不同发情阶段雄性鹅喉羚的时间分配特征

以往研究表明受发情交配行为制约,一些雄性反刍动物在发情期食物摄入量明显降低。已有两个相关假说解释该现象:能量摄入最大化假说和能量保存假说。作者于2009 ～ 2010 年在卡拉麦里山有蹄类自然保护区研究了雄性鹅喉羚不同发情阶段的时间分配。结果表明雄羚发情期采食时间比例明显下降(37. 9% ),低于发情前期(63. 6% )和发情后期(65. 8% );发情期卧息时间比例(6. 0% )与发情后期相近(5. 4% ),明显低于发情前期(23.2% );发情前期至发情后期采食卧息时间比(分别为2. 7、6. 3、12. 1)显著增加;发情期雄羚站立和移动时间比例明显升高,采食行为时间占非发情行为时间主要部分(86. 4% ),且采食行为与发情行为显著相关。相比之下,雌羚不同发情阶段采食行为时间分配比例相似。总之,除必需投入的发情行为外,发情期雄羚最大化其能量摄入;发情行为的投入是导致发情期雄羚食物摄入量下降的主导因子,雄性能量摄入最大化假说更好地解释了发情期鹅喉羚所采取的能量策略。     

内蒙古达赉湖地区蒙原羚繁殖期及其前后昼间行为时间分配及能量平衡策略

2007年11月、12月和2008年3月,在内蒙古达赉湖地区,采用扫描取样法对雌雄蒙原羚繁殖期及其前后昼间行为时间分配进行了研究。 研究表明：（1）繁殖期前、繁殖期和繁殖期后,雌性蒙原羚采食时间,占昼间活动时间的比例分别为（44.9±3.8）%、（43.5±4.0）% 和 (46.2±3.1)%;卧息时间,占昼间活动时间的比例分别 为（32.3±4.8）%、（29.2±2.9）% 和 (28.0±4.8)%;雌性蒙原羚在繁殖期及其前后采食、移动和卧息的行为时间分配差异不显著（P>0.05）,站立、繁殖、“其他”行为时间分配差异性显著（P<0.05）。（2）繁殖期前、繁殖期和繁殖期后, 雄性蒙原羚采食时间,占昼间活动时间的比例分别为 (52.6±3.8)%、(17.5±2.8)% 和 (29.8±4.8)%;卧息时间,占昼间活动时间的比例分别为 (13.4±6.4)%、(24.2±4.1)% 和 (44.2±4.7)%。雄性蒙原羚在繁殖期及其前后采食、卧息、站立、移动、繁殖、“其他”时间分配均有显著差异（P<0.05）。动物采食卧息的行为时间分配反映动物的能量平衡策略。雌性蒙原羚的时间分配表明,雌性蒙原羚的能量平衡策略在繁殖期前、繁殖期和繁殖期后没有发生显著变化,均为能量摄入最优化策略,尽可能多的时间分配在采食上;雄性蒙原羚的时间分配表明,在繁殖期前,其能量平衡策略为能量摄入最优化策略,尽可能多的时间分配在采食上;雄性蒙原羚繁殖期及繁殖期后其能量平衡策略转变为能量支出优化策略,尽可能少的支出能量,尽可能多的时间分配在卧息上。     

青藏铁路对雄性藏羚行为时间分配的影响

行为时间分配是动物对资源获取和风险防御的权衡,受到诸多因素影响。本研究采用目标动物观察法记录了可可西里冬季（交配季）雄性藏羚的行为表现,并将行为分为觅食、警戒、卧息、移动和“其他”5种类型。首先,本文通过对比青藏铁路运营前后两个交配季（2003-2004年建设期和2017-2018年运行期）之间雄性藏羚的行为时间分配差异,探讨青藏铁路的出现对雄性藏羚行为的影响。随后,基于2017-2018年交配季雄性藏羚的行为数据,分析了年龄对其行为时间分配的影响。结果表明：与建设期相比,雄性藏羚的觅食和“其他”行为时间比例明显增加,而警戒和卧息的行为时间比例显著降低,这说明铁路稳定运营后对雄性藏羚的影响降低。交配群中成年雄性藏羚的警戒、移动,以及“其他”行为中的繁殖行为的时间比例显著高于亚成体,而觅食和卧息行为时间比例显著低于亚成体, 这与交配群中不同年龄雄性个体所处的地位等级有关。成年雄性藏羚在交配群中占据主导地位,拥有更多配偶资源,增加警戒和移动,减少觅食和卧息有助于其维持交配群的稳定。     

发情交配期贺兰山岩羊的集群特征

2003 年和2004 年的11 ～12 月,采用样线法和全事件取样法研究了贺兰山岩羊的集群特征。共观察到岩羊715 群,共计2 473只。发情前期平均群大小3.5±2.8 只(n = 241),发情期平均群大小3.4±3.2 只(n =297)。发情前期与发情期雄性群、雌性群、雌雄群、混合群及母子群大小间均无显著差异。发情前期到发情期群类型组成差异极显著,发情期雌雄群、混合群和独羊比例显著上升;雄性群、雌性群和母子群比例显著下降。发情前期到发情期,雄性岩羊在雄性群、雌雄群、混合群和独羊中的分布差异极显著,成年雌性岩羊在雌性群、雌雄群、混合群、母子群和独羊中的分布差异极显著。发情期4 个年龄等级雄性在雄性群、雌雄群、混合群和独羊中分布差异极显著,4 个年龄等级雄性岩羊都倾向分布于混合群。
     

异地半圈养藏羚卧息行为适应性的初步研究

藏羚Pantholops hodgsoni是青藏高原特有物种。为了探讨藏羚羊对异地环境的行为学适应,对异地圈养藏羚羊的卧息行为进行了不同性别、不同季节间的比较研究。采用全事件记录法和焦点动物取样法,记录和统计了异地圈养藏羚羊冷季和暖季的卧息行为。研究结果表明,在暖季,雌性和雄性藏羚羊在卧息时间及卧息时间占全天活动时间的比例(卧息比例)上没有差异(卧息时间:Z=-1.126,P0.05;卧息比例:Z=-1.357,P0.05);在冷季,雌性和雄性藏羚羊在卧息时间及卧息比例上也没有差异(卧息时间:Z=-1.14,P0.05;卧息比例:Z=-0.307,P0.05)。雄、雌性藏羚羊的卧息时间及卧息比例没有季节差异(雄性卧息时间:Z=-1.465,P0.05;雄性卧息比例:Z=-1.631,P0.05;雌性卧息时间:Z=-1.742,P0.05;雌性卧息比例:Z=-1.852,P0.05)。季节和性别对藏羚羊卧息行为的影响没有交互作用(F=0.057,P0.05)。总之,藏羚羊卧息行为之间既没有性别差异也没有季节差异,与可可西里地区藏羚羊的卧息行为相比,异地圈养藏羚羊的卧息行为已经调整其行为学适应对策。     

哺乳期圈养雌獐昼夜行为时间分配及活动节律

2014年7—8月,在浙江省富阳市獐养殖场采用瞬时扫描取样法对圈养条件下哺乳期雌獐昼夜行为时间分配及活动节律进行了调查研究。结果表明:1雌獐的日活动行为时间分配依次为卧息(59.01±2.93)%、走动(13.91±2.39)%、采食(10.60±0.74)%、梳理(7.76±1.10)%、反刍(2.84±0.66)%、站立(2.72±1.01)%、警戒(1.53±0.59)%、社会行为(1.26±0.54)%、排遗(0.36±0.22)%。2雌獐的昼间卧息时间极显著低于夜间(P<0.01),梳理时间显著低于夜间(P<0.05),而走动、采食、反刍、警戒和社会行为的时间极显著高于夜间(P<0.01),站立行为差异无统计学意义(P>0.05)。3一天中,雌獐的采食行为和反刍行为呈现双峰型的节律特征,走动、站立和梳理行为出现了3个高峰期,卧息和社会行为则呈多峰型,其中取食高峰后延迟1~2 h为反刍高峰。4卧息行为分别与采食行为和走动行为呈极显著的负相关关系,而采食行为与走动行为之间呈显著的正相关关系。总之,哺乳期圈养雌獐的日活动行为体现出明显的节律性,且大多数行为时间具有明显的昼夜差异。     

新疆天山中部北山羊社群结构

2013年10月至2014年9月,于天山中部天格尔山脉乌鲁木齐河源区研究了北山羊的社群结构。将其集群类型划分为雄性群、雌幼群、混合群和独羊4类。共统计北山羊497群,总计6 427只。北山羊最大集群为100只,最小群为1只,全年平均群大小为（12.93±0.65）只。其中春季（14.83±1.35）只,夏季（14.16±1.65）只,秋季（15.17±1.69）只,冬季（9.32±0.74）只。冬季北山羊平均集群大小显著低于其他三个季节。混合群的平均群大小最大,其余依次为雌幼群和雄性群。Kruskal-Wallis H检验结果表明各社群类型群大小差异极显著。北山羊多以2-7只的小群活动,占到总遇见频次比例的41.05%,8-20只群占32.80%,20只以上大群出现最少,占17.71%。在4种集群类型中,雌幼群出现频率最高,占51.91%,其次依次为混合群、雄性群和独羊。卡方检验结果表明4个季节间4种社群类型的出现频次差异显著。研究结果显示,北山羊在发情期混群,非繁殖期同性集群。受环境因素和自身生理周期的影响,其集群大小、集群类型均随季节变化而变化。     

"占群"还是"挑战"?不同时间限制条件下麋鹿个体的交配计策

在麋鹿的发情交配季节 ,雄性麋鹿可区分为 3种类型 :“群主”、“挑战者”和“单身汉”。“群主”是一头圈占并控制雌鹿活动的优势雄性。“挑战者”不占有雌性繁殖群 ,但在发情场附近地点展示炫耀。当雌性繁殖群的雌鹿外出采食靠近“挑战者”的展示炫耀地点时 ,“挑战者”会积极地寻求机会与之交配。“单身汉”在繁殖季节不表现发情行为。他们像非繁殖季节一样采食 ,采食后蹲在水塘中休息。我们对何种因素决定麋鹿个体的发情交配计策感兴趣。 1996至 1998年夏天 ,我们在北京麋鹿苑观察麋鹿发情交配行为以分析导致这些行为差异的原因。结果发现 ,“群主”、“挑战者”和“单身汉”用于维持生命的时间预算与用于发情的时间预算成反比 ,并且 ,“群主”、“挑战者”和“单身汉”用于维持生命的时间预算与用于发情的时间预算差异显著。“群主”的绝大部分时间用于发情占群 ,而用于采食、饮水的时间很少 ,所以 ,“群主”在发情期间基本上处于禁食状态 ,靠消耗体内脂肪维持生命。“单身汉”则相反 ,绝大部分时间用于采食、休息和反刍 ,基本上没有发情行为。“挑战者”在发情行为与维持生命行为之间的时间则居于“群主”与“单身汉”之间。交配次数是偏态分布的 ,与雄性发情时间呈正比。“群主”的交配概率最高     

发情周期不同时期猪卵泡颗粒细胞凋亡的观察

为探讨猪发情周期不同时期卵泡发育和闭锁的规律及机理,本实验通过TUNEL原位标记,H,E．染色以及放射免疫测定等手段研究了猪发情周期不同阶段卵巢表面各类卵泡数量的变化。各类卵泡中颗粒细胞的凋亡比例,闭锁卵泡的形态变化以及发情周期各阶段血清孕酮及雌二醇水平的变化等问题。卵泡的总数在发情间期最多,为26．8个／卵巢,发情期最少,为7．4个／卵巢。小放泡的数量在发情间期最多。为15个／卵巢,在发性期数量最少,为5．7个／卵巢。中等卵泡数量在发情间蜞多,为8．5个／卵巢,在发情后期卵巢中无中等卵泡。大卵泡的数量在发情前期最多,为7．4个／卵巢,在发情后期最少,为0个。小卵泡的颗粒细胞凋亡比例（各时期平均21．03％）显著高于大卵泡,在发情后期显著降低。中等卵泡的颗粒细胞凋亡比例（平均16．6％）在发情前期显著低于其它各期。大卵泡的颗粒细胞凋亡比例（平均11．2％）在发情周期各阶段无显著差异,均显著低于中等卵泡和小卵泡。     

不同品种绵羊发情周期LEPRb mRNA表达分析

为了探讨LEPR在绵羊季节性发情中的表达特点,以季节性发情的中国美利奴和常年发情的多浪羊为研究对象,利用实时荧光定量PCR技术检测繁殖季节不同发情阶段LEPRb m RNA在下丘脑、卵巢和子宫组织中的表达变化。结果显示,在发情间期、前期和发情期中国美利奴卵巢和子宫组织LEPRb的相对表达水平都低于下丘脑,但在发情后期卵巢和子宫LEPRb的相对表达水平显著高于下丘脑。不同发情时期,两品种绵羊同一组织的LEPRb的表达变化幅度有所差异,但趋势相似。且中国美利奴各组织LEPRb的表达水平都高于常年发情的多浪羊。LEPRb的表达变化与绵羊发情存在相关关系。     

Does a temperate ungulate that breeds in summer exhibit rut-induced hypophagia? Analysis of time budgets of male takin (Budorcas taxicolor) in Sichuan,China

Mammals maximize fitness by optimizing time and energy allocation between reproduction and survival. Describing time budgets is a way to understand a species' constraints in energy allocation. We describe a time budget for male takin (Budorcas taxicolor) in Tangjiahe Nature Reserve, China, to better understand rut-induced hypophagia, which is frequently observed in temperate ungulates that breed in autumn or in winter. Observations generally occurred at two elevations (1200-1600m and 2600-3200m), using 20-min focal animal scan sampling from 2007 to 2009. Feeding behaviors accounted for the majority in takin's time budget (61.1%) during daylight hours, relative to the other observed behaviors, such as rest (14.1%), alert behavior (10.2%) and locomotion (6.8%). We found a negative correlation between feeding behavior and rutting behavior during the rutting season. A ratio of feeding time to resting time increased from pre-rut to rut, while resting behavior did not change significantly across seasons. These results suggest the "energy saving" hypothesis could explain reduced foraging in male takin during the rut, but aspects of the species biology suggest that hypotheses for rut-induced hypophagia developed for other temperate ungulates do not apply to takin. We suggest that the unusual summer rutting season of takin releases males from the energy constraints encountered by temperate ungulates that breed in the autumn and has other benefits for offspring survival. Further research should be conducted on ungulates that exhibit rut during the summer and tropical ungulates that might not experience limited food availability following the mating season to improve our understanding on rut-induced hypophagia.     

To Feed or Not to Feed? Testing Different Hypotheses on Rut‐Induced Hypophagia in a Mountain Ungulate

In many ruminant species, males dramatically reduce forage intake during the rut. To date, different hypotheses have been suggested to explain this rut‐induced hypophagia. To assess the predictions of the main hypotheses, we analysed Alpine ibex (Capra ibex) activity budget and compared the behaviour of males and females before, during, and after the rut. Only males spent significantly less time foraging during the rut than outside of it, whereas females allocated a similar proportion of time to foraging before, during, and after the rut. Our results showed that during the rut males also reduced lying time, while the ratio of time spent feeding to time spent lying did not change for males among periods. In conclusion, during the breeding season males maximized energy intake when not actively engaged in mating activities and rut‐induced hypophagia appeared to result from time budget constraints generated by mating‐related activities. Accordingly, the foraging constraint hypothesis seems appropriate to explain this phenomenon in Alpine ibex males.     

Contrasting Alternative Hypotheses to Explain Rut‐Induced Hypophagia in Territorial Male Chamois

Male ungulates in temperate environments often show a severe reduction in time spent foraging during the mating season. Several hypotheses have been put forward to explain this phenomenon but, so far, no study investigated the proximate mechanisms underlying rut‐induced hypophagia in ungulates using alternative mating tactics (AMTs). Between the pre‐rut and post‐rut of 2011 and 2012, we collected data on activity budgets, parasite burden and androgen levels of territorial and non‐territorial male Alpine chamois Rupicapra r. rupicapra in the Gran Paradiso National Park (Italy). We aimed to investigate whether AMTs showed similar reduction in time spent foraging during the mating period and to test the predictions underlying alternative hypotheses that may explain rut‐induced hypophagia. Only territorial males showed a significant reduction in time spent foraging during the rut; the lack of correlation between proportion of time spent foraging and androgen metabolites or parasite burden did not fully support the physiological and the parasite hypotheses, while the foraging constraint, the energy‐saving and the physical rest hypotheses could not be discounted. Territorial males decreased the time spent lying down from the pre‐rut to the rut, but not their foraging‐to‐lying‐down ratio. During the mating period, we found negative correlations between time spent foraging or lying down and time spent rutting. Our data suggest that territorial males’ behaviour is more consistent with the foraging constraint hypothesis than with the energy‐saving hypothesis previously suggested. Yet, during the rut territorial males did not maximise their foraging time, and the optimisation of their energy balance could rather depend upon feeding on relatively high‐quality plants. This suggestion – possibly named ‘forage quality hypothesis’ – now requires further investigations. This work showed that alternative mating behaviours may underlie different patterns of foraging strategies: we suggest that tests of alternative hypotheses to explain rut‐induced hypophagia within ungulate populations should not ignore the occurrence of AMTs.     

Season effect on genitalia and epididymal sperm from Iberian red deer, roe deer and Cantabrian chamois

Seasonality deeply affects the physiology and behavior of many species, and must be taken into account when biological resource banks (BRBs) are established. We have studied the effect of seasonality on many reproductive parameters of free-ranging Iberian red deer, roe deer and Cantabrian chamois, living in Spain. Testicles from hunted animals were collected and sent to our laboratory at different times during the year. We recorded the weight and volume of testis, the weight of the epididymis and its separate parts (caput, corpus, and cauda), the weight of the sperm sample collected from the cauda epididymis, and several sperm parameters (sperm concentration, spermatozoa recovered, motility, HOS test reactivity, acrosomal status, and viability). We studied the data according to several periods, defined accordingly to each species. For red deer, we defined rut (mid-September to mid-October), post-rut (mid-October to mid-December), and non-breeding season (February). For roe deer, they were pre-rut (June), rut (July), post-rut (first fortnight of August), and non-breeding season (September). For chamois: non-breeding season (June to mid-September) and breeding season (October-November). The rut/breeding season yielded significantly higher numbers for almost all parameters. However, in the case of red deer, sperm quality was higher in the post-rut. For roe deer, testicular weight was similar in the pre-rut and in the rut, and sperm quality did not differ significantly between these two periods, although we noticed higher values in the rut. In the case of chamois, sperm quality did not differ significantly from the breeding season, but data distribution suggested that in the non-breeding season there are less males with sperm of good quality. On the whole, we find these results of interest for BRB planning. The best season to collect sperm in this species would be the breeding season. However, post-rut in red deer, pre-rut in roe deer, and non-breeding season in chamois could be used too, because of the acceptable sperm quality, despite the lower quantity salvaged. More in-depth research needs to be carried out on the quality of sperm salvaged at different times of the year in order to confirm these findings.     

Foraging time of rutting bighorn rams varies with individual behavior, not mating tactic

Mate guarding is the primary mating tactic used by dominantmales of many species of ungulates. Guarding males are thoughtto forage less during the rut than do nonguarding males, possiblyleading to greater fitness costs. I observed bighorn rams foragingduring the pre-rut and the rut. I compared how coursing (analternative mating tactic) and tending (a form of mate guarding)affected the foraging behavior of bighorn rams over the rut,to test whether foraging was more constrained by mate guardingthan by coursing. All adult males spent less time feeding duringthe rut compared with the pre-rut. The decrease in time spentfeeding, however, was independent of mating tactic. Contraryto expectation, individual rams observed both coursing and tendingspent less time foraging when coursing than when tending. Foryoung rams, the time spent in rutting activities was correlatedwith individual pre-rut mass, indicating that males either modifytheir behavior according to available metabolic reserves oradjust the energy devoted to rutting activities to the levelof expected benefits. Mate guarding does not appear to constrainforaging more than coursing. The costs of male reproductivebehavior may depend more upon individual effort than on theparticular tactic adopted.     

Glucocorticoids of bison bulls in relation to social status

A primary response to stress is an increase in circulating adrenal glucocorticoids (GC) such as cortisol. Two hypotheses propose differential stress responses to agonistic and aggressive interactions in social groups. If subordinate animals are subjected to social and psychological stressors leading to chronic GC elevation, the 'stress of subordination' hypothesis predicts that GCs will be higher in subordinates than dominants. Alternatively, if dominant animals are subject to physiological stressors (e.g., fight at higher rates than subordinates) or hierarchies are unstable, the 'stress of domination' hypothesis predicts higher GCs in dominant individuals. Both models predict that GC levels will peak during the breeding season. We tested these predictions in bison bulls (Bison bison) using fecal steroid analysis to characterize GC concentration and behavioral observations to determine dominance rank, copulatory success, and tending status of bulls. Fecal samples were collected during 2003 from adult bison bulls during pre-rut (June), rut (July-August), and post-rut (September). Matched sample data indicated that mean GC levels (ng/g feces) of bulls strongly peaked during the 4-week rut, doubling from pre-rut to rut and then declining again during post-rut. High ranked dominant bulls maintained higher GC levels than lower ranked subordinate bulls. Dominance rank was positively correlated with copulatory success and age, and dominant bulls were more likely to tend (guard) cows as they approached estrus. There was a positive correlation between GC level and copulatory success, with prime-aged bulls (> or =7 years) obtaining the most copulations. GC levels were positively correlated with bull androgen levels determined in a previous study. These results support the 'stress of domination' hypothesis, indicating that dominant bison bulls pay a significant physiological price for high social status and the opportunity to mate.     

Fecal androgens of bison bulls during the rut

The influence of sex hormones is a key proximate factor underlying male reproductive behavior in mammals. Effective conservation policies for the remaining purebred plains bison (Bison bison bison) herds require knowledge of the physiology underlying bison reproductive biology. We used fecal steroid analysis to characterize androgen levels in adult bison bulls before, during, and after the rut, and to examine androgen levels of bulls differing in reproductive status, age, and mating success. Fieldwork was carried out at the Fort Niobrara National Wildlife Refuge in north-central Nebraska. All adult bison in the herd were individually known by unique brands. Fecal samples were collected during 2003 from bulls during pre-rut (June), rut (July-August), and post-rut (September), and behavioral observations focused on reproductive status and mating success during the rut. Matched sample data indicated that androgen levels (ng/g feces) of bulls peaked during the rut, doubling from pre-rut to rut and then declining by 75% during post-rut. Dominant bulls that tended (guarded) cows maintained higher androgen levels than bulls that were not tending. There was a positive correlation between bull age (associated with mating success) and androgens, with higher androgen levels in prime-aged bulls compared with younger bulls. Nonetheless, there was no correlation between mating success (measured by number of copulations observed) and androgen level. This suggests that while androgens may provide the proximate motivation to compete for matings, other factors determine the mating success of bison bulls.     

Rut-Induced Hypophagia in Male Bighorn Sheep and Mountain Goats: Foraging Under Time Budget Constraints

In polygynous ungulates, the rut imposes constraints on male time budgets that generate a trade‐off between maintenance and reproduction, leading to a reduction in time spent foraging. As mating activities can incur substantial somatic costs, males are expected to spend their ‘non‐rutting’ time recovering during the breeding season. If the diminution in time allocated to foraging by males is only a consequence of time budget constraints, males should keep a similar ratio of time spent foraging to lying to that observed in the pre‐rut, leading to an overall reduction of these two activities (the ‘foraging constraint’ hypothesis). Alternatively, if males adopt an energy‐saving strategy, they should limit energy expenditures by reducing foraging but not lying time, as the energy gains of forage intake may not meet the basal energetic requirements, especially in northern and temperate regions (the ‘energy‐saving’ hypothesis). Here, we contrast these two hypotheses by comparing individual daily time budgets of marked adult bighorn sheep rams (Ovis canadensis) and male mountain goats (Oreamnos americanus) during the pre‐rut and the rut. Concordant results for both species support the ‘foraging constraint’ hypothesis, as sexually‐active males reduced time spent foraging and lying from the pre‐rut to the rut because of an increase in time spent in mating‐related activities. Bighorn sheep rams also increased time spent foraging when not engaged in mating tactics, providing further support for a ‘maximisation’ of energy intake in the absence of reproductive opportunities. Because there are also known physiological changes that occur during the rut which may cause appetite suppression, for example to produce metabolic compounds linked with olfactory communication (the ‘scent‐urination’ hypothesis) or to cope with increased burden of parasites (the ‘parasite‐induced anorexia’ hypothesis), further research should aim at simultaneously testing these current hypotheses to better understand rut‐induced hypophagia and its effects on the life histories of male ungulates.