上海野生动物园大熊猫育幼行为初步研究

2017年10月至2018年3月采用连续记录法和焦点取样法,对上海野生动物园熊猫馆的2只雌性大熊猫在育幼期间的时间分配与活动节律进行了初步观察研究。结果表明:2个个体在育幼期间,育幼行为是最主要的行为方式,在育幼前期占90%以上。在整个育幼期间,随时间大熊猫的舔阴和育幼行为呈下降趋势,摄食、休息、活动、求适和其他行为呈上升趋势。但2个个体之间也表现出一定差异:育幼经验不足的个体("芊芊")母性强于育幼经验丰富的个体("思雪"),在育幼期不同阶段,"芊芊"用于护仔、舔仔、哺乳和母仔互动的时间均高于"思雪"。通过对上海野生动物园育幼期大熊猫行为的研究,为圈养育幼期的大熊猫饲养与管理提供科学依据。     

卧龙大熊猫保护及研究技术的进展

对卧龙自然保护区野生大熊猫的保护与监测进行评估,阐述了卧龙圈养大熊猫人工繁殖技术的进展,包括饲养管理、种公兽的培养、人工授精、哺育期母兽管理、人工育幼、亚成体饲养管理及疾病防治等,提出了野生大熊猫的保护、监测以及圈养大熊猫人工繁殖的研究新思路。     

圈养大熊猫种群性比失衡现象产生机制的探究

大熊猫(Ailuropoda melanoleuca)的迁地保护工作已开展了近70年,基本实现了圈养种群的自我维持。根据2019年大熊猫谱系,现存圈养大熊猫种群(n=612)的总性比为1.22∶1 (♀336/♂276),与1∶1的性比有显著性差异(P=0.015),目前尚未开展性比失衡现象产生机制的探究工作。本研究以全国最大的圈养大熊猫种群为研究对象,梳理了该种群36年的出生性比、11年的分年龄雌雄个体数量和分年龄死亡雌雄个体数量,计算了出生性比和预期寿命等数据,旨在探究性比失衡的内在原因。结果显示,圈养大熊猫种群的出生性比为1.01∶1,与1∶1的性比无显著性差异(P=0.926);雄性大熊猫在幼年阶段死亡的比例高于雌性(♀38.24%/♂48.72%);圈养大熊猫的出生预期寿命中位数为21.4岁,其中雌性为23.5岁,雄性为19.8岁,雌性预期寿命比雄性长3.7岁。研究表明,圈养大熊猫种群性比失衡的内在原因是雄性大熊猫幼年阶段的死亡比例高于雌性,且雌性大熊猫预期寿命更长。本研究聚焦圈养大熊猫种群的性比失衡问题,首次计算了圈养大熊猫的预期寿命,可为圈养大熊猫种群的饲养管理和野外大熊...     

大熊猫超轻初生幼仔人工哺育初探

大熊猫是存活率较低的动物之一 ,究其原因可能与其幼仔初生体重较轻有关 ,特别是与绝大多数哺乳动物相比 ,其幼仔初生重与母兽体重差异极大 ,约为母兽体重的千分之一 [1] ,加之大熊猫育幼行为高度特化 ,其幼仔存活更为不易。自 1 990年采用人工辅助育幼方式繁殖成活大熊猫双胞胎以来 ,人工圈养条件下 ,大熊猫的育幼方式概括起来有如下 4种 :1 )大熊猫母兽自行哺育 ,这是自 1 963年至今最常用的方式 ;2 )人工辅助大熊猫母兽育幼 [2 ] ,现已存活 5对双胞胎 [3] ;3)用大熊猫初乳与羊乳混合喂养 ,全人工育幼 [4 ,5] ,目前已育成 2只大熊猫 [5] ;…     

圈舍环境对圈养大熊猫发情率的影响

发情率低是圈养大熊猫Ailuropoda melanoleuca饲养的难题之一,也是制约圈养大熊猫繁育的重要因素。近年来,随着大熊猫圈养技术的不断进步,圈养大熊猫的发情率有了大幅提高,但并未达到特别高的水平。对中国保护大熊猫研究中心2006—2012年参与繁殖计划的圈养成年雌性大熊猫种群的发情率进行统计发现,2009—2012年每年雌性大熊猫的发情率高达90%以上,较2006—2008年的发情率有显著提高。2006—2012年,该大熊猫种群的饲养和管理模式、食物结构都未变化,但从2009年起圈舍环境有明显变化。经分析,该种群发情率的变化与圈舍面积、圈舍地形、圈舍植被覆盖率和植物种类等因素变化有关。本研究为提高圈养大熊猫的发情率从改善大熊猫圈舍条件的角度提供了有效的参考。     

繁殖-育幼期雌性大熊猫的空间利用与活动模式特征

繁殖期间的空间利用与活动模式特征是野生动物长期适应环境的具体表现,研究野生动物繁殖期间行为特征与策略是动物生态学研究中最重要的基础问题之一。2010年3月至2012年3月,我们利用内置记录活动水平传感器的GPS项圈记录了1只受孕、产仔并育幼的野生大熊猫（Ailuropoda melanoleuca）的活动位点和活动水平。研究了该大熊猫各繁殖阶段（交配后期、产仔期和育幼期）的空间利用与活动模式特征。结果表明：在交配后期（2010年春季,即4-6月）,雌性大熊猫活动空间范围较大为3.49 km²,其日平均活动距离较大,活动水平也相对较强;在产仔期前后（2010年夏秋季,即7-10月）,雌性大熊猫的活动范围明显缩小为0.42 km²,日平均活动距离和活动水平都明显减低;自2010年冬季（2010年11月至2011年3月）开始雌性大熊猫带仔生活,其家域面积逐渐增大,且趋向稳定 （0.84~1.19 km²）,日平均活动距离和活动水平都开始逐渐增大。雌性大熊猫在求偶交配、受孕、产仔和育幼过程中的空间利用与活动模式特征反映了大熊猫在繁殖期间的行为策略。本研究结果可为繁殖期间大熊猫及栖息地的保护管理政策制定提供科学依据。     

大熊猫母兽可根据幼仔的尖叫声辨别自己的后代

研究表明,群居哺乳动物具备通过叫声进行母幼识别的机制,而有关独栖动物的母幼识别机制鲜有研究。大熊猫(Ailuropoda melanoleuca)是典型的独栖动物,原始森林是保持野生大熊猫种群数量可持续发展的必要条件,其中的大型古树提供的育幼巢穴对大熊猫幼仔的存活至关重要。但是,近年来大型古树因受人为干扰而急剧减少,致使野生成年雌性大熊猫活动领域的重叠增大,在育幼期产仔大熊猫母兽对育幼巢穴的利用产生了竞争。大熊猫幼仔的体重约为成年大熊猫的0.1%,幼仔需要母兽高度关怀才能存活和成长。叫声是0-45日龄大熊猫幼仔向其母兽传递生理需求或所处状态的主要方式。然而,母兽能否根据幼仔的叫声识别自己的后代,目前尚无定论。本研究以274条大熊猫幼仔的尖叫声为例,首先对其进行个体独特性分析,然后通过叫声回放以及母兽对所回放的两种叫声的行为反应,验证大熊猫母兽能否辨别出其亲生幼仔。结果发现,尖叫声的17个声学参数中有14个具有潜在的个体判别能力(PIC>1);进一步的判别分析结果显示,基于这17个声学参数,78.5%的尖叫声被正确分配到对应的幼仔;叫声回放实验的结果显示,母兽在行为上更倾向其亲生幼...     

爱在卧龙

圈养大熊猫被认为是发情难、配种受孕难、育幼成活难的"三难"动物。根据科学统计有78%的雌性大熊猫不孕,有90%的雄性大熊猫不育。大熊猫性喜独居,发情后才愿意进行异性间的接触。雌性大熊猫每年只发情一次,且其择偶性极强,非见"白马王子"不抛"绣球"。由于这种天性使然,大熊猫种群的繁衍危机已迫在眉睫,为了挽救国宝,人工繁育己成重要手段。多年的实践证明,大熊猫人工繁育、移地保护是拯救大熊猫的重要战略之一。     

提高圈养大熊猫仔兽存活率的研究

1998～2001年,对提高圈养大熊猫仔兽存活率进行研究,采用了母兽育幼、人工辅助育幼、保姆育幼、人工育幼等多种方法,特别是模仿大熊猫母兽的育幼行为和活动以及用人工巢进行人工育幼。人工巢制作简单,操作方便,育幼时的温度、湿度及呼吸的新鲜空气与母兽育幼环境近似,也便于科技人员观察、抚摩,促进幼仔身体活动及护理幼仔。采集母兽的初乳及常乳饲喂;抽取健康母兽的血液制成口服血浆,适量喂仔;用美国产的两种奶粉配制的人工奶,代替母兽常乳收到良好的育幼效果。在本项研究的4年中,将卧龙大熊猫育幼成活率由54．16％平均提高到90．32％,创大熊猫育幼史的最高水平,为大熊猫的迁地保护提供了新的应用技术和方法。     

圈养大熊猫性情、饲养管理和社群-性行为的关系

以往研究表明,许多成年雄性大熊猫在圈养状态下不能表达正常的社群性行为。我们设计了一个实验来研究大熊猫正常社群性行为与性情特征、展示、以及饲养管理的关系。通过调查获得大熊猫展示和饲养管理的数据,询问饲养员得知2001年繁殖季节中大熊猫的社群性行为发生频次,然后评估社群性行为能力。研究对象是分布在中国4个繁育中心的37头(12头雄性和25头雌性)成体大熊猫。通过提供新物品和气味来评估大熊猫情绪反应状况。情绪反应分为3类:畏惧、访问和访问玩耍。在有饲养员陪同玩耍的一组里,雌、雄大熊猫的"访问玩耍"的分值都较高。"畏惧"类的雌性大熊猫气味标记行为少,表达的性行为也少,并且更多地攻击接近它们的雄性,或者不理睬雄性。在繁殖季节前就接近雄性大熊猫围栏的雌性,表现出更多的气味标记行为和性行为。这些雌性的"访问玩耍"分值也高。"访问"分值高的雄性大熊猫,接近雌性的行为更多。那些与饲养员接触时间少的雄性大熊猫倾向于攻击雌性,与那些攻击性小的雄性相比,这些雄性倾向于能够接受丰富性低的环境。这些结果表明,应该采取措施减少大熊猫的畏惧,在大熊猫和饲养员之间建立积极的关系,在繁殖季节之前,增加雌性和雄性之间的熟悉程度。     

圈养大熊猫催产素水平与母性行为之间关系

Maintaining a good cub-rearing relationship is of great significance for the healthy development of newborn giant panda cubs. Oxytocin plays a key role in this cub-rearing relationship development during the breeding period. To investigate the relationship between oxytocin levels and maternal behavior, we sampled the maternal behavior of 6 adult female giant pandas (3 in lactation group, 3 in non-lactation group) at Chengdu Research Base of Giant Panda Breeding from June to September 2019 by using the focal sampling method, and tested the urine oxytocin level of each individuals by using enzyme-linked immunosorbent assay. The results showed that the oxytocin levels were significantly higher in the lactation group (278. 86 pg/mg ±44. 42 pg/mg) than in the non-lactation group. For the two types of breastfeeding groups, the level of oxytocin in the multiparous female pandas (185. 64 pg/mg ±44. 61 pg/mg) was significantly lower than that in the primiparous female pandas (465. 30 pg/mg ±82. 39 pg/mg). Compared with the primiparous female pandas, the multiparous female pandas had more embracing cub behavior (77. 45% ±1. 24%) and feeding behavior (15. 22% ±1. 62%), but less licking cub (14. 26% ±0. 91%) and position adjustment behavior (1. 69% ±0. 29%). Finally, we found the licking cub behavior was significantly positively correlated with the oxytocin level in the lactation group, and the embracing cub behavior was significantly negatively correlated with the oxytocin level in the lactation group. The results indicate that primiparous female pandas show more maternal behavior, less individual behavior and higher oxytocin levels. The results of this study suggest that the different reactions of oxytocin in the two types of giant panda females may help to improve the refined and differentiated breeding techniques for captive giant pandas in the future.     

Innate predator recognition in giant pandas

Innate predator recognition confers a survival advantage to prey animals. We investigate whether giant pandas exhibit innate predator recognition. We analyzed behavioral responses of 56 naive adult captive giant pandas (Ailuropoda melanoleuca), to urine from predators and non-predators and water control. Giant pandas performed more chemosensory investigation and displayed flehmen behaviors more frequently in response to predator urine compared to both non-predator urine and water control. Subjects also displayed certain defensive behaviors, as indicated by vigilance, and in certain cases, fleeing behaviors. Our results suggest that there is an innate component to predator recognition in captive giant pandas, although such recognition was only slight to moderate. These results have implications that may be applicable to the conservation and reintroduction of this endangered species.     

Preliminary investigation on iodine nutrition in captive giant pandas

Background/ObjectiveThe giant panda belongs to the family Ursidae and, as a species of bear, still retains the simple digestive system of a Carnivoran. However, under the pressure of a specific habitat they had to adapt to a plant mono-diet consisting of bamboo with different species and growth stages around the year. A plant-based diet has relatively low iodine content with risk of iodine deficiency. Furthermore, bamboo contains cyanogenic glycosides releasing cyanide whose detoxification metabolite the thiocyanate acts as antagonist against iodine uptake and storage in the thyroid. To date very little is known about the iodine nutritional status of the giant panda, thus this study was conducted to receive the first information about the iodine nutrition of captive giant panda.Subjects/MethodsHere we investigated the iodine content of bamboo with different plant parts/vegetation stage and species and further compounds of the captive giant panda diet. Next, the urinary iodine (UI) and urinary thiocyanate (UT) levels of infant, sub-adult, adult and geriatric captive giant pandas was measured during the periods when the pandas consume both bamboo leaves- and culm (bamboo leaf-culm stage). Afterwards, the UI of 19 adult giant pandas was measured again for the different iodine intake during bamboo shoot stage. Finally, in this study part also the fecal iodine concentration was analyzed for calculation of total iodine excretion in relation to the iodine intake.ResultsBamboo leaves had the highest iodine content (453 μg/kg dry matter (DM)), followed by the shoots (84 μg/kg DM, p < 0.05), while bamboo culm had the lowest value (12 μg/kg DM, p < 0.05). During bamboo leaf-culm stage, giant pandas of different age groups had different UI and UT levels (p < 0.05). Furthermore, UI and UT were positively correlated among sub-adult, adult and geriatric giant pandas (p < 0.05). In adult giant pandas during bamboo shoot stage, the iodine excretion in feces was not different from that in urine while their total iodine excretion was less than their iodine intake (p < 0.05). Moreover, during bamboo shoot stage, the UI level of adult giant pandas was much lower than noted during bamboo leaf-culm stage (p < 0.05).ConclusionsOur results indicate that UI of captive giant pandas was related to their age as well as to the vegetation stage/part of bamboo they consumed reflecting a different periodic iodine supply. Thiocyanate and fecal excretion should be emphasized when considering the iodine nutrition of giant pandas.     

Behavior of giant pandas (Ailuropoda melanoleuca) in captive conditions: Gender differences and enclosure effects

The behavior of giant pandas (Ailuropoda melanoleuca) was studied under captive conditions. Both male and female pandas spent similar amounts of time engaged in eating and locomotion. Males performed anogenital‐marking more but rested less than females, which suggests a sexually dimorphic pattern of behavior. Furthermore, females housed in the seminatural environment spent significantly less time engaged in stereotyped behavior than did females housed in the traditional enclosure, indicating that an enclosure environment affects the behavior of giant pandas. These data illustrate the importance of careful management and facility design for captive giant pandas. Zoo Biol 22:77–82, 2003. © 2003 Wiley‐Liss, Inc.     

Microbial Diversity and Evidence of Novel Homoacetogens in the Gut of Both Geriatric and Adult Giant Pandas (Ailuropoda melanoleuca)

Recent studies have described the bacterial community residing in the guts of giant pandas, together with the presence of lignocellulolytic enzymes. However, a more comprehensive understanding of the intestinal microbial composition and its functional capacity in giant pandas remains a major goal. Here, we conducted a comparison of bacterial, fungal and homoacetogenic microbial communities from fecal samples taken from two geriatric and two adult captive giant pandas. 16S rDNA amplicon pyrosequencing revealed that Firmicutes and Proteobacteria are the most abundant microbiota in both geriatric and adult giant pandas. However, members of phylum Actinobacteria found in adult giant pandas were absent in their geriatric counterparts. Similarly, ITS1 amplicon pyrosequencing identified developmental changes in the most abundant fungal classes from Sordariomycetes in adult pandas to Saccharomycetes in geriatric pandas. Geriatric pandas exhibited significantly higher abundance of a potential probiotic fungus (Candida tropicalis) as compared to adult pandas, indicating their importance in the normal digestive physiology of aged pandas. Our study also reported the presence of a lignocellulolytic white-rot fungus, Perenniporia medulla-panis, and the evidence of novel homoacetogens residing in the guts of giant pandas.     

大熊猫乳汁中富含游离精氨酸

采用高效液相色谱法测定了8只圈养大熊猫20个乳样中游离氨基酸的含量。结果显示:大熊猫初乳和常乳中均含有丰富的游离精氨酸,并且是含量最高的游离氨基酸;泌乳2-10d的大熊猫初乳中总游离氨基酸含量约为82mg/100ml,其中游离精氨酸平均含量达61mg/100ml,常乳中游离精氨酸含量约为54mg/100ml,均明显高于人、牛和藏绵羊乳;游离精氨酸在大熊猫干乳期乳腺分泌物中含量显著下降。推测乳中高水平的游离精氨酸在大熊猫幼仔生长发育中可能发挥重要作用[动物学报52(2):309-315,2006]。     

雄性大熊猫对化学信息行为反应的年龄差异

化学通讯对哺乳动物的生存和繁殖起着重要作用。研究了雄性大熊猫(Ailuropoda melanoleuca)对同伴个体尿液气味行为反应的发育模式。结果显示,在成年雌性个体的尿液气味刺激下,雄性个体表现显著多的嗅闻行为和嗅闻/舔舐环境行为,但是嘶咬气味刺激物的行为明显减少。在雌性个体的尿液气味刺激下,不同年龄段的雄性个体行为表现不同,成年雄性个体表现较亚成年和幼年个体显著多的舔舐行为。此外,成年个体和亚成年个体均表现较多的嗅闻/舔舐环境行为,而幼年个体则无该行为表现。幼年个体较成年和亚成年个体表现显著多的气味涂抹行为,而且嘶咬气味刺激物的时间较亚成年个体显著多。幼年个体和亚成年个体对雌性和雄性个体尿液气味刺激的行为反应不存在显著差异。研究结果表明,雄性大熊猫对同种个体尿液中化学信息的行为反应呈现出年龄差异。     

Factors Affecting the Outcome of Artificial Insemination Using Cryopreserved Spermatozoa in the Giant Panda (Ailuropoda melanoleuca)

Artificial insemination (AI) is an important component of captive breeding programs for endangered species, such as the giant panda. The panda has been the subject of increasingly successful captive breeding programs involving a compilation of assisted breeding techniques, including AI using cryopreserved spermatozoa. AI implementation is currently hampered by a lack of understanding of the factors that may cause failure. We investigated factors influencing the probability of success of AI for 14 giant panda females housed at the China Center for Research and Conservation of the Giant Panda (CCRCGP) inseminated in a total of 20 instances using cryopreserved spermatozoa from 11 males currently residing in 6 different captive breeding institutions. One of the pandas was the oldest giant panda female to ever successfully conceive from AI (20.5 years old). The success of AI was significantly affected by the timing of AI in relationship to both timing of peak urinary estrogen of the female and percent decline in urinary estrogen between the peak level and the first AI attempt. Our results suggest that the window for successful AI in giant pandas may be narrower than previously suspected, although individual differences in rates of decline in urinary estrogen may reflect some degree of variation in this crucial window across females. Our results are consistent with recent research on pandas and other species that demonstrates the efficacy of cryopreserved spermatozoa for AI and highlights the need for more in‐depth analysis of factors related to female physiology that may influence its success. Zoo Biol 31:561‐573, 2012. © 2011 Wiley Periodicals, Inc.     

Seasonal shifts in giant panda feeding behavior: relationships to bamboo plant part consumption

The giant panda (Ailuropoda melanoleuca) is classified as a carnivore, yet subsists on a diet comprised almost exclusively of bamboo. Wild and captive giant pandas use highly selective foraging behaviors for processing and consuming bamboo. These behaviors are for the first time quantified in captive giant pandas over a 5‐year period of time showing highly specific seasonal trends. Giant panda feeding behavior was recorded using live video observations of two giant pandas housed at the Memphis Zoo from November 2003 to June 2008. Leaf was the primary plant part consumed from June to December, whereas culm was consumed primarily from February to May, with both bears displaying similar seasonal shifts in plant part consumption. From May to June, leaf consumption increased significantly (P‐values<0.001); from June to August, leaf consumption remained high and stable. From December to March, leaf consumption decreased significantly (P‐values<0.001). Specific behaviors for bamboo leaf and culm consumption were also observed. Both bears formed wads of leaves before ingestion while feeding on leaf, but the male employed this feeding behavior more often than the female (54 and 33%, respectively). Both bears used similar culm‐stripping behavior (26 and 25%), used to remove the outer layer and isolate the pith for consumption. This study indicates that unique seasonal foraging behaviors observed in wild pandas are also apparent in captive animals in relation to plant part selectivity and feeding behaviors. Zoo Biol 29:470–483, 2010. © 2009 Wiley‐Liss, Inc.