布氏田鼠在不同光周期下对陌生个体尿液和粪便的气味辨别

研究了成年布氏田鼠在10min内,对不同光照周期下（长光照：LD;短光照：SD）陌生雌／雄个体尿液和粪便两种单一个体气味源的气味行为反应,实验发现：所有雌雄被试鼠对LD气味源比SD气味源表现出更多的嗅闻行为。LD和SD被试鼠对同性／异性尿液气味的嗅闻行为没有表现出明显的差别,但LD被试雄鼠对陌生雌鼠粪便的嗅闻频次显多于SD被试雄鼠,从嗅闻行为特征量（嗅闻行为占所有行为的百分比）来看,所有LD和SD被试雌,雄鼠对尿液的嗅 明显多于粪便,除SD粪便气味外,被试鼠对异性气味源的嗅闻明显多于同性,实验结果表明：作为两种个体气味源,尿液和粪便都带有季节性信息,而且是具有性别特性的。异性的个体气味源比同性的个体气味源更具吸引力;长光照动物的个体气味比短光照动物的气味更具吸引力。     

雄性柴达木根田鼠断奶后对亲本尿气味的记忆

为了研究亲子分开后雄性柴达木根田鼠(Microtus limnophylus)对亲本尿气味的记忆持续时间,分别在未分开(20日龄),以及分开10d(30日龄)、20d(40日龄)、30d(50日龄)、40d(60日龄)时,以新鲜尿作为气味源,在行为观察箱中记录雄性柴达木根田鼠对不同气味源的行为响应模式.结果表明:(1)未分开时,雄鼠对父本气味的接近频次显著高于陌生雄鼠气味;分开10d时,雄鼠对父本气味的访问时间显著多于对陌生雄鼠气味的访问时间;分开20d时,雄鼠对陌生雄鼠气味的接近潜伏期极显著短于父本,对陌生雄鼠气味的访问时间极显著长于父本,其遭遇父鼠气味时的自我修饰频次显著少于陌生雄鼠气味.(2)分开30d后,雄鼠对父本和陌生雄鼠气味的行为响应没有明显差异.以上结果表明,在亲子分开20d时,雄鼠仍能识别父本与陌生雄鼠的气味;在分开30d后,雄鼠不再能够识别父本与陌生雄鼠的气味.(3)在未分窝时,雄性柴达木根田鼠幼仔对母本和陌生雌鼠气味的行为响应没有任何差异.(4)在分开10d时,雄性柴达木根田鼠对母本和陌生雌鼠气味表现出不同的行为响应模式;分开20～40d时,雄鼠对母本与陌生雌鼠气味的行为响应没有任何差异.以上结果表明,在亲子分开10d时,雄鼠仍能识别母本与陌生雌鼠的气味;在分开20d后,雄鼠不再能够识别母本与陌生雌鼠的气味.因此,雄鼠对父本气味的嗅觉记忆时间可以持续到亲子分开20～30d之间;其对母本气味的嗅觉记忆时间可以持续到亲子分开10d时.     

不育雄性对布氏田鼠气味选择和个体选择的影响

在Y型迷宫中进行了动情雌性布氏田鼠对结扎不育雄鼠及正常雄鼠气味和个体的选择实验。气味选择实验以动物的巢垫物为气味源,个体选择直接采用结扎雄性和正常雄性作为被选择个体。记录雌性布氏田鼠对选择源的选择频次以及停留时间。结果表明,无论在气味选择或是个体选择中,动情雌性布氏田鼠在选择频次和停留时间上都具有显的正相关性,而且都没有明显表现出对某—气味或个体选择上的偏好。激素测定结扎不育后雄鼠血清中的睾酮和皮质醇含量有听升高．但这种变化没有对雌性布氏田鼠的选择产生影响。     

光周期对雄性布氏田鼠种内个体气味辨别的影响

本文研究了成年雄性布氏田鼠对不同光照周期下(长光照: LD; 短光照: SD) 的陌生雌鼠和陌生雄鼠气味的行为表现。实验发现: 所有被试雄鼠对LD 雄鼠、雌鼠气味比SD 雄鼠、雌鼠气味有更多的社会探究行为。LD 雄鼠比SD 雄鼠对同性或异性陌生个体气味的嗅闻和挖掘行为要多, 而且差异显著。在探究LD 动情雌鼠气味源时, LD 雄鼠比SD 雄鼠表现出更多的嗅闻和挖掘行为; 在探究SD 动情雌鼠气味源时, LD 和SD 雄鼠的行为反应没有明显差别。所有被试雄鼠在LD 雄鼠气味源箱中的停留时间都显著多于在SD 雄鼠气味源箱中的停留时间。LD 雄鼠在LD 雌鼠气味源箱中的停留时间显著多于在SD 雌鼠气味源箱中的停留时间; 而SD 雄鼠在LD 和SD 雌鼠气味源箱中的进入频次和停留时间没有明显差别。同时, LD 雄鼠对LD 动情雌鼠的气味在嗅闻频次和嗅闻时间上多于非动情LD 雌鼠, 而对SD 动情和非动情雌鼠的气味没有表现出明显的偏好; SD 雄鼠对LD 和SD 动情雌鼠的嗅闻行为仅在频次上显著多于对非动情雌鼠的嗅闻, 而在时间上没有显著差别。结果表明: 布氏田鼠嗅觉通讯中的个体气味及其对气味进行辨别过程中的行为反应都随着光照周期的不同而发生变化。动物的个体气味带有季节性信息, 来源于长光照下的气味比短光照下的气味更具有性吸引; 短光照在一定程度上可能抑制了雌鼠的动情和雄鼠的性行为反应。其嗅觉通讯行为的适应意义可能在于: 减少秋季短日照环境下的繁殖活动, 提高雄性个体之间的社会容忍性以利于集群越冬。     

高密度种群的社会条件对大沙鼠幼年雄鼠形态生理特征的影响:一个实例研究

在非繁殖期高密度大沙鼠(RhombomysopimusLicht)种群中,我们研究了胁迫以及幼年雄鼠的性激素浓度、腹中腺大小和体重对社群中成体(≥1年龄)存在的依赖性。用无损伤放射免疫方法,测定了于1999年秋天在野外采集的幼年雄鼠粪便样品的皮质酮和睾酮。有成体社群中的个体大于无成体社群的个体。因此,成体对幼体的影响不能独立于社群大小本身。成体的存在促进粪便睾酮的浓度和抑制了幼年雄鼠的性成熟(由雄激素依赖的较小的腹中腺来估计),但是同时促进了其生长。因此,自然存在的社群环境能影响幼年雄鼠的形态生理特征发育。     

雄性小鼠的社会优势地位、性吸引和信息素通讯

以前对小鼠的研究表明,优势雄鼠的尿液对雌性的吸引力比从属雄鼠大;同时,包皮腺分泌到尿液中的两个雄性信息素E-β-法尼烯和E, E- α-法尼烯含量相应升高,而尿液本身产生的两个雄性信息素成分--脱氢小蠹素和S-2-仲丁基- 二氢噻唑没有出现有效差异.为研究我们最近从小鼠(Mus musculus)包皮腺发现的两个雄性信息素16碳醇和16碳乙酸酯与雄性小鼠社会等级的关系, 我们将雄性小鼠两两配对饲养30天,让它们经历足够的社会争斗,建立起稳定的优势和从属关系.双项选择测试表明, 优势雄鼠的尿液对雌鼠的吸引比配对(组内)的从属鼠的强,优势雄鼠和来自另一配对组( 组间)的从属鼠尿液对雌鼠的吸引无差异.这说明优势和从属关系是相对于同一社群内的个体存在的.我们进一步用二氯甲烷分别萃取包皮腺分泌物和尿液,然后用气质联用(GC-MS )来定性和定量地分析组内优势和从属个体气味的化学组成的差异.结果表明:只有优势雄鼠的包皮腺产生的E-β-法尼烯和E, E-α-法尼烯含量一致高于从属雄鼠,而1 6碳醇和16碳乙酸酯以及尿液本身的脱氢小蠹素和丁基-二氢噻唑两个雄性信息素都无差异 .说明小鼠只利用包皮腺产生的两个分子量较小的雄性信息素浓度的相对升高传递社会优势地位的信息[动物学报 54(3):399-406,2008].     

雌性布氏田鼠对雄鼠气味的辨别

通过雌性布氏田导其配偶和陌生雄鼠气味的辨别实验,以及无交配经历的成年雌鼠对社会等级不同的陌生雄鼠气的辨别实验发现,有生育经历的雌鼠对陌生雄鼠气味的探究行为明显多于对配偶气味的控究,但雌鼠在配偶雄鼠气味周围的停留时间、自身修饰行为和何处行为的发生频次和持续地陌生雄鼠,没有交配经历的雌鼠对处于从鼠地位的雄性个体气味探究行为多于对优势雄性的控究,而其他行为表现没有明显差异。表明,雌性布氏田鼠可以利用气味     

不同性别和年龄的大仓鼠对黄鼬气味的反应

将雌性成体和雌雄亚成体大仓鼠 (Cricetulustriton)长期 (4周 )暴露给过量的黄鼬 (Mustelasibirica)肛腺分泌物 ,观察其行为和生理状态的变化 ,并通过与我们以前有关黄鼬气味对成年雄鼠影响的研究结果进行比较 ,表明黄鼬气味对不同性别和不同年龄大仓鼠的胁迫效应和生殖抑制存在差异。发现黄鼬气味对雌性大仓鼠的影响较雄性小 ,对亚成体的影响较成体小 ,这与雌性和未成年动物对各种胁迫因素的反应更敏感的普遍现象相反。在成年鼠中 ,雌雄鼠的攻击行为都受到黄鼬气味的抑制 ;但天敌气味使雌性的胁腺膨大 ,对胁腺标记和肾上腺大小无影响 ;成年雄鼠的肾上腺膨大 ,胁腺萎缩 ,标记减少。在亚成体中 ,除了雄性胁腺受到抑制(与成年雄鼠相同 )外 ,雌雄鼠的肾上腺和雌性的胁腺未受影响。亚成体实验鼠的体重都比对照组低 ,但成年鼠的体重未受影响。另外 ,与以往对其它鼠类的研究结果一致 ,天敌气味并不影响成年鼠的生殖器官 ,却抑制了未成年雄鼠的附睾和未成年雌鼠的子宫。这些差异可能和生理基础的性二态以及可能面临的被捕食风险大小有关     

布氏田鼠雄性的优势地位

在实验条件下对雄性成年布氏田鼠（Microtus brandti）相遇后的优势地位及生理指标的研究结果表明：布氏田鼠雄性之间存在严格的等级关系;优势雄鼠生理指标中睾丸重量和血清睾酮激素含量高于从属雄鼠,而血清中皮质醇激素的含量低于从属雄鼠。优势雄鼠的探究、攻击和修饰等行为频次显著高于从属雄鼠,而从属雄鼠在跳跃频次上多于优势雄鼠。随着观察时间的延长,不论优势个体还是从属个体,其探究频次都呈现明显的下降趋势,其他行为的频次则没有显著差异。相关性检验说明,除攻击行为可以作为判断区分雄鼠等级的依据之外,修饰行为也可以作为判断的依据。     

食物限制对异性大仓鼠气味选择的影响

通过Y型迷宫实验 ,以巢垫物为气味选择源 ,研究了大仓鼠对 60 %限食异性鼠和对照异性鼠气味选择的偏好。结果表明 ,雌雄大仓鼠均较多地选择对照异性鼠的气味 ,但这种选择上的差异并不显著(P >0 0 5 )。12 5I放射免疫法对实验鼠血清中睾酮 (雄性 )和雌二醇 (雌性 )含量的测定结果表明 ,对照鼠血清中睾酮 (雄性 )和雌二醇 (雌性 )激素与 60 %限食鼠无显著差异。表明 60 %限食对大仓鼠异性间气味选择的影响较小。     

Scent-marking displays provide honest signals of health and infection

Males of many species produce scent marks and other olfactorysignals that function to intimidate rivals and attract females.It has been suggested that scent marks provide an honest, cheat-proofdisplay of an individual's health and condition. Here we reportseveral findings that address this hypothesis in wild-derivedhouse mice (Mus musculus domesticus). (1) We exposed males tofemale odor, which induces an increase in testosterone, andfound that sexual stimulation significantly increased the males'scent-marking and the attractiveness of their scent marks tofemales. (2) We challenged sexually stimulated males with anonreplicating strain of bacteria (Salmonella enterica C5TS)to activate immunity and found that this significantly decreasedthe males' scent-marking and the attractiveness of their scentmarks to females. (3) We collected scent marks from infectedand sham-infected males when they were sexually stimulated ornot, and we found that females could significantly discriminatethe scent marks of infected versus control males, but only whenthe males were sexually stimulated. Taken together, our resultsindicate that male mice modulate their scent-marking displaydepending on their health and perceived mating opportunities.Increased scent marking enhances males' attractiveness to females,scent marks provide an honest indicator of bacterial infection(and perhaps immune activation), and females are able to assessthe health of males more easily when males mark at a high rate.     

The activation of specific immunity in male mice stimulates fertility of their breeding partners: the phenomenon of lot's daughters

In previous experimental studies on laboratory mice, it was shown that activation of specific immunity by injection with sheep red blood cells (SRBC) lessens males' sexual olfactory attractiveness for intact females. However, reduced attractiveness can decrease males' reproductive efficiency only under the conditions of free mating, which is not obligatory for natural populations. The goal of this work was to study the influence of immunoenhancement on sexual behavior and reproductive output of outbred ICR male mice. Males, either injected with saline (control group) or SRBC-treated, were kept with intact females during 5 days after injection. While the number of fertile copulations was practically equal in both groups, the potential (ovulated ova) and actual (number of embryos) fecundity was significantly higher in females having been paired off with SRBC-treated males. Main reproductive effects were registered at 3-5th day after injection, when specific antibody-forming process starts and males' scent becomes less attractive for females. On the base of previous and present data, the hypothesis is proposed that if the quality of a non-alternative mating partner is compromised by activation of specific immunity, a female tries to maximize its reproductive output (due to low chance of repeated copulation). This responsibility for the next generation is reminiscent of the Bible story about Lot and his daughters, and may help to sustain the species existence under conditions of parasitic press.     

Immune activation is inversely related to, but does not cause variation in androgen levels in a cichlid fish species

Studies on birds and mammals indicate that sexual traits may signal superior health because active immunity, like inflammatory responses to infections, is suppressive to the production of androgens that facilitate the expression of these traits. Here we test this possible pathway for honest signaling in a teleost species, Sarotherodon galilaeus, by activating the immune system with sheep red blood cells (SRBC), which is a non-pathogenic T- and B-cell stimulating antigen. Two weeks after the start of treatment adult males injected with SRBC showed a significant increase in antibody production in comparison with control males. The variation in specific antibody production was negatively related with variation in both testosterone and 11-ketotestosterone levels. This suggests that investment in immune protection is incompatible with increased activity of the hypothalamic-pituitary-gonadal axis. However, opposite to our expectation no difference in androgen levels was found between placebo and SRBC treatment suggesting that immune activation did not cause androgen suppression in our studied species.     

Sex steroid hormones enhance immune function in male and female Siberian hamsters

Immune function is better in females than in males of many vertebrate species, and this dimorphism has been attributed to the presence of immunosuppressive androgens in males. We investigated the influence of sex steroid hormones on immune function in male and female Siberian hamsters. Previous studies indicated that immune function was impaired in male and female hamsters housed under short-day photoperiods when androgen and estrogen concentrations were virtually undetectable. In experiment 1, animals were gonadally intact, gonadectomized (gx), or gx with hormone replacement. Females exhibited the expected increase in antibody production over males, independent of hormone treatment condition, whereas male and female gx animals exhibited decreased lymphocyte proliferation to the T cell mitogen, phytohemagglutinin (PHA) compared with intact animals, and this effect was reversed in gx hamsters following testosterone and estradiol treatment, respectively. In experiment 2, testosterone, dihydrotestosterone, and estradiol all enhanced cell-mediated immunity in vitro, suggesting that sex steroid hormones may be enhancing immune function through direct actions on immune cells. In experiment 3, an acute mitogen challenge of lipopolysaccharide significantly suppressed lymphocyte proliferation to PHA in intact males but not females, suggesting that males may be less reactive to a subsequent mitogenic challenge than females. Contrary to evidence in many species such as rats, mice, and humans, these data suggest that sex steroid hormones enhance immunity in both male and female Siberian hamsters.     

Male steroid hormones and female preference for male body odor

It has been suggested that human scent works as a signal in mate selection, but the empirical evidence is scarce. Here, we examined whether women's olfactory preferences for a man's scent could be correlated with his testosterone, estradiol, or cortisol concentrations, and whether these preferences change along with the menstrual cycle. In line with previous studies, women in their most fertile period gave the highest attractiveness ratings to all men. However, the intensity ratings by women at different menstrual phases did not significantly differ statistically. Interestingly, we found that cortisol concentration in saliva correlated positively with the attractiveness but not with the intensity ratings of male T-shirt odor by all women's groups. However, neither testosterone nor estradiol was significantly associated with the ratings of attractiveness or intensity. Thus, our study suggests that there could be a novel mechanism for odor-based selection in humans.     

The scent of senescence: sexual signalling and female preference in house mice

Sexual signals are expected to be costly to produce and maintain, thus ensuring that only males in good condition can sustain their expression at high levels. When males reach senescence they lose physiological function and condition, which could constrain their ability to invest in costly sexual signals, decreasing their attractiveness to mates. Furthermore, females may have evolved mating preferences that cause avoidance of senesced males to enhance fertilization success and viability of offspring. Among mammals, the size of antlers and other weapons can decrease with senescence, but changes in olfactory sexual signals have been largely unexplored. We examined changes in olfactory signals with senescence in house mice (Mus musculus domesticus), where males excrete volatile and involatile molecules in scent marks that elicit behavioural and priming responses in females. Compared to middle-aged males, the urine of senesced males contained a lower concentration of involatile signalling proteins (major urinary proteins or MUPs), and associated volatiles that bind to these proteins. The reduced intensity of male scent will affect the longevity of scent signals deposited in the environment and, accordingly, females were less attracted to urine from senesced males deposited 12 h previously. Females also discriminated against senesced males encountered behind a mesh barrier. These results reveal that investment in olfactory signalling is reduced during senescence and suggest that senesced males and their scent may be less attractive to females.     

Juvenile immune status affects the expression of a sexually selected trait in field crickets

Parasite-mediated sexual selection theory presumes that variation in sexual traits reliably reflects variation in parasite resistance among available mates. One mechanism that may warrant signal honesty involves costs of immune system activation in the case of a parasitic infection. We investigated this hypothesis in male field crickets Gryllus campestris, whose attractiveness to females depends on characteristics of the sound-producing harp that are essentially fixed following adult eclosion. During the nymphal stage, males subjected to one of two feeding regimes were challenged with bacterial lipopolysaccharides (LPS) to investigate condition-dependent effects on harp development as compared to other adult traits. Nymphal nutritional status positively affected adult body size, condition, and harp size. However, nymphal immune status affected harp size only, with LPS-males having smaller harps than control-injected males. In addition, the harps of LPS-males showed a lesser degree of melanization, indicating an enhanced substrate use by the melanin-producing enzyme cascade of the immune system. Thus, past immune status is specifically mirrored in sexual traits, suggesting a key role for deployment costs of immunity in parasite-mediated sexual selection.     

Exposure to infant scent lowers serum testosterone in father common marmosets (Callithrix jacchus)

Common marmoset (Callithrix jacchus) males are bi-parental non-human primates that show extensive paternal behaviour. Fathers are in direct sensory contact with their infants during the natal period. We found that fathers exposed to isolated scents of their infant displayed a significant drop in serum testosterone levels within 20min after exposure, whereas parentally naive males did not. These data suggest that infant's scent may have a causal role in regulating paternal testosterone in their fathers. This is the first study to demonstrate that olfactory cues have an acute effect on paternal care.     

Peripubertal immune challenges attenuate reproductive development in male Siberian hamsters (Phodopus sungorus)

Differential allocation of energy to reproduction versus host defense is assumed to drive the seasonal antiphase relation between peak reproductive function and immunocompetence; however, evidence supporting this assumption is only correlational. These experiments tested whether photoperiod affects immune responses to antigens in peripubertal Siberian hamsters, whether such activation of the immune system exacts energetic and reproductive costs, and whether such costs vary seasonally. Male Siberian hamsters were raised from birth in long (LD) or short days (SD), which respectively initiate or inhibit the onset of puberty. To elicit a specific immune response, hamsters were injected with a novel antigen (keyhole limpet hemocyanin [KLH]) as juveniles. Reproductive development was attenuated and body temperature was elevated in LD hamsters relative to saline-injected control animals. In contrast, KLH treatments affected neither thermoregulation nor reproductive development in photoinhibited SD hamsters. In experiment 2, juvenile male hamsters were challenged with bacterial lipopolysaccharide (LPS) in order to elicit an innate immune response. Febrile and anorexic responses to LPS were greater in reproductively stimulated LD hamsters relative to reproductively inhibited SD hamsters. LPS treatments attenuated somatic and testicular development in LD hamsters, but did not significantly affect circulating testosterone concentrations. In contrast, LPS treatments were without effect on somatic and reproductive development in SD hamsters. These experiments indicate that photoperiod affects antigen-specific antibody production, febrile responses to LPS, and sickness behaviors in juvenile Siberian hamsters, and that peripubertal activation of the immune system exacts energetic and metabolic costs that can diminish the magnitude of somatic and reproductive maturation in LD. The data also underscore the importance of seasonally dependent life history factors in assessing physiological tradeoffs.     

Differential endocrine responses to infant odors in common marmoset (Callithrix jacchus) fathers

Olfactory cues can exert priming effects on many mammalian species. Paternally experienced marmosets, Callithrix jacchus, exposed to direct isolated olfactory contact with their own infant's scent show rapid decreases in testosterone levels within 20 min, whereas paternally inexperienced males do not. The following study tests whether there is a differential steroid response to exposure of infant scent from dependent infants (own and novel) and independent infants (own and novel). We examined the serum levels of estradiol, estrone, testosterone, dihydrotestosterone (DHT), and combined estrogens and androgens in eight male marmosets 20 min after exposure to isolated infant scent. Testosterone and androgen levels combined were significantly lower with exposure to own infant scent than a novel infant scent when the infants were at a dependent age but not at an independent age. Estrogen levels elevated significantly in response to own infant scent when the infants were at a dependent age but not at an independent age. These results suggest that marmoset fathers are more responsive to priming cues from related infants and hormonal responses from fathers are greatest when the infant is at a dependent age.