The social organizations of squirrel monkeys: Implications for ecological models of social evolution

Boinski, Sue

doi:10.1002/(sici)1520-6505(1999)8:3<101::aid-evan5>3.0.co;2-o

Cited by 90 publications

(79 citation statements)

References 62 publications

(10 reference statements)

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“…Mitchell et al, 1991;Borries, 1993;Barton et al, 1996;Sterck et al, 1997;Koenig et al, 1998;Boinski, 1999;Koenig, 2000;Steenbeek & van Schaik, 2001). The same observation is sometimes consistent with all three models.…”

Section: Three Basic Modelsmentioning

confidence: 67%

Ecological models of female social relationships in primates: similarities, disparities, and some directions for future clarity

Isbell

Young²

2002

Behav

212

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SummarySeveral models have been proposed to explain the variation that exists in female social relationships among diurnal primate species. While there are similarities among them, notably in the ecological cause of agonistic relationships among females within groups, their differences are most useful in testing which of the models most accurately re ects the real world. These include the question of whether competition is an inevitable cost of living in groups and whether female philopatry is a consequence of the costs of dispersal or the bene ts of forming coalitions with female kin. We discuss in detail these similarities and differences, and attempt to integrate the models' divergent views into some guidelines for use in testing between models that will lead to the next generation of models.

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Section: Three Basic Modelsmentioning

confidence: 67%

Ecological models of female social relationships in primates: similarities, disparities, and some directions for future clarity

Isbell

Young²

2002

Behav

212

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“…As a result, most squirrel monkey populations are under intense predation pressure (Fedigan et al, 1996). Predation risk has profoundly affected many aspects of squirrel monkey biology, including growth and development (Boinski, 1987;Boinski, 1999;Boinski et al, 2003). In a study of red squirrel monkey (Saimiri oerstedi) behavioral ecology in Costa Rica, Boinski (Boinski, 1987) found that infants experienced higher rates of predation than any other age class, with more than 50% of infants dying within the first six months of life.…”

Section: Introductionmentioning

confidence: 99%

“…By six months of age, when juveniles are only 40-50% of adult size, foraging activity and locomotor repertoires are generally indistinguishable from adults (Boinski, 1989;Boinski and Fragaszy, 1989). Moreover, once juvenile squirrel monkeys have become independent, they must travel an average of 2-4 km day -1 to remain with the group and gain access to distributed foraging resources, such as fruit and invertebrate prey (Terborgh, 1983;Mitchell, 1990;Boinski, 1999). In summary, squirrel monkeys are an excellent group in which to investigate how developmental changes in limb mechanics might impact locomotor performance in young mammals.…”

Section: Introductionmentioning

confidence: 99%

Ontogeny of joint mechanics in squirrel monkeys (Saimiri boliviensis): functional implications for mammalian limb growth and locomotor development

Young

2009

Journal of Experimental Biology

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SUMMARYJuvenile animals must often compete against adults for common resources, keep pace during group travel and evade common predators, despite reduced body size and an immature musculoskeletal system. Previous morphometric studies of a diverse array of mammals, including jack rabbits, cats and capuchin monkeys, have identified growth-related changes in anatomy, such as negative allometry of limb muscle mechanical advantage, which should theoretically permit young mammals to overcome such ontogenetic limits on performance. However, it is important to evaluate the potential impact of such 'compensatory' growth trajectories within the context of developmental changes in locomotor behavior. I used standard kinematic and kinetic techniques to investigate the ontogenetic scaling of joint postures, substrate reaction forces, joint load arm lengths and external joint moments in an ontogenetic sample of squirrel monkeys (Saimiri boliviensis). Results indicated that young squirrel monkeys were frequently able to limit forelimb and hind limb joint loading via a combination of changes in limb posture and limb force distribution, potentially compensating for limited muscularity at younger ages. These results complement previous morphometric studies and suggest that immature mammals may utilize a combination of behavioral and anatomical mechanisms to mitigate ontogenetic limits on locomotor performance. However, ontogenetic changes in joint posture, not limb length per se, explained most of the variation in load arm lengths and joint loading in growing squirrel monkeys, indicating the importance of incorporating both anatomical and performance measures when studying the ontogeny of limb joint mechanics. Supplementary material available online at

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“…New World monkeys present an useful group for examining hypotheses of sexual dimorphism. Squirrel monkeys probably exhibit the most extensive geographic variation in social organization compared with other primates (Boinski and Cropp, 1999;Boinski, 1999). Radiation includes some well-defined monophyletic clades within which phylogeny can be controlled.…”

Section: Resultsmentioning

confidence: 99%

Sexual dimorphism in the squirrel monkey, Saimiri sciureus (Linnaeus, 1758) and Saimiri ustus (I. Geoffroy, 1844) (Primates, Cebidae)

et al. 2009

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Causes and implications of sexual dimorphism have been studied in several different primates using a variety of morphological characters such as body weight, canine length, coat color and ornamentation. Here we describe a peculiar coat color characteristic in the squirrel monkey that is present only in adult females over five years old and which increases with age. Neither males nor young animals manifest this phenomenon, which is characterized by a spot of black hairs located anteriorly to the external ear (pinna). This characteristic could be used to discriminate adult females of Saimiri sciureus in the wild without the need of capture techniques.Keywords: coat color, non-human primates, sexual maturity. Dimorfismo sexual em micos-de-cheiro, Saimiri sciureus (Linnaeus, 1758) eSaimiri ustus (I. Geoffroy, 1844) (Primates, Cebidae) ResumoAs causas e implicações do dimorfismo sexual têm sido estudadas em diferentes espécies de primatas utilizando uma variedade de características morfológicas tais como peso corporal, comprimento de caninos, coloração do pelo e ornamentação. Este trabalho descreve uma característica peculiar da coloração do pelo em micos-de-cheiro, que está presente somente em fêmeas adultas após cinco anos de idade e que se acentua com a idade. Nem machos nem animais jovens manifestam esse fenômeno, que se caracteriza por uma mancha de pelos pretos localizada anteriormente à orelha. Esta característica poderia ser usada para discriminar fêmeas adultas de Saimiri sciureus na natureza sem necessidade de técnicas de captura.Palavras-chave: cor de pelo, primatas não-humanos, maturidade sexual.

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The social organizations of squirrel monkeys: Implications for ecological models of social evolution

Cited by 90 publications

References 62 publications

Ecological models of female social relationships in primates: similarities, disparities, and some directions for future clarity

Ecological models of female social relationships in primates: similarities, disparities, and some directions for future clarity

Ontogeny of joint mechanics in squirrel monkeys (Saimiri boliviensis): functional implications for mammalian limb growth and locomotor development

Sexual dimorphism in the squirrel monkey, Saimiri sciureus (Linnaeus, 1758) and Saimiri ustus (I. Geoffroy, 1844) (Primates, Cebidae)

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