanism through which the stress response might exhaust adrenal hormone reserves or desensitize the cortex to other physiological stimuli.     

Food Sorting by Collared Lemmings (Dicrostonyx groenlandicus) and Prairie Voles (Microtus ochrogaster): A Cautionary Note for Digestibility Studies

Small herbivores are often confronted with poor quality diets; in response to this situation, they may sort their food to increase diet quality. Neutral detergent fiber (NDF) levels were measured in three pelleted diets fed to collared lemmings (Dicrostonyx groenlandicus) and prairie voles (Microtus ochrogaster) and compared to levels in orts collected from the same diets and animals. Lemmings sorted and discarded the fibrous parts of food pellets on all three diets (17.3% to 25.9% higher NDF in orts), whereas voles sorted out fibrous particles on only one diet. Calculations of NDF digestibility were significantly reduced by particle sorting (up to 16.9% decrease in digestibility). In reviewing the literature, we found that in more than half of studies examined, orts may not have been analyzed for these differences. Researchers must carefully consider such effects, especially when conducting digestibility studies with herbivores on pelleted diets.     

Fungal-Mediated Multitrophic Interactions - Do Grass Endophytes in Diet Protect Voles from Predators?

Plant-associated micro-organisms such as mycotoxin-producing endophytes commonly have direct negative effects on herbivores. These effects may be carried over to natural enemies of the herbivores, but this has been rarely explored. We examined how feeding on Neotyphodium endophyte infected (E+) and endophyte free (E−) meadow ryegrass (Scherodonus pratensis) affects body mass, population size and mobility of sibling voles (Microtus levis), and whether the diet mediates the vulnerability of voles to least weasel (Mustela nivalis nivalis) predation. Because least weasels are known to be olfactory hunters, we also examined whether they are able to distinguish olfactory cues of voles fed on E+ and E− diets. Neither body mass of voles nor population size differed between diets. However, contrary to our prediction, least weasels preyed more often on voles fed with E− grass than on voles fed with E+ grass. The mobility of voles fed on E+ grass was reduced compared to voles fed on E− grass, but this effect was unrelated to risk of predation. Least weasels appeared unable to distinguish between excrement odours of voles between the two treatments. Our results suggest that consumption of endophytic grass is not directly deleterious to sibling voles. What''s more, consumption of endophytes appears to be advantageous to voles by reducing risk of mammalian predation. Our study is thus the first to demonstrate an effect of plant-associated microbial symbionts on herbivore-predator interactions in vertebrate communities.