Your search keyword '"Olive Baboons"' showing total 11 results

1. Capture, immobilization, and Global Positioning System collaring of olive baboons ( Papio anubis ) and vervets ( Chlorocebus pygerythrus ): Lessons learned and suggested best practices

Author

George P. Omondi, Laura R. Bidner, Akiko Matsumoto-Oda, Lynne A. Isbell, and Mathew Mutinda

Subjects

Male, Restraint, Physical, 0106 biological sciences, animal diseases, Zoology, Papio anubis, 010603 evolutionary biology, 01 natural sciences, Predation, Olive Baboons, biology.animal, Chlorocebus aethiops, parasitic diseases, Animals, Panthera, 0501 psychology and cognitive sciences, Primate, 050102 behavioral science & comparative psychology, Ecology, Evolution, Behavior and Systematics, Chlorocebus pygerythrus, biology, 05 social sciences, Leopard, Rectal Prolapse, Kenya, Predatory Behavior, Remote Sensing Technology, Geographic Information Systems, Female, Animal Science and Zoology, Baboon

Abstract

As the value of Global Positioning System (GPS) technology in addressing primatological questions becomes more obvious, more studies will include capturing and collaring primates, with concomitant increased risk of adverse consequences to primate subjects. Here we detail our experiences in capturing, immobilizing, and placing GPS collars on six olive baboons (Papio anubis) in four groups and 12 vervet monkeys (Chlorocebus pygerythrus) in five groups in Kenya. We captured baboons with cage traps and vervets with box traps, immobilized them, and attached GPS collars that were to be worn for 1 year. Adverse consequences from the trapping effort included incidental death of two nonsubjects (an adult female and her dependent infant), temporary rectal prolapse in one baboon, superficial wounds on the crown of the head in two vervets, and failure to recapture/remove collars from two baboons and two vervets. Obvious negative effects from wearing collars were limited to abrasions around the neck of one vervet. A possible, and if so, serious, adverse effect was greater mortality for collared adult female vervets compared with known uncollared adult female vervets, largely due to leopard (Panthera pardus) predation. Collared animals could be more vulnerable to predation because trapping favors bolder individuals, who may also be more vulnerable to predation, or because collars could slow them down or make them more noticeable to predators. Along with recommendations made by others, we suggest that future studies diversify trapping bait to minimize the risk of rectal prolapse, avoid capturing the first individuals to enter traps, test the movement speeds of collared versus noncollared animals, include a release system on the collars to avoid retrapping failure, and publish both positive and negative effects of capturing, immobilizing, and collaring.

Published

2019

2. Styles of male social behavior and their endocrine correlates among low-ranking baboons.

Author

Virgin Jr., Charles E. and Sapolsky, Robert M.

Subjects

*BABOONS, *SOCIAL hierarchy in animals, *SOCIAL dominance, *TESTOSTERONE, *INDIVIDUAL differences, *ANIMAL social behavior, *ANIMAL behavior

Abstract

We have previously studied the relationship between social subordinance (by approach-avoidance criteria) and physiology among male olive baboons (Papio anubis) living freely in a national park in Africa. In stable hierarchies, subordinate individuals have elevated basal glucocorticoid concentrations and a blunted glucocorticoid response to stress, as well as a prompt suppression of testosterone concentrations during stress. These facets have been interpreted as reflecting the chronic stress of social subordinance. In the present report, we find that these endocrine features do not mark all subordinate individuals. Instead, endocrine profiles differed among subordinate males as a function of particular stylistic traits of social behavior. A subset of subordinate males was identified who had significantly high rates of consortships, a behavior usually shown only by high-ranking males. Such behavior predicted the beginning transition to dominance, as these males were significantly more likely than other subordinates to have moved to the dominant half of the hierarchy over the subsequent 3 years. In keeping with this theme of emerging from subordinance, these individuals also had significantly larger glucocorticoid stress-responses, another feature typical of dominant males. However, these subordinate males also had significantly elevated basal glucocorticoid concentrations; it is suggested that this reflects that stressfulness of their overt and precocious strategy of reproductive competition. In support of this, subordinate males with high rates of covert “stolen copulations” did not show elevated basal glucocorticoid concentrations. A second subset of subordinate males were the most likely to initiate fights or to displace aggression onto a third party after losing a fight. These males had significantly or near-significantly elevated testosterone concentrations, compared to the remaining subordinate cohort. Moreover, these males had significantly lower basal glucocorticoid concentrations; this echoes an extensive literature showing that the availability of a displacement behavior (whether aggressive or otherwise) after a stressor decreases glucocorticoid secretion. In support of this interpretation suggesting that it was the initiation of these aggressive acts which attenuated glucocorticoid secretion, there was no association between glucocorticoid concentrations and participation (independent of initiation) in aggressive interactions. Thus, these findings suggest that variables other than rank alone may be associated with distinctive endocrine profiles, and that even in the face of a social stressor (such as subordinance), particular behavioral styles may attenuate the endocrine indices of stress. Am. J. Primatol. 42:25–39, 1997. © 1997 Wiley-Liss, Inc. [ABSTRACT FROM AUTHOR]

Published

1997

3. Why Should an Aged Male Baboon Ever Transfer Troops?

Author

Sapolsky, Robert M.

Subjects

*BABOONS, *AGING, *ANIMAL cognition, *ANIMAL ecology, *SOCIAL norms

Abstract

Dispersals by subadult or adult male baboons are common. In contrast, the occasional transfer of aged baboons is puzzling, given the physical dangers of transfer and the cognitive demands of mastering the ecological and social rules of a new troop. The present data suggest a possible explanation for such transfers in a study of two troops of olive baboons (Papio anubis) in Kenya. Aged males who remained in the troop in which they had been dominant were subjected to significantly higher rates of approach-avoid interactions by the current high-ranking cohort (i.e, the individuals they had dominated years past) when compared to males who had transferred into the troop m their old age. Thus, transfer in old age offers the advantage of relative anonymity. Of the 14 males who progressed into older adulthood in the same troop in which they were in their prime, seven ultimately transferred to a different troop. The seven who remained and the seven who transferred did not differ in the rate at which they were subjected to approach-avoid interactions. However, those who remained had significantly higher rates of venous affiliative behaviors (copulations, consortships, grooming and contact with females, and positive interactions with infants). Thus, amid the disadvantages of an old age spent in the troop in which a male baboon was in his prime, a high degree of social affiliation might constitute a sufficient disincentive against transferring. [ABSTRACT FROM AUTHOR]

Published

1996

4. Rank-Related Differences in Cardiovascular Function Among Wild Baboons: Role of Sensitivity to Glucocorticoids.

Author

Sapolsky, Robert M. and Share, Lisa J.

Subjects

*BABOONS, *GLUCOCORTICOIDS, *CATECHOLAMINES, *BLOOD pressure, *SYMPATHETIC nervous system, *ADRENALINE

Abstract

In a population of wild baboons living in East Africa, we have observed endocrine differences among individuals as a function of dominance rank. Among these differences, we previously observed indirect evidence for dominant males being more responsive to sympathetic catecholamines than were subordinate males. The present report tests this explicitly. Male baboons of known rank were anesthetized, and sympathetic and parasympathetic activity was pharmacologically inhibited. In experiment I, males were challenged with epinephrine; over a wide dose range, dominant males had the largest and fastest rises in systolic pressure, the greatest peak systolic pressure, and the most rapid recovery from the epinephrine challenge. Similar rank-related differences in heart rate response to epinephrine also occurred. Experiment II showed that this phenomenon probably reflects rank-related differences at both the heart and vasculature. As evidence, the same rank differences in systolic blood pressure responsiveness occurred when males were challenged with the alpha receptor agonist phenylephrine (which predominantly constricts systemic veins and arterioles), while the same rank differences in heart rate responses occurred following stimulation with the beta receptor agonist isoproterenol (which selectively works at the heart). These data were obtained from animals stressed by anesthetization, known to cause considerable glucocorticoid secretion in this population. Such steroids are well known for their capacity to augment catecholamine action. In experiment III, we blocked endogenous glucocorticoid secretion with the steroidogenesis inhibitor metyrapone, and repeated the epinephrine challenge. Under these conditions, the rank differences in epinephrine responsiveness were eliminated. Thus, dominant males are not so much preferentially sensitive to catecholamine action, as much as to the potentiating effects of glucocorticoids upon such action. [ABSTRACT FROM AUTHOR]

Published

1994

5. The role of sleeping sites in the predator-prey dynamics of leopards and olive baboons

Author

Laura R. Bidner, Akiko Matsumoto-Oda, and Lynne A. Isbell

Subjects

0106 biological sciences, Male, endocrine system, animal diseases, viruses, Zoology, Nocturnal, 010603 evolutionary biology, 01 natural sciences, Predation, Olive Baboons, biology.animal, Animals, Panthera, 0501 psychology and cognitive sciences, 050102 behavioral science & comparative psychology, Ecology, Evolution, Behavior and Systematics, biology, 05 social sciences, Leopard, Sleep in non-human animals, Papio anubis, Predatory Behavior, embryonic structures, cardiovascular system, Animal Science and Zoology, Female, Sleep, Baboon

Abstract

Predation is widely recognized as an important selective pressure on prey animals such as baboons (Papio spp.), which face high leopard (Panthera pardus) predation risk, particularly at night. Baboons regularly sleep on cliff faces and in trees at night, ostensibly to avoid such predators. Despite retreating to such "refuges," baboons are most often killed by leopards at or near their sleeping sites. Because of the challenges of studying nocturnal behavior and human-averse predators, few systematic data exist to reveal how leopard ranging near baboon sleeping sites influences baboons' selection of sites and behavior at those sites. To investigate leopard-baboon dynamics at sleeping sites we deployed GPS/VHF radio collars on six representatives of four baboon groups and four leopards during a 14-month field study in Kenya. We used locations recorded every 15 min to identify baboons' cliffside and riverine sleeping sites, the frequency and duration of leopard visits to these sites, and baboons' adjustments in site use after leopard visits. Collared leopards visited riverine sites more frequently than cliffside sites, whereas most baboon groups strongly preferred cliffside sites, suggesting that leopard visits were often due to factors other than baboon presence, and that baboons used cliffside sites to reduce their risk of leopard predation. Regardless of type, collared leopards remained near baboon-occupied sleeping sites longer than vacant ones, indicating interest in hunting baboons then. Baboons at riverine sites departed later on mornings after leopard visits. Baboon groups occasionally shared sleeping sites simultaneously, possibly reducing risk through dilution. However, they did not reduce risk by frequently changing sleeping sites, minimizing detection at sleeping sites, or after leopard visits, arriving earlier the next evening or moving to a different site. Future research should explore if baboons readily detect nocturnal leopard presence and if predation-related changes in sleeping site use have cascading ecological effects.

Published

2018

6. Why should an aged male baboon ever transfer troops?

Author

Robert M. Sapolsky

Subjects

Social group, Olive Baboons, biology, Successful aging, Adult male, biology.animal, Cohort, Animal Science and Zoology, Papio anubis, Ecology, Evolution, Behavior and Systematics, Social relation, Baboon, Demography

Abstract

Dispersals by subadult or adult male baboons are common. In contrast, the occasional transfer of aged baboons is puzzling, given the physical dangers of transfer and the cognitive demands of mastering the ecological and social rules of a new troop. The present data suggest a possible explanation for such transfers in a study of two troops of olive baboons (Papio anubis) in Kenya. Aged males who remained in the troop in which they had been dominant were subjected to significantly higher rates of approach-avoid interactions by the current high-ranking cohort (i.e., the individuals they had dominated years past) when compared to males who had transferred into the troop in their old age. Thus, transfer in old age offers the advantage of relative anonymity. Of the 14 males who progressed into older adulthood in the same troop in which they were in their prime, seven ultimately transferred to a different troop. The seven who remained and the seven who transferred did not differ in the rate at which they were subjected to approach-avoid interactions. However, those who remained had significantly higher rates of various affiliative behaviors (copulations, consortships, grooming and contact with females, and positive interactions with infants). Thus, amid the disadvantages of an old age spent in the troop in which a male baboon was in his prime, a high degree of social affiliation might constitute a sufficient disincentive against transferring. © 1996 Wiley-Liss, Inc.

Published

1996

7. Teeth emergence in wild olive baboons in Kenya and formulation of a dental schedule for aging wild baboon populations

Author

P. Kahumbu and Robert Eley

Subjects

endocrine system, biology, animal diseases, viruses, Permanent dentition, Zoology, Papio anubis, biology.organism_classification, Olive Baboons, Age estimation, biology.animal, embryonic structures, cardiovascular system, Animal Science and Zoology, Hamadryas baboon, Ecology, Evolution, Behavior and Systematics, Baboon

Abstract

Teeth emergence schedules are presented from analysis of 95 wild olive baboons Papio anubis (age range 2-120 months) and compared to recently published results for wild and captive yellow baboons (P. cynocephalus; Phillips-Conroy and Jolly: American Journal of Primatology 15:17-29, 1988). Age at emergence of M1 (20.5 months males, 19.5 months females), I1 (32.5 and 33.5 months) and I2 (40.0 and 39 months) of olive baboons was earlier than in the wild yellow baboons and similar to captive yellow baboons. However, the later emerging teeth were delayed considerably relative to the captive animals and were similar in age of emergence to those of wild yellow baboons. Considerable variation in age of emergence occurred in the later emerging teeth especially among males. Regression analysis of dental scores with age demonstrated differences between olive baboons and captive yellow baboons but not between olive baboons and wild yellow baboons. Combined data on dental scores for wild yellow, olive, and hamadryas baboons provide schedules of AGE (months) = {SCORE - 11.79} ÷ 0.4405 and AGE (months) = {SCORE - 11.24} ÷ 0.4797 for males and females, respectively, which may be used for aging wild baboons. Full permanent dentition in wild baboons is predicted to occur over 1 year later than in captive animals.

Published

1991

8. Use of females by male olive baboons (Papio anubis)

Author

Shirley C. Strum

Subjects

Olive Baboons, Social relationship, Agonistic behaviour, Animal Science and Zoology, Context (language use), Social strategies, Papio anubis, Psychology, Social psychology, Ecology, Evolution, Behavior and Systematics, Demography, Social affiliation

Abstract

Wild male olive baboons (Papio anubis) used females and infants as agonistic buffers. Male residency status determined whether a male used females or whether they were used against him. The success of the strategy depended on the cooperation of the female and the context of the interaction. Female cooperation correlated with preexisting social affiliation with the male user. Male choice of female or infant buffers represented a compromise between the potential effectiveness of each in different situations and the social and spatial availability of females and infants. Nonreproductive social relationships may provide long-term strategic benefits to the individuals who invest in them.

Published

1983

9. Styles of male social behavior and their endocrine correlates among high-ranking wild baboons.

Author

Ray JC and Sapolsky RM

Abstract

We have previously studied the relationship between dominance rank and physiology among male olive baboons (Papio anubis) living freely in a national park in Africa. In stable hierarchies, such males have distinctive secretory profiles of glucocorticoids and of testosterone. We find that these endocrine features are not, in fact, purely markers of social dominance; instead, they are found only among dominant males with particular stylistic traits of social behavior. One intercorrelated stylistic cluster revolved around the intensity with which the male is involved in sexual consortships (e.g., frequency of copulation, of grooming, degree to which feeding is suppressed by being in consortship). Males most involved in such consortships had the lowest basal cortisol concentrations and smaller cortisol stress-responses. A second stylistic cluster revolved around the degree of social affiliation (e.g., rate of grooming and interacting positively with non-estrus females and infants). Males who were highly affiliated had low basal cortisol concentrations and an attenuated cortisol stress-response. A third cluster revolved around the degree to which males could distinguish between highly threatening interactions with rivals and neutral or mildly threatening ones. Males most adept at this had lower basal cortisol concentrations. These behavioral/endocrine clusters were independent of each other. This suggests that the same adaptive physiological feature (e.g., low basal cortisol concentrations) may arise from different and independent personality styles. © 1992 Wiley-Liss, Inc., (Copyright © 1992 Wiley‐Liss, Inc., A Wiley Company.)

Published

1992

10. Use of females by male olive baboons (Papio anubis).

Author

Strum SC

Abstract

Wild male olive baboons (Papio anubis) used females and infants as agonistic buffers. Male residency status determined whether a male used females or whether they were used against him. The success of the strategy depended on the cooperation of the female and the context of the interaction. Female cooperation correlated with preexisting social affiliation with the male user. Male choice of female or infant buffers represented a compromise between the potential effectiveness of each in different situations and the social and spatial availability of females and infants. Nonreproductive social relationships may provide long-term strategic benefits to the individuals who invest in them., (Copyright © 1983 Wiley‐Liss, Inc., A Wiley Company.)

Published

1983

11. Styles of dominance and their endocrine correlates among wild olive baboons (Papio anubis).

Author

Sapolsky RM and Ray JC

Abstract

We have studied the relationship between dominance rank and physiology among male olive baboons (Papio anubis) living freely in a national park in Africa. In stable hierarchies, dominant males consistently have lower basal concentrations than do subordinates of the adrenal glucocorticoid cortisol. Because of the known catabolic actions of glucocorticoids, dominant males may be less at risk for some of the pathogenic consequences of glucocorticoid overexposure. We find that low basal cortisol concentration is not, in fact, a marker of social dominance; instead, it is only found among dominant males with a certain style of dominance. Lower basal cortisol concentrations occurred among males with any of the following behaviors: the most marked ability to distinguish between threatening and merely neutral interactions with rivals and, if the former, the greatest likelihood of initiating a fight; the most skill at distinguishing between winning and losing a fight and, if the latter, the greatest likelihood of displacing aggression onto a third party. Collectively, these behaviors suggest high degrees of social skillfulness, control, and predictability over social contingencies, all recognized as psychological features that minimize the pathophysiological impact of stress. Dominant males lacking these behavioral features, in contrast, had as high cortisol concentrations as did subordinate males. Finally, low basal cortisol concentrations were also a feature of males with the longest tenures in the dominant cohort, suggesting that this endocrine dichotomy is meaningful in terms of life histories., (Copyright © 1989 Wiley‐Liss, Inc., A Wiley Company.)

Published

1989