Your search keyword '"Jolly CJ"' showing total 6 results

1. Comparative postcranial body shape and locomotion in Chlorocebus aethiops and Cercopithecus mitis.

Author

Anapol F, Turner TR, Mott CS, and Jolly CJ

Subjects

Animals, Body Weight, Cercopithecus physiology, Extremities anatomy & histology, Female, Kenya, Male, Sex Characteristics, Species Specificity, Tail anatomy & histology, Anthropometry, Cercopithecus anatomy & histology, Locomotion physiology

Abstract

Body weight and length, chest girth, and seven postcranial limb segment lengths are compared between two guenon species, Chlorocebus (Cercopithecus) aethiops (vervets) and Cercopithecus mitis (blue monkeys), exhibiting different habitual locomotor preferences. The subjects, all adults, were wild caught for a non-related research project (Turner et al. [1986] Genetic and morphological studies on two species of Kenyan monkeys, C. aethiops and C. mitis. In: Else JG, Lee PC, editors. Primate evolution, proceedings of the Xth International Congress of Primatology, Cambridge. London). The morphological results are interpreted within the context of previously published observations of primate locomotion and social organization. The sample is unique in that the body weight of each individual is known, allowing the effects of body-size scaling to be assessed in interspecific and intersexual comparisons. C. mitis has a significantly (P < 0.05) greater body weight and trunk length than C. aethiops. A shorter trunk may function to reduce spinal flexibility for ground-running in the latter. Proximal limb segments (arm and thigh) are significantly greater in C. mitis, reflecting known adaptations to committed arboreal quadrupedal locomotion. By contrast, relative distal limb segments (forearm, crus, and foot) are significantly longer in C. aethiops, concordant with a locomotor repertoire that includes substantial terrestrial quadrupedalism, in addition to arboreal agility, and also the requisite transition between ground and canopy. Although normally associated with arboreal monkeys, greater relative tail length occurs in the more terrestrial vervets. However, because vervets exploit both arboreal and terrestrial habitats, a longer tail may compensate for diminished balance during arboreal quadrupedalism resulting from the greater "brachial" and "crural" indices that enhance their ground quadrupedalism. Most interspecific differences in body proportions are explicable by differences in locomotor modalities. Some results, however, contradict commonly held "tenets" that relate body size and morphology exclusively to locomotion. Generally associated with terrestriality, sexual dimorphism (male/female) is greater in the more arboreal blue monkeys. A more intense, seasonal mating competition may account for this incongruity., (2004 Wiley-Liss, Inc.)

Published

2005

2. Growth, development, and sexual dimorphism in vervet monkeys (Cercopithecus aethiops) at four sites in Kenya.

Author

Turner TR, Anapol F, and Jolly CJ

Subjects

Age Determination by Teeth, Analysis of Variance, Animals, Chlorocebus aethiops, Female, Kenya, Male, Growth, Sex Characteristics, Sexual Maturation

Abstract

Body weight and ten body segment measurements were collected from 367 wild-trapped vervet monkeys (Cercopithecus aethiops) in central and southern Kenya. The animals represent between 70 and 95% of the animals in each of 30 troops at four geographical locations separated by 80 to 380 km. The capture sites differed in altitude, mean annual rainfall and temperature. Two questions are addressed: (1) what are the differences in male and female growth patterns, and (2) what is the relationship between size, climate, and availability of food? Each animal was assigned to an age class based on dental examination. Means for all variables do not diverge for males and females from birth to age class 4 (15-18 months). After this, male and female growth rates diverge. This sexual dimorphism in growth pattern may reflect timing of entry into the reproductive community. A nested analysis of variance (ANOVA) was employed to compare sites, groups within sites and individuals within groups. Statistically significant differences between sites in body weight and body segment measurements are found for adult females. Except for tail length, these differences do not follow Bergmann's or Allen's Rules correlating size differences and temperature, but rather may reflect proximity to cultivated areas or tourist lodges with greater access to human food.

Published

1997

3. Body weights of adult vervet monkeys (Cercopithecus aethiops) at four sites in Kenya.

Author

Turner TR, Anapol F, and Jolly CJ

Subjects

Africa, Eastern, Animals, Animals, Wild, Animals, Zoo, Female, Kenya, Male, Sex Characteristics, South Africa, Body Weight, Chlorocebus aethiops anatomy & histology

Published

1994

4. Periodontal health in free-ranging baboons of Ethiopia and Kenya.

Author

Phillips-Conroy JE, Hildebolt CF, Altmann J, Jolly CJ, and Muruthi P

Subjects

Age Factors, Animals, Ethiopia, Female, Kenya, Male, Photography, Papio, Periodontal Index

Abstract

Frontal and lateral intraoral photographs of 19 baboons from the Awash National Park, Ethiopia and 37 baboons from Amboseli National Park, Kenya, were used to assess periodontal health. The Awash baboons, and two groups (Alto's and Hook's) at Amboseli, fed entirely from natural sources, but baboons from the third Amboseli group (Lodge) fed largely on food refuse from one of the park's lodges. Juveniles and adults were evaluated separately. Intraoral photographs were seriated based on visual appraisals of periodontal health. In both age groups, the best periodontal health was seen in Awash animals; Alto's and Hook's animals were intermediate, and the poorest health was seen in the Lodge sample. The periodontal health decreased with age in adult baboons, as reported in humans. Geochemistry, genetics, age, and diet (particularly variations in bacterial flora) were considered as factors contributing to the intergroup differences. Although it is not possible at present to exclude any of these as a contributing cause, we consider that diet in the broad sense (including food, water, and contamination by oral bacteria of human origin) probably plays a major role.

Published

1993

5. Patterns of genetic variability in the serum proteins of the Kenyan vervet monkey (Cercopithecus aethiops).

Author

Dracopoli NC, Brett FL, Turner TR, and Jolly CJ

Subjects

Alkaline Phosphatase blood, Alkaline Phosphatase genetics, Aminopeptidases blood, Aminopeptidases genetics, Animals, Ceruloplasmin genetics, Demography, Esterases blood, Esterases genetics, Kenya, Blood Proteins genetics, Cercopithecus genetics, Chlorocebus aethiops genetics, Genetic Variation

Abstract

An electrophoretic survey of 13 serum proteins was carried out on samples drawn from 340 vervet monkeys (Cercopithecus aethiops) living in 30 troops from four different localities in central and southern Kenya. The proportion of polymorphic loci is 0.17 and the average heterozygosity is 0.05. The group specific component, prealbumin carboxylesterase, and transferrin are all polymorphic. The analysis of the patterns of gene diversity show that a large part of the genic variation exists within individual troops and among neighboring troops from the same trapping locality. Only a small proportion of the overall genetic variability occurs between the populations at the different trapping localities which are separated by between 80 and 380 km. The migration of young males from their natal troops is a likely mechanism of gene flow among the vervet populations. Gene flow appears to be sufficient to prevent high levels of geographic variation in the gene frequencies at these loci, but is insufficient to prevent the occasional fixation of alleles in some local populations.

Published

1983

6. Hepatocystis parasitemia in wild Kenya vervet monkeys (Cercopithecus aethiops).

Author

Turner TR, Lambrecht FL, and Jolly CJ

Subjects

Animals, Apicomplexa isolation & purification, Kenya, Protozoan Infections parasitology, Cercopithecus parasitology, Chlorocebus aethiops parasitology, Monkey Diseases parasitology, Protozoan Infections, Animal

Abstract

Blood smears of 159 vervet monkeys from three sites in Kenya were stained with Giemsa and examined for Hepatocystis parasites. The populations differ in incidence of parasitemia, ranging from 0-62% affected individuals. These differences are probably due to altitude and local environmental conditions.

Published

1982