Investigation of the Behavioural Response of a Colony of Group-Housed Hamadryas Baboons (Papio Cynocephalus Hamadryas) to Relocation to a More Naturalistic Enclosure

<p>As part of Wellington Zoo’s current management philosophy to reduce the number of species and increase enclosure size, quality and appropriateness for those remaining animals, the zoo’s colony of hamadryas baboons (Papio cynocephalus hamadryas) was relocated within the zoo to a purpose-designed and more naturalistic exhibit. The primary objective of this investigation was to determine group and individual responses of five of these baboons to their new enclosure. In so doing, this investigation was intended to address the shortage of quantitative, species-specific information on environmental enrichment for Papio baboons (Kessel and Brent 1996). The data collection method used in this investigation consisted of fifteen-minute focal sampling of each of the five focal animals in the two months before and the month following the colony’s relocation. For the purposes of this investigation, these focal samples were initially analysed together, prior to each focal animal being considered independently. Analysis of data extracted from these focal samples included consideration of: • The overall occurrence of individual behaviours between the former and new enclosures; • Additions to the animals’ behavioural repertoires upon relocation; and, • Time the animals spent alone and interacting socially. Upon the colony’s relocation, changes in the combined focal animals’ behaviour were anticipated as a result of greater space, areas of privacy, and increased environmental variation. Focal sampling revealed increasingly naturalistic behaviours, including a reduction in vacuum and vestigial behaviours, and an increase in speciestypical behaviour. Results also indicated that the combined focal animals experienced unexpectedly low levels of “agonistic” (i.e. aggressive) behaviour in both enclosures. However, there was a reduction in some associated behaviours upon the colony’s relocation. This included a decline in male rivalry over females. Differences in the responses of individual focal animals to relocation were also anticipated. Of particular interest were results indicating an increasing similarity of individual roles within one-male units to those of free-ranging hamadryas baboons. These roles were associated with both age and sex. This study raises implications for improving the current management of the Wellington Zoo colony and other captive hamadryas baboon colonies. These include emphasising the importance of appropriate husbandry and feeding schedules. It also raises implications for the future management of other captive Papio baboon colonies in terms of enclosure redesign. These include the benefit of incorporating naturally occurring environmental factors, such as natural leaf litter. This study is also of value from a management perspective as a baseline for future investigations. Such investigations could include long-term monitoring of this colony’s use of environmental enrichment in the new enclosure and consideration of the animals’ behaviour as the colony is encouraged to expand.</p>

Investigation of the Behavioural Response of a Colony of Group-Housed Hamadryas Baboons (Papio Cynocephalus Hamadryas) to Relocation to a More Naturalistic Enclosure

<p>As part of Wellington Zoo’s current management philosophy to reduce the number of species and increase enclosure size, quality and appropriateness for those remaining animals, the zoo’s colony of hamadryas baboons (Papio cynocephalus hamadryas) was relocated within the zoo to a purpose-designed and more naturalistic exhibit. The primary objective of this investigation was to determine group and individual responses of five of these baboons to their new enclosure. In so doing, this investigation was intended to address the shortage of quantitative, species-specific information on environmental enrichment for Papio baboons (Kessel and Brent 1996). The data collection method used in this investigation consisted of fifteen-minute focal sampling of each of the five focal animals in the two months before and the month following the colony’s relocation. For the purposes of this investigation, these focal samples were initially analysed together, prior to each focal animal being considered independently. Analysis of data extracted from these focal samples included consideration of: • The overall occurrence of individual behaviours between the former and new enclosures; • Additions to the animals’ behavioural repertoires upon relocation; and, • Time the animals spent alone and interacting socially. Upon the colony’s relocation, changes in the combined focal animals’ behaviour were anticipated as a result of greater space, areas of privacy, and increased environmental variation. Focal sampling revealed increasingly naturalistic behaviours, including a reduction in vacuum and vestigial behaviours, and an increase in speciestypical behaviour. Results also indicated that the combined focal animals experienced unexpectedly low levels of “agonistic” (i.e. aggressive) behaviour in both enclosures. However, there was a reduction in some associated behaviours upon the colony’s relocation. This included a decline in male rivalry over females. Differences in the responses of individual focal animals to relocation were also anticipated. Of particular interest were results indicating an increasing similarity of individual roles within one-male units to those of free-ranging hamadryas baboons. These roles were associated with both age and sex. This study raises implications for improving the current management of the Wellington Zoo colony and other captive hamadryas baboon colonies. These include emphasising the importance of appropriate husbandry and feeding schedules. It also raises implications for the future management of other captive Papio baboon colonies in terms of enclosure redesign. These include the benefit of incorporating naturally occurring environmental factors, such as natural leaf litter. This study is also of value from a management perspective as a baseline for future investigations. Such investigations could include long-term monitoring of this colony’s use of environmental enrichment in the new enclosure and consideration of the animals’ behaviour as the colony is encouraged to expand.</p>

Coordination during group departures and progressions in the tolerant multi-level society of wild Guinea baboons (Papio papio)

Collective movement of social groups requires coordination between individuals. When cohesion is imperative, consensus must be reached, and specific individuals may exert disproportionate influence during decision-making. Animals living in multi-level societies, however, often split into consistent social subunits during travel, which may impact group coordination processes. We studied collective movement in the socially tolerant multi-level society of Guinea baboons (Papio papio). Using 146 group departures and 100 group progressions from 131 Guinea baboons ranging in Senegal’s Niokolo-Koba National Park, we examined individual success at initiating group departures and position within progressions. Two-thirds of attempted departures were initiated by adult males and one third by adult females. Both sexes were equally successful at initiating departures (> 80% of initiations). During group progressions, bachelor males were predominantly found in front, while reproductively active ‘primary’ males and females were observed with similar frequency across the whole group. The pattern of collective movement in Guinea baboons was more similar to those described for baboons living in uni-level societies than to hamadryas baboons, the only other multi-level baboon species, where males initiate and decide almost all group departures. Social organization alone therefore does not determine which category of individuals influence group coordination.

Female Reproductive Strategies and the Ovarian Cycle in Hamadryas Baboons

<p>This thesis examines the relationship between sexual behaviour and the ovarian cycle in a group-living primate, Papio h. hamadryas. Of particular interest is whether females modify their ovarian cycle in a manner that is expected increase their reproductive success. The study was conducted on a captive colony where the resident males (RM) had been vasectomised prior to start of the study resulting in all mature females undergoing repeated ovarian cycling throughout the study period. This made the analysis of sexual behaviour relative to fine scale changes in the ovarian cycle possible. One year of ovarian cycle data and 280 hours of behavioural data was collected via observational sampling during the study. RM vasectomisation did not alter the archetypal one male unit social structure nor the typical socio-spatial organisation of wild hamadryas populations. Females were found to be more promiscuous than in wild populations, however, presumably because of the confounding effect that the high number of simultaneously cycling females had on RM herding (Chapter 1). RMs dominated copulations over the optimal conceptive period of the ovarian cycle, while the majority of extra-OMU copulations occurred outside this period and were rarely solicited by females. This pattern supports a dual paternity concentration/paternity confusion strategy, and not female choice or fertility insurance strategies (Chapter 2). Females were not found to synchronise or asynchronise their cycles over the 1 year study period, although a review of the literature on hamadryas breeding patterns suggests that they may be able to do so over shorter periods (Chapter 3). Females did, however, appear to regulate the length of the turgescent phase of their ovarian cycle in a manner that would facilitate a paternity confusion strategy and maximise their expected fitness payoff (Chapter 4). Consequently, this study provides empirical evidence that female hamadryas baboons manipulate their ovarian cycle in a manner that is expected to increase their reproductive success.</p>

Female Reproductive Strategies and the Ovarian Cycle in Hamadryas Baboons

<p>This thesis examines the relationship between sexual behaviour and the ovarian cycle in a group-living primate, Papio h. hamadryas. Of particular interest is whether females modify their ovarian cycle in a manner that is expected increase their reproductive success. The study was conducted on a captive colony where the resident males (RM) had been vasectomised prior to start of the study resulting in all mature females undergoing repeated ovarian cycling throughout the study period. This made the analysis of sexual behaviour relative to fine scale changes in the ovarian cycle possible. One year of ovarian cycle data and 280 hours of behavioural data was collected via observational sampling during the study. RM vasectomisation did not alter the archetypal one male unit social structure nor the typical socio-spatial organisation of wild hamadryas populations. Females were found to be more promiscuous than in wild populations, however, presumably because of the confounding effect that the high number of simultaneously cycling females had on RM herding (Chapter 1). RMs dominated copulations over the optimal conceptive period of the ovarian cycle, while the majority of extra-OMU copulations occurred outside this period and were rarely solicited by females. This pattern supports a dual paternity concentration/paternity confusion strategy, and not female choice or fertility insurance strategies (Chapter 2). Females were not found to synchronise or asynchronise their cycles over the 1 year study period, although a review of the literature on hamadryas breeding patterns suggests that they may be able to do so over shorter periods (Chapter 3). Females did, however, appear to regulate the length of the turgescent phase of their ovarian cycle in a manner that would facilitate a paternity confusion strategy and maximise their expected fitness payoff (Chapter 4). Consequently, this study provides empirical evidence that female hamadryas baboons manipulate their ovarian cycle in a manner that is expected to increase their reproductive success.</p>

Spectroscopic Measurement of Methylene Blue Distribution in Organs and Tissues of Hamadryas Baboons during Oral Administration

New research on Methylene Blue (MB), carried out in 2020, shows that it can be an effective antiviral drug as part of COVID-19 treatment. According to the research findings, MB has potential as a direct antiviral drug for the prevention and treatment of COVID-19 in the first stages of the disease. However, the MB accumulation by various types of tissues, as well as by immune cells, has not been previously studied. Therefore, the objective of this study was to obtain spectral data on the interstitial distribution of the administered drug in endothelial tissues in primates. The data on interstitial MB distribution obtained by spectroscopic measurement at both macro- and microlevels during oral administration to Hamadryas baboon individuals demonstrate that MB accumulates in mucous membranes of gastrointestinal tract and the tissues of the respiratory, cardiovascular, immune, and nervous systems. Additionally, it was found that MB was present in lung and brain myeloid cells in significant concentrations, which makes it potentially useful for protection from autoimmune response (cytokine storm) and as a tool for the correction of immunocompetent cells’ functional state during laser irradiation. Since the cytokine storm starts from monocytic cells during SARS-CoV-2 cellular damage and since tumor-associated macrophages can significantly alter tumor metabolism, accumulation of MB in these cells provides a reason to conclude that the immune response correction in COVID-19 patients and change in macrophages phenotype can be achieved by deactivation of inflammatory macrophages in tissues with MB using laser radiation of red spectral range.

Comparative ecology of Guinea baboons (<i>Papio papio</i>)

Thorough knowledge of the ecology of a species or population is an essential prerequisite for understanding the impact of ecology on the evolution of their respective social systems. Because of their diversity of social organizations, baboons (Papio spp.) are a useful model for comparative studies. Comparative ecological information was missing for Guinea baboons (Papio papio), however. Here we provide data on the ecology of Guinea baboons in a comparative analysis on two geographical scales. First, we compare climate variables and land cover among areas of occurrence of all six baboon species. Second, we describe home range size, habitat use, ranging behaviour, and diet from a local population of Guinea baboons ranging near the Centre de Recherche de Primatologie (CRP) Simenti in the Niokolo-Koba National Park, Senegal. Home ranges and daily travel distances at Simenti varied seasonally, yet the seasonal patterns in their daily travel distance did not follow a simple dry vs. rainy season pattern. Chemical food composition falls within the range of other baboon species. Compared to other baboon species, areas occupied by Guinea baboons experience the highest variation in precipitation and the highest seasonality in precipitation. Although the Guinea baboons' multi-level social organization is superficially similar to that of hamadryas baboons (P. hamadryas), the ecologies of the two species differ markedly. Most Guinea baboon populations, including the one at Simenti, live in more productive habitats than hamadryas baboons. This difference in the ecology of the two species contradicts a simple evolutionary relation between ecology and social system and suggests that other factors have played an additional role here.