Concealing facial evidence of mood: Perspective-taking in a captive gorilla?

A captive female lowland gorilla was observed repeatedly to hide or inhibit her playface by placing one or both hands over the face. When this behaviour was seen play usually did not follow immediately, even if other signals associated with play were simultaneously being made by the gorilla. By contrast, a playface predicted that play would follow within a few seconds; this difference was statistically reliable. Several levels of interpretation of the behaviour are possible: hiding the playface may have functioned as a form of deception, a meta-communication, or merely an attempt to suppress the playface. However, by any of these interpretations, the behaviour implies that the gorilla is aware of her spontaneous facial expressions and the consequences they entail. Among the great apes, manual suppression of a facial expression has previously been reported once for chimpanzees but never for gorillas.     

Introduction of captive breeders to the wild: Harmful or beneficial?

This work focuses on the consequences on thegenetic load and the risk of extinction when anendangered population is exposed to recurrentintroductions from a captive population whereselection is somewhat relaxed. Our findingssuggest that, although selection pressuresmight be reduced in captivity, which leads tohigher frequency of deleterious alleles innatural populations (Lynch and O'Hely 2001),such a population structure could have positiveeffects on population fitness when threeconditions are met: (i) the time length of thesupplementation program does not exceed areasonable time frame, e.g., 20 generations (ii)introduction of captive individuals is kept ata low level, i.e., one or two individuals pergeneration (iii) the size of the captivepopulation is reasonably large, e.g., more than20 individuals. The positive effect is due tothe fact that the supplementation programdelays the increase of homozygosity of thenatural population. When migration from thewild towards captivity is also allowed, thebenefits with regard to genetic load increasesignificantly even for larger numbers ofcaptive immigrants and a higher number ofgenerations. We also worked out a model withexplicit demographic considerations(fluctuating population sizes, captive migrantsincrease the size of the wild population),which shows that the probability of extinctiondecreases significantly with the number ofintroduced individuals when short-termsupplementation programs are applied (up totwenty generations). Furthermore, anappropriate genetic management of the captivepopulation, such as the equalization of familysizes, could enhance the positive effects ofsuch supplementation programs.     

Exchange of “signature” calls in captive belugas (Delphinapterus leucas)

Belugas (Delphinapterus leucas) produce echolocation clicks, burst pulses, and whistles. The sounds of 3 captive belugas were recorded using 2 hydrophones at the Port of Nagoya Public Aquarium. There were stable individual differences in the pulse patterning of one type of pulsed sounds (PS1 call), suggesting that belugas use these as “signature” calls. Eighty-eight percent of PS1 calls initiated PS1 calls from other animals within 1 s. PS1 calls repeated by the same individual occurred primarily when other belugas did not respond within 1 s of the first call. Belugas delayed successive PS1 calls when other belugas responded with a PS1 call within 1 s. There was no clear temporal pattern for whistles. It appears that the time limit for responding to calls is 1 s after the initial call. If other individuals do not respond to the PS1 call of a beluga within 1 s, belugas tend to repeat the call and wait for a response. The results of this study suggest that the belugas exchange their individual signatures by using PS1 calls, in a manner similar to that of signature whistles used by bottlenose dolphins.     

Application of captive bolt to cattle stunning – a survey of stunner placement under practical conditions

In two cattle head deboning plants, a total of 8879 cattle skulls were investigated for number and precision of shots. Deviation from the ideal position on the forehead and the direction of the shot were measured, results were then attributed to three classes of precision. In all, 64.7% of the skulls in plant 1 and 65.3% in plant 2 were shot from the ideal position and in the ideal direction. A medium precision was observed in 31.3% and 31.5% of cases, 4.0% and 3.1%, respectively, of the skulls indicated a poor precision. In both plants, skulls with more than one shot hole were observed. Shot holes may indicate the precision of a shot, and thus the risk of suffering during the sensitive time of stunning. In addition to observations at the time of stunning, the observation of shot holes on skulls at random or in total after a day's slaughter can reflect the shooting precision.     

High prevalence of antibodies against hepatitis A virus among captive nonhuman primates

Hepatitis A virus (HAV) can infect not only humans but also several other nonhuman primates. This study has been conducted to evaluate the comprehensive anti-HAV seroprevalence in captive nonhuman primate populations in Thailand. The prevalence of antibodies against HAV in 96 captive nonhuman primates of 11 species was evaluated by competitive enzyme immunoassay (EIA). HAV antibodies were found in 64.7% (11/17) of macaques, 85.7% (6/7) of langurs, 28.4% (10/35) of gibbons, and 94.6% (35/37) of orangutans. However, anti-HAV IgM was not found in any sera. These results indicate that the majority of captive nonhuman primates in Thailand were exposed to HAV. It is possible that some of the animals were infected prior to capture.     

Do captive waterfowl alter their behaviour patterns during their flightless period of moult?

Many different behavioural changes have been observed in wild waterfowl during the flightless stage of wing moult with birds frequently becoming inactive and reducing time spent foraging. Increased predation risk, elevated energetic demands of feather re-growth and restriction of foraging opportunities are thought to underlie these changes. By studying captive populations of both a dabbling and a diving duck species at the same site, we determined whether captive birds would reflect the behavioural responses of wild waterfowl to moult. The time-budgets of 42 Common Eiders, Somateria mollissima, (a diving duck) and 18 Garganeys, Anas querquedula, (a dabbling duck) were recorded during wing moult (July–August) and non-moult (January) with behaviour recorded under six categories. Despite captivity providing a low predation risk and constant access to food, birds altered their behaviour during the flightless period of wing moult. Time allocated to foraging and locomotion decreased significantly during moult compared to non-moult periods, while resting time increased significantly. Moulting Eiders underwent a greater reduction in time spent foraging and in locomotion compared with Garganeys, which is likely to be in response to a higher energetic cost of foraging in Eiders. It is possible that increased resting in both diving and dabbling ducks reduces their likelihood of detection by predators, while allowing them to remain vigilant. We demonstrate that there is much potential for using captive animals in studies that can augment our knowledge of behaviours of free-living conspecifics, the former being a hitherto under-exploited resource.     

Single large or several small? Population fragmentation in the captive management of endangered species

Captive populations of endangered species are typically maintained effectively as single random-mating populations by translocating individuals between institutions. Genetic, disease, and cost considerations, however, suggest that this may not be the optimal management strategy. Genetic theory predicts that a pooled population derived from several small isolated populations will have greater genetic diversity, less inbreeding, and less genetic adaptation to captivity than a single large population of equivalent total size, provided there are no population extinctions. These predictions were tested using populations of Drosophila with effective size comparisons of 50 vs. 2 × 25; 100 vs. 2 × 50 vs. 4 × 25, and 500 vs. 2 × 250 vs. 4 × 100 + 2 × 50 vs. 8 × 25 + 6 × 50. Populations were maintained at the indicated sizes as separate pedigreed populations for 50 generations. The several small treatments were subsequently pooled and maintained for eight to 10 generations prior to determination of fitness and evolutionary potential. Several small populations (pooled), when compared to single large populations of equivalent total size, were found to have lower average inbreeding coefficients, significantly higher reproductive fitness under competitive conditions, similar fitness under benign captive conditions, higher genetic diversity, and equivalent evolutionary potential. Trends favored the several small (pooled) populations in all comparisons at population sizes of 50 and 100. We recommend that endangered species in captivity be maintained as several small populations, with occasional exchange of genetic material. This has genetic benefits over current management both in captivity and especially for reintroductions, as well as reducing translocation costs and risks of disease transfer. Zoo Biol 17:467–480, 1998. © 1998 Wiley-Liss, Inc.     

May captive populations of Greater Rhea (Rhea americana) act as genetic reservoirs in Argentina?

The Greater Rhea (Rhea americana) is a characteristic bird of the Argentine Pampas. Despite the increasing farming interest of this ratite, their natural populations are progressively decreasing in size and range. The object of this study was to evaluate the status of captive populations as potential genetic reservoirs. Using Inter‐Simple Sequence Repeats as molecular markers, levels of genetic variability of F1 individuals from two captive populations were estimated and compared with those of wild populations in the same region. The captive populations were polymorphic for 12.22 and 13.33% of the loci, with a genetic diversity of 0.050. Differences with wild populations were not significant (z=1.79; P>0.05). Therefore, captive populations of rheas in Argentina should not be overlooked as genetic reservoir and source of individuals for reinforcement of natural populations, through reintroduction and translocation. Zoo Biol 30:65–70, 2011. © 2010 Wiley‐Liss, Inc.     

Do captive conditions favor shedding of parasites in the reared Atlantic bluefin tuna (Thunnus thynnus)?

Tuna (Thunnus spp.) has been characterized by long distance migrations, highly predatory behavior and longevity, all of which in turn, enable infections with a wide spectrum of different parasitic groups, reflecting in a remarkable diversity of tuna parasite communities. Since 2003, we have been monitoring parasite communities of Atlantic bluefin tuna (Thunnus thynnus) that are caught from the wild and transferred into cages during spring-summer months, as well as assemblages in fish that exit rearing cycle during the winter harvest period after 1.5 years. Interestingly in reared tuna, parasitic populations exhibit a significant decreasing trend at the end of the rearing cycle, rarely observed in other intensive productions that represent a suitable environment for the emergence, establishment and transmission of pathogens. In order to assess epizootiological behavior of tuna parasites assemblages at the beginning (B group) and at the end (A group) of 1.5 year rearing cycle, we examined data on parasite prevalence and abundance over 4 years. The aim was to evaluate parasite diversity indices and emerging differences between newly caught and harvested fish, as well as community compositions and their nestedness in respect to the event in the rearing cycle (capture or harvest time). In order to be able to predict classification of tuna in two categories (newly caught or heavily infected and harvested or less infected fish), based on empirical didymozoids abundances and year of sampling, we built a decision tree model. Results suggest that specificities of parasite assemblages and their dynamics in tuna before and after farming have no similar precedents in aquaculture. A trend of parasitic pauperization repeating in each rearing cycle over four-years time, in once diverse and species rich parasite communities is observed, however, structures of both B and A group rearing assemblages remain nested, with the same species being core parasites (Didymosulcus katsuwonicola and Koellikerioides intestinalis). The B group exhibited significantly higher total parasite richness and mean parasites abundance, as well as the heteroxenous species richness and abundance in comparison to A group, where monoxenous species were not recorded at all. Eleven parasite species out of 26 taxa were selected as important in discriminating between B and A groups' parasites assemblages, while significantly the most abundant in B group were D. katsuwonicola, Platocystis alalongae, K. intestinalis, Koellikerioides internogastricus, Didymocystis abdominalis and Anisakis sp. It is hard to postulate the combination of factors affecting these parasite populations, but environmental, anthropogenic or host intrinsic influence has to be taken into account for further investigation.     

Epidemiological study of sporotrichosis and histoplasmosis in captive Latin American wild mammals,São Paulo,Brazil

Sporotrichosis and histoplasmosis are deep mycosis with a high incidence in human beings in Brazil. In domestic animals histoplasmosis has been described only in dogs, but the occurence of sporotrichosis among domestic animals in Brazil has been described in dogs, cats, mules and asses. There is also a case of this disease reported in a chimpanzee (Pan troglodites). The purpose of this research was to perform an epidomiological study of these mycoses using delayed hypersensitivity tests (histoplasmin and sporotrichin) in Latin American wild mammals. This research was assayed using 96 healthy animals at Parque Zoológico de São Paulo, Brazil: Primates: 33Cebus apella — weeping-capuchin and 16Callithrix jacchus — marmoset; Procyonidae: 37Nasua nasua — coatimundi and 10 Felidae (Panthera onca — jaguar;Felis pardalis — ocelotFelis wiedii — margay;Felis tigrina — wild cat). For intradermic tests, the following antigens were used:Sporothrix schenkii cell suspension (sporotrichin, histoplasmin-filtrate),Histoplasma capsulatum cell suspension (histoplasmin), andHistoplasma capsulatum (polysaccharide). The positivity to histoplasmin was 44.79% (Cebidae 15.15%; Callithricidae 6.25%; Procyonidae 86.49% and Felidae 50.00%, respectively). With respect to sporotrichin, 30.21% (Cebidae 6.06%, Callithricidae 0.0%; Procyonidae 64.86% and Felidae 30.00% respectively). The pattern of infection is similar to that shown by human beings and this may suggest that these animals could be involved in the epidemiologic chain of sporotrichosis and histoplasmosis, the second most prevalent human deep mycoses in Brazil. It is important to point out the absence of similar studies in Latin American wild animals.     

Fertility and mortality patterns of captive Bornean and Sumatran orangutans: is there a species difference in life history?

Across broad taxonomic groups, life history models predict that increased ecological predictability will lead to conservative investment in reproductive effort. Within species, however, organisms are predicted to have increased reproductive rates under improved environmental conditions. It is not clear how these models apply to closely-related species. In this paper, we examine predictions from these models as applied to variability in reproductive rates between the two species of orangutans, Pongo pygmaeus (Bornean) and Pongo abelii (Sumatran). Orangutans exhibit characteristics of a "slow" life history strategy with large bodies, late age at maturity, low reproductive rates, and long lifespan. Recently, researchers proposed that Sumatran orangutans may have an even slower life history than Bornean orangutans as a result of ecological and genetic differences (Wich et al., 2004). We examined this hypothesis by studying important aspects of life history of both species under conditions of relative ecological stability, in captivity. In this large dataset, there were no significant species differences in age of first or last reproduction, completed fertility, perinatal and postnatal mortality, or female longevity. Bornean orangutans in captivity did have significantly longer interbirth intervals, and male Bornean orangutans had higher survival past maturity. Our results do not support the hypothesis that selection has led to decreased reproductive effort under conditions of increased habitat quality in Sumatra (Wich et al., 2004), and instead suggest that phenotypic flexibility may be particularly important in explaining differences between closely related species.     

Conservation genetics of Boelen’s python (Morelia boeleni) from New Guinea: reduced genetic diversity and divergence of captive and wild animals

Boelen’s python (Morelia boeleni) is a montane New Guinea endemic found in highlands above 1000 m and below the tree line. The ecology, natural history, distribution, population size, and conservation status of this species are largely unknown. It has a protected status in Papua New Guinea but not in Indonesian Papua and several US and European zoos have active captive breeding programs that have been largely unsuccessful. To understand the degree of genetic diversity in wild and captive animals we undertook a genetic analysis of 90 M. boeleni for which we sequenced two mtDNA loci and one nuclear locus for a total of 1,418 bp of sequence data per individual. All 16 wild-caught M. boeleni from Indonesia and all captive M. boeleni are genetically uniform for all three loci. The single wild-caught animal from Papua New Guinea showed extremely low levels of genetic divergence and diversity from the Indonesian and captive samples. Data from two congeners, M. amethistina and M. viridis, suggests that M. boeleni have reduced genetic variation with a small effective population size possibly due to historical bottlenecks. These data demonstrate the need for further studies of genetic diversity of M. boeleni from across its range and raise particular concern for the limited genetic diversity of M. boeleni used captive breeding programs in zoological parks.     

Beyond the point of no return? A comparison of genetic diversity in captive and wild populations of two nearly extinct species of Goodeid fish reveals that one is inbred in the wild

The relative importance of genetic and non-genetic factors in extinction liability has been extensively debated. Here, we examine the levels of genetic variability at 13 (seven informative) loci in wild and captive populations of two endangered species of Mexican Goodeid fish, Ameca splendens and Zoogoneticus tequila. Allelic diversity was higher in the wild populations, and F(IS) lower. Values of theta (=4Nemu) were estimated using a coalescent approach. These implied that the effective population size of all captive populations of A. splendens were smaller than that of the wild population; qualitatively similar results were obtained using an analytical method based on within-population gene identity disequilibrium. However, the wild population of Z. tequila did not show a significantly greater estimate of theta. We used the Beaumont approach to infer population declines, and found that both species showed clear evidence of a decline in effective population size, although this was stronger and probably occurred over a longer period of time in Z. tequila than in A. splendens. The decline in Z. tequila probably occurred before captive populations were established. We discuss implications for the conservation of critically endangered populations.