Pathological Changes in Andrias davidianus Infected with Chinese Giant Salamander Ranavirus

Chinese giant salamander ranavirus(CGSRV) is an emerging pathogen in captive populations of the Chinese giant salamander(Andrias davidianus). We processed 140 morbid Chinese giant salamanders from seven captive breeding populations over five years, and describe the disease associated with CGSRV infection. The most common gross signs were significant swelling of the legs and coelomic cavity, erythema of the legs and ventrum in juveniles; cutaneous erosions and ulcerations in adults, particularly the limbs and the head; and marked petechial or ecchymotic hemorrhages of the internal organs, particularly the liver, spleen and kidney. Histological examination showed degeneration, necrosis, and inflammation in many organs, particularly in the organs where hemorrhage was observed. There was evidence of eosinophilic inclusion bodies in degenerated and necrotic cells. We identified virus particles and empty capsids without viral nucleoid in the inclusion bodies using electron microscopy. Virus particles were hexagonal or round shape, and appeared in paracrystalline arrays, aggregates, or singly. All enveloped viral particles were 140–160 nm. Polymerase chain reaction followed by sequencing verified that the virus particles were CGSRV. These results collectively support that CGSRV was the etiologic agent responsible for these mass die-offs of the Chinese giant salamander. The pathology described herein will be useful in diagnosing cases of ranaviral disease caused by CGSRV, and provide evidence that this pathogen is a significant threat to the Chinese giant salamander.     

佛坪自然保护区野生大熊猫交配行为的观察

On March 26 and 27, 2003, we observed six and five giant pandas assembled together respectively in Huodiba and Lijiagou districts of Sanguanmiao, Foping Nature Reserve, Shaanxi Province, China. The mating sites were located in the coniferous forest and mixed coniferous and deciduous forest, with steep slope and sparse shrubs and bamboos. Wind power was estimated over 3rd category in those two days. The competition and lighting among male pandas were observed, and the mating right with the female panda was mainly based on the hierarchical ordering. However, not all the winners during competition can be access to mating with the female panda. For wild giant panda, its mating system is maybe plastic, which perhaps is affected by environment, time and panda population itself. Cubs or sub-adults are observed oceurring at the mating site, which is considered to be linked with the learning of the reproductive behavior. Our results maybe provide a useful guideline to the management and breeding of giant pandas in the captivity.     

Seasonal and reproductive variation in chemical constituents of scent signals in wild giant pandas

Seasonally reproducing animals show many behavioral and physiological changes during the mating period, including increased signaling for intrasexual competition and mate attraction. We collected 102 anogenital gland secretions(AGS) from marking trees in Foping Nature Reserve, and used gas chromatography mass spectrometry to analyze these chemical composition. Of these marks, all but one were from males, confirmed with DNA analysis. We found that several chemical constituents, especially volatile compounds, were present only during the mating season and that the relative abundance of many compounds changed as a function of breeding season, whereas nonvolatile compounds were lower in the mating season. This seasonal variation in chemical composition of AGS most likely plays an important role in governing giant panda reproduction, including mate location, attraction, and male-male competition. The chemical properties of many of these putative chemosignals—such as volatility and longevity—are suggestive of these roles, and undoubtedly contribute to successful reproduction for this species with a characteristically sophisticated chemical communication system. We also found a number of important differences between the chemical constituents of AGS from wild pandas and those found in previous studies with captive pandas, suggesting that inappropriate chemosignal composition may contribute to poor reproductive success in captive breeding programs.     

SPATIAL DISTRIBUTION OF ZOOPLANKTON IN THE MAIN STEM OF THE MIDDLE YANGTZE RIVER北大核心CSCD

To better understand zooplankton distribution and its relationship with the physical-chemical factors in middle Yangtze River, we collected 20 zooplankton samples from segments at Yichang, Jingzhou, Yueyang, Wuhan and Hukou in October, 2016. A total of 23 species that belong to 13 families and 14 genera were identified, among which 16 species belong to Rotifera, 4 to Copepoda and 3 to Cladocera. Among the five segments, the highest number of zooplankton species was detected at Hukou (9 species), while the lowest was at Yueyang (5 species). The average density at Wuhan (10.94±5.81) ind./L was higher than that at Hukou and the other segments. Rotifers (3.41±0.21) ind./L were dominant in the zooplanktonic community, and Keratella valga, Synchacta atylata and Keratella cochlearis were the dominant species. The average density of copepods (mainly nauplius) was (0.75±0.07) ind./L. Cladocera had the lowest average density. Similarly, the zooplankton biomass at Wuhan was also higher than that at Hukou and the other three segments. Comparing with studies at other segments of Yangtze River, we detected lower zooplankton diversity in our investigation. Spearman correlations indicated that the biomass and diversity of zooplankton were significantly and positively correlated (P<0.05) to chlorophyll a. © 2019, Institute of Hydrobiology, Chinese Academy of Sciences. All rights reserved.     

Application of ecological-niche factor analysis in habitat assessment of giant pandas

Ecological-niche factor analysis (ENFA) is a multivariate approach to study geographic distribution of species on a large scale with only “presence” data. It has been widely applied in many fields including wildlife management, habitat assessment and habitat prediction. In this paper, this approach was applied in habitat suitability assessment for giant pandas in Pingwu County, Sichuan Province, China. With “presence” data of giant pandas and remote sensing data, habitat suitability of pandas in this county was evaluated based on ENFA model, and spatial distribution pattern of nature reserves and conservation gaps were then evaluated. The results show that giant pandas in this county prefer high-elevation zones (> 2128 m) dominated by coniferous forest, and mixed coniferous and deciduous broadleaf forest, and avoid deciduous broadleaf forest and shrubs. Pandas avoid staying at habitats with human disturbances. Farmland is a major factor threatening panda habitat. Panda habitat is mainly distributed in north and west of Pingwu with a total area of 234033 hm², 106345hm² for suitable habitat and 127688 hm² for marginally suitable habitat). 3 nature reserves were located in Pingwu, covering over 49.2% of total suitable habitat and 45.6% of total marginally suitable habitat. Although 47.2% of panda habitat was in reserves under protection, connectivity between reserves was weak and a conservation gap existed in the north part of Pingwu. Thus, a new nature reserve in Baima and Mupi should be established to link the isolated habitats.     

圈养小熊猫的昼夜活动节律

Daily activity rhytlms of three radio-collared captive red pandas were monitored individually at 15 minute intervals for 3 euntinuous days each month at Yele Nature Reserve, Xiangling Mountains, June- October 1995. Our data indicated that mean rate of activity [0.51 ) of captive red pandas was lower than that of wild red pandas. Three captive red pandas showed similar daily activity patterns, being least active during night and more active during daytime. Mean rate of activity during daylight (0.58)was higher than during nighttime (0.41). Daily mean durations of activity and rest were 12.21 hours and 11.79 hours, respectively. Active times of captive red pandas accounted for 50.6% of each 24 hours, of which 66.5% were recorded during daylight and 33.5% during night. Two active peaks appeared at07: 30-09: 15 and 17: 30- 19: 00. We recorded a mean of 2.17, 2.13 and 0.88 long, mid-length, and short resting bouts daily, which had mean durations of 3.47, 1.65 and 0.87 hour, respectively.Among these long rests, 46.1% occurred during daytime and 53.8% during nighttime.     

圈养大熊猫幼仔的早期体重变化

The mortality rates of captive giant panda cubs at 0 and 1 year old was 12.89% and 18.37% respectively,in order to improve survival rate and the nursing level of captive giant panda cubs,145 cubs born in 2000-2017 at the Chengdu Research Base of Giant Panda Breeding were analyzed by grouping primarily body weight(W₀<100,100 ≤ W₀<150,150 ≤ W₀<200,W₀ ≥ 200) and gender.The results indicated that(1) the weight curves of giant panda cubs with different primarily body weights during 180d were cubic functions.(2) Gender and primarily body weight of giant panda cubs had no interaction with the weight and average growth rate during 180 d.Gender did not affect the weight and their average growth rate of cubs,but the primarily body weight had a significant impact on the weight during 98 d and the average growth rate at the ascent stage(3-6 d),high-level stage(7-13 d),decline stage(14-45 d) and stabilization stage(46-180 d). The tokinaga of physiological weight loss was(1.77±0.67) d,and the day-age which weight recovered to primarily body weight was(4.59±1.23) d.(3) The primarily body weight and gender of giant panda cubs had no interaction on the maximum weight loss,the rate of maximum weight loss,the day-age of recovery to primarily body weight,the maximum growth rate and the day-age of maximum growth rate,but affected the day of maximum weight loss together.(4) Although the primarily body weight of giant panda cubs had a significant effect on the maximum weight loss,the day of maximum weight loss,the day-age of recovery to primarily body weight,and the maximum growth rate,it did not affect the rate of maximum weight loss and the day-age of maximum growth rate.Gender of giant panda cubs did not affect the maximum weight loss,the day-age of recovery to primarily body weight,the rate of maximum weight loss,the maximum growth rate and the day-age of maximum growth rate,but it did affect the day-age of maximum weight loss.These results indicated that the lower primarily body weight was,the less weight loss(maximum weight loss) would be,the faster speed with bottoming(the day of maximum weight loss) and recovery to primarily body weight(the day-age of recovery to primarily body weight) would be at early age.In addition,the lower primarily body weight was,the greater growth intensity of unit weight would be during the various stages at increasing growth rate,maintaining a high position,decreasing and tending to stabilize.The study revealed the characteristics of captive giant panda cubs in body weight at early age,and it provided abundant references for the early rearing of giant panda cubs.     

圈养小熊猫育幼行为的初步观察

Nursing behaviors of the captive md pandas were quantitatively studied by focal sampling methods in Chengdu Research Base of Giant Panda Breeding from Jldy to August, 2000. The results indicated that frequencies of activity and rest were low in the first three days after birth, and became higher as time went by. The frequency of licking cub was higher in the first day after birth and deserting cub was only observed in the seventh day. Frequencies of some behaviors, such as rest, licking cub, cherishing cub,sniffing cub, returning to shed and deserting cub, differed sioaificantly in different phases of the first month after birth. Frequencies of licking cub, cherishing cub, sniffing cub and returning to shed were significantly higher in the pre-nursing period than in the midnursing and post-nursing periods. However, frequencies of rest and deserting cub were sioaificantly higher in the post-nursing period than in the per-nursing and mid-nursing periods. The degree of maternal behaviors can be inferred from degree that the mother exposes her babies to the envim~unent and the time that the mother leaves her shed.     

2007年10月南海北部浮游纤毛虫的丰度和生物量

报道2007年10月南海北部海域(21°25.47′N 17°24.95′N,109°28.86′E 113°13.01′E)纤毛虫丰度和生物量的水平分布及砂壳纤毛虫的种丰富度。包括了13个断面的82个站位,Rosette采水器采水,水深低于15 m的站位采0,5 m和10 m;小于30 m站位,采0,10 m和底层;大于30 m的站位,采0,10,30 m和底层。纤毛虫丰度为0 5757 ind./L,平均(848±776)ind./L。无壳纤毛虫占绝对优势,其丰度占纤毛虫总丰度的比例平均为(91.9±9)%;纤毛虫生物量为0 12.09μg C/L,平均是(1.2±1.54)μg C/L,无壳纤毛虫的生物量平均为(0.94±1.27)μg C/L,占纤毛虫总生物量的78.6%。共发现砂壳纤毛虫16个属,49种,拟铃虫最多,具有一定的季节性。纤毛虫水体(40 m到表层)丰度为6.4×1069.1×107ind./m2,平均是(3.6×106±1.4×106)ind./m2;水体生物量3.6 195.8 mg C/m2,平均(48.1±33.7)mg C/m2。纤毛虫多分布于近岸浅水区(高温低盐,高Chl a),最大丰度要高于我国其他海区,不是Chl a最高的地方纤毛虫的丰度也最大,纤毛虫丰度最大时Chl a偏低。     

育幼经历对圈养成年雌性大熊猫尿液皮质醇含量的影响

为研究育幼期不同的育幼方式对圈养成年雌性大熊猫Ailuropoda melanoleuca福利状况的影响情况,了解圈养育幼模式可能引发成年雌性大熊猫的应激问题,完善育幼期大熊猫的饲养管理和兽舍参数设计,提高育幼过程中圈养大熊猫福利状况,选择成都大熊猫繁育研究基地育幼期采取不同育幼方式管理的成年雌性大熊猫为研究对象,利用...     

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.     

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]。     

Decreased microbial diversity and <Emphasis Type="Italic">Lactobacillus</Emphasis> group in the intestine of geriatric giant pandas (<Emphasis Type="Italic">Ailuropoda melanoleuca</Emphasis>)

It has been established beyond doubt that giant panda genome lacks lignin-degrading related enzyme, gastrointestinal microbes may play a vital role in digestion of highly fibrous bamboo diet. However, there is not much information available about the intestinal bacteria composition in captive giant pandas with different ages. In this study, we compared the intestinal bacterial community of 12 captive giant pandas from three different age groups (subadults, adults, and geriatrics) through PCR-denaturing gradient gel electrophoresis (DGGE) and real-time PCR analysis. Results indicated that microbial diversity in the intestine of adults was significantly higher than that of the geriatrics (p < 0.05), but not significant compared to the subadults (p > 0.05). The predominant bands in DGGE patterns shared by the twelve pandas were related to Firmicutes and Proteobacteria. Additionally, in comparison to healthy individuals, antibiotic-treated animals showed partial microbial dysbiosis. Real-time PCR analyses confirmed a significantly higher abundance of the Lactobacillus in the fecal microbiota of adults (p < 0.05), while other bacterial groups and species detected did not significantly differ among the three age groups (p > 0.05). This study revealed that captive giant pandas with different ages showed different intestinal bacteria composition.     

卧龙圈养大熊猫遗传多样性现状及预测,

以中国最大的大熊猫圈养种群—四川卧龙中国大熊猫保护中心的圈养种群为对象,以８个大熊猫微卫星位点为分子标记, 探讨了大熊猫圈养种群的遗传多样性, 并与邛崃野生种群及其他７个濒危物种进行比较。微卫星数据表明, 圈养种群的遗传多样性水平(A＝5.5, He ＝0.620, Ho＝0.574) 低于邛崃野生种群(A＝9.8,He＝0.779,Ho＝0.581),但高于其他7 个濒危物种的种群(He＝0.13~0.46)。在此数据的基础上对未来100个世代内圈养种群遗传多样性的变化情况做出了预测。结果表明假设种群数量比现在扩大一倍, 经历100个世代后也只会使平均等位基因数少减少0.4。因此继续增加野生个体对保持遗传多样性的意义已经不大, 建议该圈养种群的保护策略应将重点放到制定更有效的繁殖计划以避免近交上。     

Serotypes,Virulence Factors,and Antimicrobial Susceptibilities of Vaginal and Fecal Isolates of Escherichia coli from Giant Pandas

Although Escherichia coli typically colonizes the intestinal tract and vagina of giant pandas, it has caused enteric and systemic disease in giant pandas and greatly impacts the health and survival of this endangered species. In order to understand the distribution and characteristics of E. coli from giant pandas, 67 fecal and 30 vaginal E. coli isolates from 21 giant pandas were characterized for O serogroups, phylogenetic groups, antimicrobial susceptibilities, and pulsed-field gel electrophoresis (PFGE) profiles. In addition, these isolates were tested for the presence of extraintestinal pathogenic E. coli (ExPEC) and diarrheagenic E. coli (DEC) by multiplex PCR detection of specific virulence genes. The most prevalent serogroups for all E. coli isolates were O88, O18, O167, O4, and O158. ExPEC isolates were detected mostly in vaginal samples, and DEC isolates were detected only in fecal samples. Phylogenetic group B1 predominated in fecal isolates, while groups B2 and D were frequently detected in vaginal isolates. Resistance to trimethoprim-sulfamethoxazole was most frequently observed, followed by resistance to nalidixic acid and tetracycline. All except five isolates were typeable by using XbaI and were categorized into 74 PFGE patterns. Our findings indicate that panda E. coli isolates exhibited antimicrobial resistance, and potentially pathogenic E. coli isolates were present in giant pandas. In addition, these E. coli isolates were genetically diverse. This study may provide helpful information for developing strategies in the future to control E. coli infections 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.     

野生大熊猫行为谱及PAE编码系统

行为谱是动物行为学研究的基础。大熊猫(Ailuropoda melanoleuca)是生物多样性保护中的旗舰物种,其行为生态的研究备受关注,然而由于大熊猫数量稀少且警惕性强,很难在野外进行观察,有关其行为谱等基础行为研究结果主要是基于圈养大熊猫的观察研究。为了促进野生大熊猫行为学的深入研究,2015年1月—2016年6月,2018年8月— 2019年4月我们在卧龙自然保护区基于红外相机图片和视频数据,利用PAE编码系统建立了野生大熊猫行为谱和PAE编码系统。研究共计在14种环境背景中记录到大熊猫12种姿势、52种动作、56种行为。一方面,本研究结果基本涵盖了大熊猫的主要行为,并发现了一些未在圈养大熊猫行为谱中记录到的行为,如野生大熊猫利用植物的茎进行自我除雪行为;另一方面丰富了观察大熊猫行为的环境因素。以上结果为深入研究野生大熊猫行为生态学提供了基础信息。