Development of epiphyseal union in Japanese macaques of known chronological age

Forty epiphyseal unions were studied in the two subspecies of the Japanese macaque at known chronological ages. The age standards of the beginning and completion of epiphyseal union were estimated. The total score of the ratings of the unions revealed significant correlations with chronological age before 9 years of age. The linear regressions were calculated in each group of different sex and different subspecies in order to enable predictions to be made of the chronological age from the total score. Although males and females generally showed the same pattern of sequences, the unions of the females united earlier than those of the males in both subspecies before 9 years of age. The Yaku subspecies demonstrated an earlier union than the common Japanese macaque in both sexes before the age of 9 years old. The epiphyseal union of the Japanese macaque usually developed earlier than the reported union in the rhesus macaque. A large number of epiphyseal unions united at least partially and the total score deviated widely during the range from around 4 to 6 years of age. This period was in accordance with the adolescent growth period, especially in males, with rapid growth of body size as observed based on by somatometrical measurements. The skeletal growth of the trunk was generally late compared with that of the limbs. During the range after 8 years of age, some unions of the trunk united earlier in males than in females. The epiphyseal union could allow a more precise age estimation than the body mass or dental eruption during a certain range of ages. However, developmental estimations obtained from animals fed artificially, as the present samples were, must be applied with caution to wild animals.     

Age estimation from stages of epiphyseal union in the presacral vertebrae

The presacral vertebrae have various secondary centers of ossification, whose timing of fusion can be used for age estimation of human skeletal remains up to the middle to the latter third decade. However, detailed information about the age at which these secondary centers of ossification fuse has been lacking. In this study, the timing of epiphyseal union in presacral vertebrae was studied in a sample of modern Portuguese skeletons (57 females and 47 males) between the ages of 9 and 30, taken from the Lisbon documented skeletal collection. A detailed photographic record of these epiphyses and the age ranges for the different stages of epiphyseal union are provided. Partial union of epiphyses was observed from 11 to 27 years of age. In general, centers of ossification begin to fuse first in the cervical and lumbar vertebrae, followed by centers of ossification in the thoracic region. The first center of ossification to complete fusion is usually that of the mammillary process in lumbar vertebrae. This is usually followed by that of the transverse process, spinous transverse process, and annular ring, regardless of vertebra type. There were no statistically significant sex differences in timing of fusion, but there was a trend toward early maturation in females for some vertebra or epiphyses. Bilateral epiphyses did not show statistically significant differences in timing of fusion. This study offers information on timing of fusion of diverse epiphyseal locations useful for age estimation of complete or fragmented human skeletal remains. Am J Phys Anthropol, 2011. © 2010 Wiley‐Liss, Inc.     

Age changes in plasma IGF-1 concentration in free-ranging Japanese macaques (Macaca fuscata)

To obtain fundamental data on the endocrine background for the wild Japanese macaque (Macaca fuscata) growth profiles, we have measured plasma insulin-like growth factor 1 (IGF-1) concentrations of free-ranging and open-enclosed Japanese macaques from five different regions in their habitat. General features of the IGF-1 levels in those troops were: 1) an age-dependent increase in the young macaques and 2) distinctively higher values among several adult females. The age changes in IGF-1 levels during the adolescent period in the free-ranging Japanese macaques were similar to those in the caged Japanese macaques.     

Radiation and phylogeography in the Japanese macaque, Macaca fuscata

The Japanese macaque (Macaca fuscata) presumably differentiated from eastern rhesus macaque (Macaca mulatta) populations during the Pleistocene and the two species are closely related. In order to analyse speciation and subspeciation events in the Japanese macaque and to describe historical and current relationships among their populations, we sequenced and analysed a fragment of 392bp of mitochondrial DNA (mtDNA) control region in 50 individuals belonging to six populations of Japanese macaque and compared these sequences with 89 eastern rhesus macaque control region sequences from GenBank/EMBL database. There were high genetic similarities between both species and only two positions were fixed within each species, which supports the inclusion of the Japanese macaque in a single species with eastern populations of rhesus macaques. Japanese macaque ancestors colonised Japan after the separation of the two species, estimated at between 0.31 and 0.88 million years ago (Mya). The star-like phylogeny, multimodal mismatch distribution, and lack of correlation between geographic and genetic distances are in accordance with a rapid dispersion of macaques throughout the archipelago after the arrival into Japan. The species shows low genetic variation within populations and high levels of genetic differentiation among populations with no mtDNA haplotype shared across populations. Genetic distances between Yakushima macaques (Macaca fuscata yakui) and any other population of Macaca fuscata fuscata subspecies are comparable to the distances between populations of Honshu, Awajishima, and Kyushu, not supporting the classification of Yakushima macaques as a different subspecies.     

Sexual Maturation of Female Japanese Macaques Under Poor Nutritional Conditions and Food-Enhanced Perineal Swelling in the Koshima Troop

Provisioned food was severely restricted for 5 years, from 1972 until June 1977, in the insular Koshima troop of Japanese macaques. The monkeys experienced very poor nutritional conditions during this period. The feeding policy was changed in 1977 and food conditions improved, but only in summer. A remarkable consequence of intensive provisioning in summer was the occurrence of perineal swelling in many young females outside of the mating season. Females that matured during the period of poor food conditions showed an extraordinary delay in primiparity and exhibited conspicuous perineal swelling in the summer of 1977. Researchers studied the development of perineal swelling under standard conditions of constant provisioning from 1990 to 1995. First perineal swelling appeared at 5 years of age under standard conditions but appeared at 8 years of age under poor food conditions. The extraordinary delay in primiparity did not occur among females that were 6 years old when food conditions were improved in summer. We deduced that female Japanese macaques have a critical age of 5 to 6 years for sexual maturation. If the critical age is exceeded under poor food conditions, sexual maturation is hard to achieve even with improvements in food conditions. Seasonal changes in the incidence of perineal swelling were related to the period of high body weight. Rapid improvements in food conditions probably caused perineal swelling and activated sex hormones in female Koshima Japanese macaques.     

Age estimation from stages of union of the vertebral epiphyses of the ribs

This study attempts to fill a persistent gap in the literature by documenting the timing of epiphyseal union at the vertebral end of the ribs in a sample of modern Portuguese skeletons. The skeletal remains of 53 females and 45 males, between the ages of 11 and 30, were taken from the Lisbon documented skeletal collection. Individuals in the sample have been previously described as being representative of a middle‐to‐low socioeconomic segment of the early 20th century Lisbon population. Three anatomical locations were examined for epiphyseal union: the head, the articular tubercle and the nonarticular tubercle. The first epiphysis to show partial union is that of the nonarticular tubercle (females, 11–19 years; males, 11–19 years), followed by the epiphysis of the articular tubercle (females, 11–20 years; males, 16–20 years), and finally by the head epiphysis (females, 15–24 years; males, 16–22 years), which can still show incomplete epiphyseal closure at 25 and 24 years for females and males, respectively. A trend for earlier female maturation was observed, but the statistical tests only confirmed this result for some ribs and age groups. No directional asymmetry was found, but a significant fluctuating asymmetry was observed in all three epiphyses. A preliminary analysis showed that the asymmetric group of individuals in the study sample includes all the rural‐to‐urban migrants, relative to the symmetric group. Am J Phys Anthropol, 2009. © 2009 Wiley‐Liss, Inc.     

Frog- and lizard-eating behaviour of wild Japanese macaques in Yakushima,Japan

Frog- and lizard-eating and related behaviours were observed on eight occasions in two troops of wild Japanese macaques (Macaca fuscata yakui) in Yakushima, between March 1984 and April 1989. In each case, the first animal seen handling the prey was an adult. Juveniles showed interest in the prey, sniffed or mouthed it in three cases, and ate discarded parts of it in another. In the three cases where capture was observed, detection of the prey appeared to be fortuitous. Four monkeys ate leaves after eating meat. Those leaves identified were of species not commonly eaten. Though invertebrate-eating is common and widespread among Japanese macaques, the consumption of vertebrates is rare. The possibility that these behaviours represent a local tradition among the Yakushima macaques is discussed.     

Differences in hair density of Japanese monkeys (Macaca fuscata fuscata) with locality and age

The hair density of free-ranging Japanese monkeys (Macaca fuscata fuscata) living in three different areas was investigated. The Japanese monkeys had thicker hair than other macaques. The hair density in the Japanese monkeys varied with locality: the northern monkeys had thicker hair than the southern ones. The density did not vary markedly with age up to 3 years of age, but then decreased gradually up to adult age (≧7 years old). The remarkable growth of the trunk suggested that the total number of hairs increased with age, especially during the period as a juvenile.     

Retroperitoneal fibromatosis and acquired immunodeficiency syndrome in macaques: epidemiologic studies

At the University of Washington Regional Primate Research Center, a simian acquired immunodeficiency syndrome (SAIDS) associated with retroperitoneal fibromatosis (RF) has been observed in 82 macaques since 1976, including 77 pigtailed macaques (Macaca nemestrina), two long-tailed macaques (M. fascicularis), one Japanese macaque (M. fuscata) and two rhesus macaques (M. mulatta). The syndrome is characterized by immunodeficiency accompanied by a fibroproliferative lesion, primarily affects young monkeys (1-3 years) and has a high case fatality rate. Based on the occurrence of RF in colony-born and non-colony-born monkeys, the minimum incubation period for natural exposure is believed to be about 9 months. The incidence of RF was 0.9% in M. nemestrina, 0.1% in M. fascicularis, 1.0% in M. fuscata and 0.4% in M. mulatta. There were no significant differences in the incidence of RF by sex or seasonality. Epidemiologic studies were focused on 42 juvenile M. nemestrina that developed RF between January 1980 and June 1983, and the results were compared with 42 age- and sex-matched controls. The incidence of RF was 5.7% in monkeys 12-24 months old and 3.4% in monkeys 24-36 months old, but less than 1.0% in age groups of under 1 year and over 3 years. No significant associations were found for housing history, parentage, generations or ancestral origins. Epidemiologic information and preliminary viral studies suggest a type D retrovirus may be the causative agent in RF and SAIDS. RF associated with SAIDS appears to be an excellent model for Kaposi's sarcoma associated with human AIDS.     

Phylogenetic relationships among Japanese, rhesus, Formosan, and crab- eating monkeys, inferred from restriction-enzyme analysis of mitochondrial DNAs [published erratum appears in Mol Biol Evol 1988 Sep;5(5):601]

Mitochondrial DNA (mtDNA) polymorphisms in four species of macaques, i.e., Japanese monkey (Macaca fuscata), rhesus monkey (M. mulatta), Formosan monkey (M. cyclopis), and crab-eating monkey (M. fascicularis), were analyzed to study phylogenetic relationships. When 17 restriction enzymes of 6-bp recognition were used, 42-49 sites were observed in the samples. The estimated number of nucleotide substitutions per site among Japanese, rhesus, and Formosan monkeys ranges from 0.0318 to 0.0396, and that between the crab-eating monkey and the other monkeys from 0.0577 to 0.0653. These findings suggest that the crab-eating monkey diverged from the other three approximately 1.5-3.0 Myr before the present (Mybp) and that the Japanese, rhesus, and Formosan monkeys diverged approximately 0.9-1.8 Mybp, although the branching order cannot be determined conclusively.      

Senile features in the skeleton of an aged Japanese monkey

The senile features in the skeleton of a male Japanese monkey, who is presumed to be about 40 years old, were examined in comparison with younger individuals. As for the skull, every part is constructed solidly, and the sutures around the temporal and parietal bones are for the most part closed. In the dentition many of the front teeth are destroyed or lost, and the cheek teeth are severely worn. In the vertebrae, the annular epiphyseal discs unite completely with the body at its anterior and posterior surfaces, and the porosity and deformation of the bodies are remarkable. The hip bones, in the pelvis, unite with each other by solid ossification of the pubic symphysis. The long bones of the anterior and posterior limbs are marked by their general thickness, the rugged increase of bone around the joints, especially in the arms, and the complete union of each epiphysis with the shaft through the ossification of the epiphyseal cartilage. These senile features furnish a clue as to the establishment of a criterion for age estimation in Japanese monkeys.This observation was briefly reported inMonkey Vol. 13, No. 1, 1969, and Fig. 9 was used there.     

Mitochondrial DNA variation within and among regional populations of longtail macaques (Macaca fascicularis) in relation to other species of the fascicularis group of macaques

An 835 base pair (bp) fragment of mitochondrial DNA (mtDNA) was sequenced to characterize genetic variation within and among 1,053 samples comprising five regional populations each of longtail macaques (Macaca fascicularis) and rhesus macaques (Macaca mulatta), and one sample each of Japanese (M. fuscata) and Taiwanese (M. cyclopis) macaques. The mtDNA haplotypes of longtail macaques clustered in two large highly structured clades (Fas1 and Fas2) of a neighbor-joining tree that were reciprocally monophyletic with respect to those representing rhesus macaques, Japanese macaques, and Taiwanese macaques. Both clades exhibited haplotypes of Indonesian and Malaysian longtail macaques widely dispersed throughout them; however, longtail macaques from Indochina, Philippines, and Mauritius each clustered in a separate well-defined clade together with one or a few Malaysian and/or Indonesian longtail macaques, suggesting origins on the Sunda shelf. Longtail macaques from Malaysia and Indonesia were far more genetically diverse, and those from Mauritius were far less diverse than any other population studied. Nucleotide diversity between mtDNA sequences of longtail macaques from different geographic regions is, in some cases, greater than that between Indian and Chinese rhesus macaques. Approximately equal amounts of genetic diversity are due to differences among animals in the same regional population, different regional populations, and different species. A greater proportion of genetic variance was explained by interspecies differences when Japanese and Taiwanese macaques were regarded as regional populations of rhesus macaques than when they were treated as separate species. Rhesus macaques from China were more closely related to both Taiwanese and Japanese macaques than to their own conspecifics from India.     

Seasonality of adult male Japanese macaques (Macaca fuscata): androgens and behavior in a confined troop

Seasonal variations in levels of serum testosterone, dihydrotestosterone (DHT), reproductive behavior, and social behavior were investigated in 12 adult males (5 to 20+ years of age) of the Oregon troop of Japanese macaques (Macaca fuscata). Blood samples were collected at 2- to 4-month intervals, and behaviors were monitored twice weekly over a 15-month period. Significant seasonal variations in levels of testosterone and DHT, and in frequencies of mount series, ejaculations, number of female partners, displays, courtship, and aggression were observed. Seasonal variations in reproductive and social behaviors did not correlate with seasonal variations in androgen levels because seasonal increases in these behaviors followed seasonal increases in the androgens with a 1- to 2-month delay. However, significant correlations between increased androgen levels and the onset of mating activity occur when mean monthly frequencies of mount series are shifted 1 to 2 months earlier to coincide with the rise in serum androgen levels. The frequency of adult male play and male-male mounting increased significantly when androgen levels were low. We suggest that photoperiod changes may function as a proximate cue in male Japanese macaques which induces a state of biological readiness for mating, and the behavioral consequences (i.e., mating) are then dependent upon the presence of receptive females.     

Occurrence of Yersinia enterocolitica in the Tokyo Tama Zoo

Yersinia enterocolitica serogroups O5A and O8 were isolated from fecal samples of one colony of Japanese macaques (Macaca fuscata) from the Tokyo Tama Zoo (Japan). Serogroup O5A was detected in brown bear (Ursus arctos) prior to the isolation from the macaques. Serogroup O5A organisms also were isolated from the Japanese macaques' breeding area. Serogroup O5A and O8 isolates were not pathogenic. Serogroup O8 isolates did not possess the O7 or O19 antigens.     

Population genetical study of Japanese macaques,Macaca fuscata,in the shimokita A1 troop,with special reference to genetic variability and relationships to Japanese macaques in other troops

The genetic variations of 35 individuals of the Shimokita A1 troop of mainland Japanese macaques,Macaca fuscata fuscata, which live at the northern end of the habitat of the species, were investigated using 33 electrophoretically detectable blood protein loci. Among the loci examined, six were polymorphic. The average heterozygosity per individual was calculated as 0.0442. This was the highest value among all troops of Japanese macaques so far investigated. The mainland macaques of the Shimokita A1 troop were more differentiated genetically from other mainland macaque troops than were Yaku macaques, the subspeciesM. f. yakui.     

Retardation of bone development in the Koshima troop of Japanese macaques

Retardation of bone development was observed in the Koshima troop of free ranging Japanese macaques. In the control group, epiphyseal unions of appendicular long bones generally started to close at about 4 yrs of age and were completed at about 8 or 9 yrs of age. Limb bone unions of the Koshima troop, however, started to close at about 9 yrs of age and completely closed at about 15 yrs of age. In the epiphyseal unions of trunk and girdle bones, the Koshima troop again showed a retardation of closure compared with the control group. Until long bones reached their full length, that is, until about 15 yrs of age, their size was small in the Koshima troop compared with the control group, though the sample size of the Koshima troop was small. After 15 yrs of age, however, many osteometrical measurements of the Koshima troop were nearly the same as controls. A prolonged growing duration compensated for the slow growth and allowed them to become as large as controls. This prolongation may be an adaptation in response to small size during the developmental period. In some parts of the body, however, Koshima macaques failed to reach the adult size of controls. Males were less likely than females to reach full size. Causes of the retardation and small size in the Koshima troop are discussed, but they remain open to further studies.     

Numerical variation of the presacral vertebral column in three population groups in North America

A total of 1,239 skeletons from among Mongoloid, Caucasoid and Negroid population groups in North America was examined for variations in the number of presacral vertebrae. The overall incidence of variation was 11%; 6% with 23 and 5% with 25 presacral vertebrae. Differences in total variation among the three groups were not significant, but differences in the incidence of 23 and 25 presacral vertebrae among the groups were highly significant. Numerical vertebral variation occurred in 11% of both sexes, but with males having a higher frequency of 25 presacral vertebrae and females having a higher frequency of 23 presacral vertebrae. The incidence of the specific variation of 23 or 25 presacral vertebrae was not significantly different among the males of the three groups studied, whereas 23 presacral vertebrae were found significantly more often in the Negroid females. Numerical variation of vertebrae was not associated with age. The data strongly support the conclusion that the total frequency of variation in the number of presacral vertebrae is a specific characteristic of any particular population group and that there is a tendency in all population groups toward an increase in number in males and a decrease in number in females.     

Amino acids in the plasma of fasting Japanese monkeys (Macaca fuscata fuscata andM. f. yakui)

The plasma levels of 26 amino acids and related compounds were determined in five male and five female adult members of each of the two subspecies of Japanese monkeys,Macaca fuscata fuscata andM. f. yakui. Activities of L-asparaginase and histaminase in plasma were also measured.Numerous differences in amino acid levels between the sexes in the subspeciesfuscata were noted, with the female consistently exhibiting lower values. Few differences were observed between the sexes of the subspeciesyakui or between the two subspecies of Japanese monkeys. These monkeys were similar to other previously studied nonhuman primates in exhibiting measurable levels of 3-methylhistidine in plasma. There were numerous quantitative differences among Japanese monkeys and stump-tailed macaques, rhesus monkeys, chimpanzees, and man, with the Japanese monkeys usually exhibiting higher plasma levels.L-asparaginase activity was not detectable in these Japanese monkeys. Histaminase activity was similar to that previously measured in pig-tailed macaques and chimpanzees, lower than that in rhesus monkeys and stump-tailed macaques, and higher than that in man.     

Epiphyseal union at the innominate and lower limb in a modern Portuguese skeletal sample, and age estimation in adolescent and young adult male and female skeletons

This study documents the timing of epiphyseal union at the innominate, femur, tibia, and fibula in a sample of modern Portuguese skeletons. The sample was taken from the Lisbon documented skeletal collection and it is comprised of 57 females and 49 males between the ages of 9 and 25. Individuals are mostly representative of the middle-to-low socioeconomic segment of the early 20th century Lisbon population. A total of 18 anatomical locations were examined for epiphyseal union using a three-stage scheme: 1) no union; 2) partial union; and 3) completed union, all traces of fusion having disappeared. Results show that females are ahead of males by 1-2 years and provide similar age ranges for the stages of union than previous studies. Some variations between studies can be explained by methodological differences between dry bone and radiographic observations. However, a review of the literature indicates that socioeconomic status of a given population seems to be of decisive importance to the rate of ossification and most of the differences in skeletal maturation across studies and populations can probably be ascribed to different levels of social and economic development of the societies in which the individuals lived. Although the effects of socioeconomic status in skeletal maturation are greater during childhood than in adolescence, as to make the timing of epiphyseal union a reliable estimate of age at death, they are not negligible and age estimates should take into account the likely socioeconomic status of the individual, whose remains are under examination.     

Baseline and stress levels of cortisol in conscious and unrestrained Japanese macaques (Macaca fuscata)

A vest and tethering system was applied to Japanese macaques (Macaca fuscata) to collect blood samples under less stressful conditions. The level of plasma cortisol was assayed to assess the amount of stress. The pattern of plasma cortisol fluctuation during 24 hours was consistent under non-stress conditions. The plasma cortisol level was increased significantly by encounter and venipuncture. The increase was especially noteworthy when the experimental macaques encountered a large adult male, reflecting the strong stress on macaques. As venipuncture is a common medical procedure, and the encounter between macaques who have never met before occurs frequently, this vest and tethering system is useful for the assessment of the amount of stress in the daily care of macaques in a laboratory.