根田鼠母体捕食应激对其雌性子代雄性化效应的研究

本研究了根田鼠母体捕食应激对其雌性子代雄性化的效应。母体捕食应激使雌性子代在鼻端探究、生殖区探究、试图探究和爬跨及尾随等性行为中花费的时间最多,阴道开口时间显延迟,生殖器与肛门间距离显增大,而母体食物限制和断乳应激子代则未明显呈现上述特征。母体捕食应激使其雌性子代显地降低对雄性个体的性吸引力。因此,母体捕食应激使雌性子代在性行为、形态特征及性吸引力方面呈现雄性化效应,主要归结于捕食应激引起母体内分泌的改变所致;此效应仅产生于胚胎性分化的特定关键时期。全结果检验了田鼠类母体捕食应激对其雌性子代性分化有显影响的假设。     

围栏条件下母体密度应激对根田鼠 F1代性器官指数的影响

为探讨自然条件下母体密度应激对根田鼠F1代性器官指数的影响,通过在围栏内建立不同密度的母体种群获得相应的F1代个体,以此建立了不同密度的子代种群,并测定了母体种群建群者的血浆皮质酮含量,将建立子代种群后剩余的F1代个体带回实验室饲养.实验结束后,测定了全部F1代个体的性器官指数及皮质酮含量.结果表明,高密度母体种群建群者的皮质酮含量显著高于低密度母体种群建群者;出生于高密度母体种群的F1代个体处于高密度子代种群,其性器官指数显著低于出生于低密度母体种群且处于低密度子代种群的F1代个体,而皮质酮含量显著高于后者;出生于高密度母体种群的F1代个体处于低密度子代种群,其性器官指数及皮质酮含量与出生于低密度母体种群且处于低密度子代种群的F1代个体间无显著差异.此外,实验室饲养条件下,出生于高密度和低密度母体种群的F1代个体间的睾丸指数无显著差异.本研究结果说明,在根田鼠种群中,单一的母体密度应激对子代的性器官指数无影响,但生前应激子代在性成熟后,当再次遭遇密度应激时,其性器官指数显著降低,母体密度应激和当前环境对种群的未来繁殖能力具有耦合效应.     

增温条件下花粉来源对红雉凤仙花生殖成功的影响

花粉来源影响着植物的生殖成功和种群的遗传结构, 母体效应则有利于子代适应母代经历的环境。然而, 气候变暖背景下, 花粉来源联合母体效应对植物生殖成功的影响仍不明了。该研究以兼性异交的中国特有植物红雉凤仙花(Impatiens oxyanthera)为研究对象, 采用双因素随机区组设计, 设置母代增温(+0 ℃和+2 ℃)嵌套子代增温(+0 ℃、+2 ℃和+4 ℃)共6种实验处理, 探讨不同母代增温条件下子代增温对红雉凤仙花花粉来源限制的影响。结果显示: 红雉凤仙花异交的结实率和种子数均高于自交的相应值, 且随着子代增温幅度提升, 这2个值均呈现不同程度降低, 特别是自交结实率和种子数随子代增温明显降低, 而母代增温则减缓了自交引起的生殖成功率降低的效应。上述结果说明, 红雉凤仙花异交生殖成功率大于自交。子代增温显著降低了兼性异交植物自交的适合度, 母代增温可以减缓这种不利影响, 从而表现出对增温的跨代适应性。     

根田鼠母体捕食应激效应与Trivers-Willard 模型的关系

本研究了根田鼠母体捕食应激对其子代出生、断乳和成体体重、窝性比及死亡率的作用,检验Trivers—Willard模型的2个前提条件、母体应激激素在母体投资中的作用,以及母体捕食应激效应与该模型的关系。将妊娠根田鼠母体暴露于其捕食艾鼬,母体应激子代的出生和断乳体重均显降低;到成体,雄性体重有此效应,而雌性体重则接近对照。出生窝性比无变化,但成体窝性比向雌性偏斜。不同年龄阶段的死亡率无显变化,但累计死亡率明显增大。处理雄性子代在断乳和成体时的皮质酮含量显增高,而雌性子代则无显变化,从而验证了Trivers-Willard模型的2个前提条件,提出应激母体激素参与母体对子代的投资观点,并认为,母体捕食应激使根田鼠子代成体窝性比向雌性偏斜的生理投资符合进化稳定对策。     

啮齿动物的母体效应

母体可通过基因遗传之外的其他方式影响后代的表型,包括激素分泌、胎盘渗透性、母乳成分和母体抚育行为等。这种对后代形态和行为的影响很大且持续终生。母体效应是子代对环境异质性的一种表型反应,在进化生态学研究中是一个非常重要的变异来源,对种群生态学而言,也可能是种群调节机制的一个重要的因子。着重介绍了母体状况对啮齿动物后代生长发育、性比、性特征和对性选择的影响,对啮齿动物母体效应的进一步研究进行了展望。     

宝天曼国家级自然保护区落叶阔叶林密度制约效应对树木存活的影响

密度制约对物种共存起着重要作用。随着密度制约效应研究的深入, 亲缘关系较近的物种间表现出的密度制约效应逐渐被人们认识。本研究基于2009和2014年对宝天曼1 ha落叶阔叶林样地的2次调查数据, 利用广义线性混合模型分析了重要值排名前11位的物种不同邻域尺度的密度制约效应对不同径级(小径级(1 cm ≤ DBH < 5 cm)、中径级(5 cm ≤ DBH < 10 cm)、大径级(DBH ≥ 10 cm))目标个体存活的影响。研究表明: (1) 5年间样地中DBH ≥ 1 cm的所有个体的年均死亡率和增员率分别为5.85%和0.27%; (2)有5个物种的个体存活率与同种邻体个体数及同种邻体胸高断面积显著负相关; (3)小径级个体的存活在5 m的邻域范围内受同种密度制约和谱系密度制约的影响都很显著; 中径级个体在3个尺度上受到的密度制约和谱系密度制约的影响都不大; 大径级个体在7.5 m、10 m邻域范围内受谱系密度制约影响显著。结果表明, 同种密度制约和谱系密度制约效应对宝天曼落叶阔叶林不同生长阶段的树木个体影响不同。     

艾鼬气味对根田鼠社会行为和繁殖的影响

在实验室条件下 ,主要测定艾鼬 (Mustelaeversmanni)气味对根田鼠 (Microtusoeconomus)社会行为、繁殖特征及性激素水平作用的格局 ,并探讨艾鼬气味使根田鼠产生繁殖迟滞的机制。结果表明 ,艾鼬气味对根田鼠一般动作、探究、自我修饰及婚配行为的频次具有显著的抑制作用 (P <0 0 5 ) ,而对各种行为累积时间的作用则产生明显的性别差异。艾鼬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 <0 0 5 )。艾鼬气味能显著制约根田鼠对食物的摄入 (P <0 0 5 ) ,并使其体重显著 (P <0 0 1)降低。在艾鼬气味条件下 ,82 %的配对根田鼠产生显著的繁殖迟滞 ,其雄体附睾精子计数、雌体卵巢指数及胚胎重量极显著地减低 (P <0 0 1) ,相应地 ,雌体血清孕酮显著地提高 (P <0 0 1)。上述结果验证了本文提出的捕食风险使田鼠类动物产生繁殖迟滞的假设     

围栏放牧下土壤-植被碳密度空间分布格局

对围封13年且放牧的冷季高寒矮嵩草草甸,进行了从围栏入口到内部不同距离植被和土壤碳密度状况的调查.结果表明:1)入口到50 m植被现存碳密度平均为1298.0gC·m-2,60～180m有所下降(平均为997.3 g C·m-2),200～300 m反而升高(平均为1285.5 g C·m-2).当年净初级生产碳密度分布趋势与其相同,0～50 m、60 ～180 m和200～300 m平均分别为742.5、571.0和745.7 g C·m-2.这种分布趋势与放牧过程中绵羊觅食频度和强度有关.一般在中央地带放牧强度大,绵羊觅食时间长,边缘地带受围栏效应或围栏外环境因素影响,放牧强度相对较弱,一定程度上对植被生长发育起到了保护作用,使边缘地带植被碳密度得到提高.2)从围栏入口到草场内部土壤碳密度变化趋势表现复杂,入口到100 m增加,100～170 m减小,然后略有升高.土壤碳密度最高值出现在95 m处(15.42 g C·m-2),最低值出现在170 m处(14.12 gC· m-2).目前尚不清楚为何出现这种格局,但至少认为,土壤有机质的动态转化过程受多种因素影响,与植被碳密度相比具有一定的迟滞效应.具体如何影响有机质的动态转化及其迟滞效应,有待进一步研究.     

围栏条件下母体社群应激对根田鼠子代免疫力的影响

为探讨自然条件下母体社群应激对根田鼠子代免疫力的影响,在野外围栏建立高密度和低密度根田鼠种群,将围栏出生的F1代幼体在室内饲养至性成熟后,测定其血清抗匙孔血蓝蛋白抗体的IgG水平、血液学参数和脾脏指数,以及种群建群者的血浆皮质酮含量.结果表明,高密度种群建群者的皮质酮含量高于低密度种群建群者.子代个体的各类血细胞的数量无差异.高密度种群子代的IgG含量低于低密度种群的子代,但脾脏指数高于后者.上述不同免疫参数结果相互印证说明,高密度种群引起的母体社群应激对子代免疫力有抑制作用.此外,本文探讨了母体应激效应的概念和生态学意义及其在种群调节中的作用.     

一类Holling功能性反应模型极限环的唯一性

考虑功能性反应的捕食-食饵模型这里y表示捕食者种群的密度,当a-（22）≠0时它具有线性密度制约,x表示食饵种群密度,当φ（x）≡ax/（1＋ωx）时称（1）为第二类功能性反应模型．文〔1〕研究了捕食者没有密度制约（对应于a_（22）=0）、食饵具有线性密度制约(对应于g（x）=b_1-a_(11)x）的Ⅱ类功能性反应模型（1）,得到了极限环存在性及唯一性的完整结论．最近文〔2〕在a_(22)≠O的条件下讨论了系统(1),得到了极限环的存在性与不存在性等福建省自然科学基金和国家自然科学基金资助项目（19371069号）．本文第一作者现为浙江大学访问学…     

Influence of maternal stress on offspring sexual behaviour

During the last trimester of gestation, pregnant rats were exposed to crowded living conditions, or to immobilization combined with intense illumination. In adulthood, male offspring of mothers exposed to either condition of stress showed increased readiness to display feminine sexual behaviour (lordosis) while no deficits were observed in their masculine sexual behaviour. It was concluded that prenatal stress adversely affects sexual differentiation by causing a feminization but not a demasculinization of male offspring.     

Prenatal stress and gender role behavior in girls and boys: a longitudinal,population study

Prenatal stress influences neural and behavioral sexual differentiation in rodents. Male offspring of stressed pregnancies show reduced masculine-typical characteristics and increased feminine-typical characteristics, whereas female offspring show the opposite pattern, reduced feminine-typical and increased masculine-typical characteristics. These outcomes resemble those seen following manipulations of gonadal hormones and are thought to occur because stress influences these hormones during critical periods of development. Research on prenatal stress and human sexual differentiation has produced inconsistent results, perhaps because studies have used small samples and assessed prenatal stress retrospectively. We related maternal self-reports of prenatal stress to childhood gender role behavior in a prospective, population study of 13,998 pregnancies resulting in 14,138 offspring. Neither stress reported during the first 18 weeks of pregnancy nor stress reported from week 19 of pregnancy to week 8 postnatal related to gender role behavior in male offspring at the age of 42 months. In female offspring, maternal reports of stress during both periods showed only small correlations with masculine-typical behavior. Although this relationship remained significant when other factors that related to stress were controlled, these other factors made larger contributions to girls' gender role behavior than did prenatal stress. In addition, in both boys and girls, older male or female siblings, parental adherence to traditional sex roles, maternal use of tobacco or alcohol during pregnancy, and maternal education all related significantly to gender role behavior. Our results suggest that prenatal stress does not influence the development of gender role behavior in boys and appears to have relatively little, if any, influence on gender role behavior in girls.     

孕期低氧应激对子代雄性大鼠性行为的影响

目的:研究孕期低氧应激对子代雄性大鼠的繁殖行为及相关激素分泌的影响。方法:实验将配对获得的怀孕第14天的母鼠随机分为3组:对照组(Control)、3300m模拟高原低氧应激组和5000m模拟高原低氧应激组,实验组母鼠放入低氧舱中进行持续7天的模拟低氧应激处理,对照组在实验条件下常规饲养。结果:孕期经低氧应激子代雄性性成熟个体具有与雌性个体交配的能力,但是行为能力有不同程度的下降。同时,应激组个体肛阴距变短,血浆睾酮水平下降而皮质酮水平显著升高,而3组动物睾酮、附睾以及肾上腺指数间无显著差异。结论:出生前受到低氧应激对子代雄性个体的性行为能力产生持久的抑制影响。     

Effect of predator-induced maternal stress during gestation on growth in root volesMicrotus oeconomus

We studied the effect of maternal stress evoked by a severe stressor from the cues of predation risk during gestation on the growth of offspring in root volesMicrotus oeconomus Pallas, 1776. Body mass of both male and female offspring was significantly reduced in the period from birth to weaning. Females showed compensatory growth after weaning, whereas males maintained low body mass at weaning into adulthood. Maternal stress led to an elevated plasma corticosterone level in male offspring, but did not affect that of female offspring. Corticosterone levels remained elevated in males from stressed dams into adulthood. Increased levels of plasma corticosterone may have led to the inhibition of pituitary growth hormone and a chronically abnormal energy mobilization, considering the greater energy and metabolic requirements of male offspring, this may account for the sex-specific differences in compensatory growth. We suggest that in the high stress situation, endocrine-based sex-biased effects of maternal stress as a primary factor can lead to long-term physical and ecological consequences for male offspring.     

Maternal Food Restriction During Lactation Affects Body Weight and Sexual Behavior of Male Offspring in Meadow Voles (Microtus pennsylvanicus)

Little is known about the occurrence of individual variation in sexual behavior and how maternal nutrition can affect this variation. We tested the hypothesis that male offspring of female meadow voles, Microtus pennsylvanicus, that were 30% food restricted (FR) during days 1–7 of lactation (FR 1–7), days 8–14 of lactation (FR 8–14), or late days 15–21 of lactation (FR 15–21) lactation show persistent, negative effects on their sexual behavior as adults relative to male offspring of females that were not food restricted. We measured three components of sexual behavior, attractivity, proceptivity, and receptivity, beginning when the males were 98 d of age. Food restriction during middle lactation (FR 8–14) but not during early (FR 1–7) and late lactation (FR 15–21) was sufficient to induce adult male voles to produce anogenital marks that were not as attractive as those produced by control males. Food restriction during lactation did not affect the proceptive behavior of male voles but did affect their receptivity. Only four of 12 FR 8–14 male voles mated compared to nine of 12 FR 1–7 males, eight of 12 FR 15–21 males, and eight of 11 control males. However, no differences existed in their copulatory behavior among the males that did mate. The body weight of FR 1–7 and FR 8–14 males was lower than that of FR 15–21 and control males when they were between 22 d of age (weaning) and 48 d of age (puberty) but was similar when the males were 98 d of age. Food intake was similar for the FR and control males between day 22 and day 98. It remains unclear, however, whether this type of maternal effect represents strategic programing of offspring behavior in response to the environment experienced by mothers or is a product of developmental processes of food restriction prior to weaning (Evolution 58 , 2004, 2574).     

Prenatal stress reduces fertility of male offspring in mice, without affecting their adult testosterone levels

The male offspring of mice stressed by crowding during the final third of pregnancy showed reductions in sexual behavior and fertility. When paired with receptive females, their latencies to mount and to achieve intromission and ejaculation were greater than controls, and 30% of them failed to ejaculate in the 100-min test. When housed continuously for 4 days with females, 31% of them failed to impregnate their partners, compared with 4% of controls. The sexual receptivity of the untreated females paired with prenatally stressed males was not affected. Resting testosterone levels of prenatally stressed males did not differ from those of controls, and the pattern of rise and fall of testosterone during a 60-min interaction with a female showed only minor differences. The results suggest a central, rather than peripheral, mediation of the behavioral effects of prenatal stress.     

Prenatal Stress Produces Social Behavior Deficits and Alters the Number of Oxytocin and Vasopressin Neurons in Adult Rats

The present study investigated the long-lasting effects of prenatal repeated restraint stress on social behavior and anxiety, as well as its repercussions on oxytocin (OT) and vasopressin (VP)-positive neurons of the paraventricular (PVN) and supraoptic (SON) nuclei from stressed pups in adulthood. Female Wistar rats were exposed to restraint stress in the last 7 days of pregnancy. At birth, pups were cross-fostered and assigned to the following groups: prenatally non-stressed offspring raised by prenatally non-stressed mothers (NS:NS), prenatally non-stressed offspring raised by prenatally stressed mothers (S:NS), prenatally stressed offspring raised by prenatally non-stressed mothers (NS:S), prenatally stressed offspring raised by prenatally stressed mothers (S:S). As adults, male prenatally stressed offspring raised both by stressed mothers (S:S group) and non-stressed ones (NS:S group) showed impaired social memory and interaction. In addition, when both adverse conditions coexisted (S:S group), increased anxiety-like behavior and aggressiveness was observed in association with a decrease in the number of OT-positive magnocellular neurons, VP-positive magnocellular and parvocellular neurons of the PVN. The NS:S group exhibited a reduction in the amount of VP-positive magnocellular neurons compared to the S:NS. Thus, the social behavior deficits observed in the S:S and NS:S groups may be only partially associated with these alterations to the peptidergic systems. No changes were shown in the OT and VP cellular composition of the SON nucleus. Nevertheless, it is clear that a special attention should be given to the gestational period, since stressful events during this time may be related to the emergence of behavioral impairments in adulthood.     

产前束缚应激子代大鼠海马神经颗粒素表达降低

神经颗粒素（neurogranin,NG）是脑特异性突触后蛋白,参与在学习记忆功能中起核心作用的信号转导通路及突触可塑性。本研究旨在探讨产前束缚应激对子代大鼠海马NG表达的影响。连续7d对孕晚期大鼠进行束缚应激,建立产前束缚应激模型,分为对照雌、雄组,应激雌、雄组。采用免疫组化方法观察NG在产前束缚应激子代大鼠海马不同亚区的分布特点;采用蛋白免疫印迹方法检测产前束缚应激子代大鼠海马NG蛋白的表达。结果显示：各组子代大鼠海马各区均有NG蛋白表达,CA1和CA3区表达高于齿状回（dentate gyrus,DG）;应激组雌、雄子代大鼠海马NG的表达明显低于对照组（P〈0．01）,应激组雌性子代比雄性子代减少更显著,对照组雌、雄子代之间无差异。免疫组化与蛋白免疫印迹方法所得结果一致。上述结果表明,NG在产前束缚应激子代大鼠海马表达降低,并且雌性比雄性降低明显,NG对产前束缚应激子代大鼠有差异性调制,NG表达减少可能与产前束缚应激子代大鼠学习记忆能力下降有关。     

Effect of prenatal stress on the hormonal response to acute and chronic stress and on immune parameters in the offspring

The effect of prenatal stress on the time course of the corticosterone response to acute and chronic stress and on hematological and immunological parameters in the offspring were analized in the present study. Pregnant Sprague-Dawley rats were stressed daily for 2 hours during the last week of gestation, and female and male off-spring were studied during adulthood. Corticosterone response to acute immobilization stress was not significantly different in either control or prenatally stressed rats. However, after 10 days of immobilization stress the corticosterone response completely disappeared in the control animals but not in the prenatally stressed group: high levels of corticosterone were found during the first hour of stress, although they were lower than those found in acutely stressed rats. Adrenal hypertrophy in response to prenatal stress was observed in females but not in male offspring, and chronic stress only increased adrenal weights in the male control group. Prenatal stress decreased the total peripheral leukocyte count, altered its diferential count decreasing lymphocytes and increasing neutrophil and eosinhophil counts, and significantly reduced the percentage of peripheral lymphocyte T CD8+ subset in male offspring. Chronic stress also reduced the percentage of the peripheral T CD8+ lymphocyte subset in the control group but not in the prenatally stressed group. These results suggest that the exposure to stress during pregnancy alters the adaptative response of the hypothalamus-pituitary-adrenocortical axis to chronic stress and presumably the immune competence in the offspring.