Cranial allometry and geographic variation in slow lorises (Nycticebus)

A series of 20 craniodental measurements was obtained for two sister taxa: Nycticebus coucang (common slow loris) and N. pygmaeus (pygmy slow loris). Multivariate analysis of variance was performed with adult data to describe patterns of subspecific and specific variation in this genus. The geometric mean of adult cranial dimensions was compared to field data on latitudinal coordinates for available specimens to investigate if size variation in Nycticebus is clinal in nature. Ontogenetic series for larger-bodied N. coucang and smaller-bodied N. pygmaeus were compared to test the hypothesis that species and subspecific variation in skull form results from the differential extension of common patterns of relative growth. A MANOVA provides independent support of Groves's [pp. 44–53 in Proceedings of the Third International Congress on Primatology, Vol. 1 (Basel: S. Karger), 1971] classification of Nycticebus into two species, with four subspecies in the common slow loris and one form of the pygmy slow loris. Within N. coucang, cranial proportions for all four subspecies are ontogenetically scaled, and size differentiation is mainly clinal (Bergmann's Rule). N. c. bengalensis represents the most northerly disposed and the largest form. N. c. javanicus represents the next-largest form and is located in a southerly direction the next-farthest away from the equator. N. c. coucang and N. c. menagensis are both equatorial; however, the latter subspecies is the smallest. A genetic basis for some of the taxonomic variation between N. c. coucang and N. c. menagensis is supported by such nonclinal variation in body size. Variation in the presence/absence of I² is not size-related but rather tracks geographic proximity and isolating factors which predate the most recent inundation of the Sunda Shelf. Although they inhabit a nonequatorial environment, pygmy slow lorises are the smallest of all Nycticebus. As N. pygmaeus is sympatric with N. c. bengalensis, the largest slow loris, it appears that the evolution of its smaller body size represents a case of character displacement. Unlike N. coucang, skull size becomes significantly smaller in more northern N. pygmaeus. This may also reflect character displacement between sympatric sister taxa underlain by a cline-dependent ecological factor which is marked in more northerly latitudes. On the other hand, the negative correlation between body size and latitude in N. pygmaeus could be due to the influence of nonprimate fauna, such as predators, which themselves evince a similar clinal pattern. Analyses of relative growth indicate that skull proportions in the two species of Nycticebus are ontogenetically scaled in two-thirds of the cases. All but one of the seven comparisons (interorbital breadth) which do not indicate ontogenetic scaling represent part of the masticatory complex. This likely reflects a reorganization of N. pygmaeus maxillomandibular proportions linked to smaller size and changes in diet. Am. J. Primatol. 45:225–243, 1998. © 1998 Wiley-Liss, Inc.     

Mitochondrial Control Region and Population Genetic Patterns of Nycticebus bengalensis and N. pygmaeus

Bengal slow lorises (Nycticebus bengalensis) and pygmy slow lorises (Nycticebus pygmaeus) are nocturnal which creates difficulties to study them in the field. There is a scarcity of data on them and their population genetics are poorly understood. We sequenced and analyzed a partial fragment in the first hypervariable region of the mitochondrial control region or D-loop HVRI of 21 Nycticebus bengalensis and 119 N. pygmaeus from the boundary between China and Vietnam where they are sympatric. Though the sample size for Nycticebus pygmaeus is much larger, the polymorphism level is much lower than that of N. bengalensis, possibly because of (1) external gene flow from other habitats of N. bengalensis, (2) gene ingression from Sunda slow lorises (N. coucang coucang) to N. bengalensis, (3) a skewed birth sex ratio in N. pygmaeus, and (4) a possible low survival rate of infant N. pygmaeus. Based on genetic comparisons to Nycticebus bengalensis, we propose that N. pygmaeus in southern China and northern Vietnam might have migrated from middle or southern Vietnam recently. Deng Pan and Jing-Hua Chen made equal contributions to the work.     

Conservation implications of low encounter rates of five nocturnal primate species (<Emphasis Type="Italic">Nycticebus </Emphasis>spp.) in Asia

Five species of slow lorises were once considered to comprise a single strongly polymorphic species, Nycticebus coucang, ranging throughout South and Southeast Asia. The cryptic nature of these nocturnal primates has led to a lack of understanding of their distribution patterns and abundance. In short surveys, often few if any lorises are detected, meaning that the few available density estimates are from long-term studies. Based on new research in Sebangau National Park, Borneo, and compilation of survey data from other areas, we provide the first comparative abundance estimates for all five slow loris species: N. coucang occurred in significantly higher abundances (median encounter rate 0.80/km: n = 15), than N. bengalensis (0.26/km; n = 12), or N. javanicus (0.11/km: n = 2), N. menagensis (0.02/km: n = 3), and N. pygmaeus (0.13/km: n = 4). Abundance estimates in Sebangau (0.19/km) did not increase with increasing survey effort, but for all species and studies combined, study duration was positively correlated with abundance estimates. We did not find a relation between abundance and body mass, nor between abundance and latitude. Long-term studies are more likely to be conducted at sites where the species of interest is particularly plentiful. The data suggest that slow lorises occur at low abundances throughout much of their range, and some in larger social groups than previously assumed. We recommend taking into account the species’ heterogeneous distribution (potentially requiring larger survey effort), their social structure, the use of red lights as opposed to white lights whilst surveying, and to make use of their vocalisations when surveying slow lorises.     

Systematics of tarsiers and lorises

It seems probable that there are more species (in the sense of sharply diagnosable entities) than hitherto recognized among small Asian primates, and contrasting to some degree with larger-sized taxa. This presumably relates to their lesser vagility and consequent reduced potential for gene-flow. Even where some gene-flow can be demonstrated, as betweenNycticebus coucang andN. bengalensis, this appears to be very limited and does not affect the essential homogeneity and diagnosability of the two taxa. The biogeographic implications of the taxonomic findings of this study are noteworthy. They confirm the distinctness of Sulawesi in contrast to a Sundaland/southern Philippines link (Tarsius); the separation of the Indochinese and Sundaic faunal subregions (Nycticebus); and the uniqueness of the Sri Lankan “wet zone” (Loris). Much more work needs to be done on all three genera, but their great taxonomic interest, indicating much greater complexity than previously assumed, is apparent.     

Studies on the chromosomes of genusNycticebus

The karyotypes of three species (N. coucang, N. intermedius, andN. pygmaeus) of genusNycticebus, collected from the southern Yunnan of China, have been studied. All individuals from three species possess 2n=50 chromosomes, and all chromosomes in their complement are biarm chromosomes. The karyotype of slow loris (N. coucang) is characterized by having a secondary constriction and Ag-NORs in the short arms of pair No. 1. The G-banding patterns of three species are very similar. Three species are found to have multiple Ag-NORs. InN. coucang, NORs were observed on five pairs (Nos. 1, 6, 9, 15, and 23) and inN. intermedius andN. pygmaeus, NORs were found on four pairs (Nos. 6, 9, 15, and 20). This finding indicates that slow lorises, as primitive primates, also have multiple NOR-bearing chromosomes. Finally, the classification of genusNycticebus by karyotype analysis is discussed, and our results suggest that there are at least two valid species, namely:N. coucang andN. pygmaeus.     

Phylogeny of the slow lorises (genusNycticebus): An approach using mitochondrial DNA restriction enzyme analysis

Mitochondrial DNA polymorphisms in 15 specimens of three species of slow lorises-Nycticebus coucang, N. intermedius, andN. pygmaeus-were analyzed in order to study the evolutionary relationships among the species. Eight restriction types were observed in the samples. Phylogenetic trees constructed on the basis of genetic distances showed that the slow lorises sort into two clusters: four types ofN. coucang and three types ofN. intermedius plus one type ofN. pygmaeus. Our results suggest that there are two valid species in the genusNycticebus-N. coucang, andN. pygmaeus-and thatN. intermedius should be included withinN. pygmaeus. Divergence between the two species may have begun 2.7 Ma (million years ago). Evolution of gross morphology, chromosomes, and mitochondrial DNA in the slow lorises appears to be concordant.     

Ecological niche modelling as a technique for assessing threats and setting conservation priorities for Asian slow lorises (Primates: Nycticebus)

Aim Data on geographical ranges are essential when defining the conservation status of a species, and in evaluating levels of human disturbance. Where locality data are deficient, presence‐only ecological niche modelling (ENM) can provide insights into a species’ potential distribution, and can aid in conservation planning. Presence‐only ENM is especially important for rare, cryptic and nocturnal species, where absence is difficult to define. Here we applied ENM to carry out an anthropogenic risk assessment and set conservation priorities for three threatened species of Asian slow loris (Primates: Nycticebus). Location Borneo, Java and Sumatra, Southeast Asia. Methods Distribution models were built using maximum entropy (MaxEnt) ENM. We input 20 environmental variables comprising temperature, precipitation and altitude, along with species locality data. We clipped predicted distributions to forest cover and altitudinal data to generate remnant distributions. These were then applied to protected area (PA) and human land‐use data, using specific criteria to define low‐, medium‐ or high‐risk areas. These data were analysed to pinpoint priority study sites, suitable reintroduction zones and protected area extensions. Results A jackknife validation method indicated highly significant models for all three species with small sample sizes (n = 10 to 23 occurrences). The distribution models represented high habitat suitability within each species’ geographical range. High‐risk areas were most prevalent for the Javan slow loris (Nycticebus javanicus) on Java, with the highest proportion of low‐risk areas for the Bornean slow loris (N. menagensis) on Borneo. Eighteen PA extensions and 23 priority survey sites were identified across the study region. Main conclusions Discriminating areas of high habitat suitability lays the foundations for planning field studies and conservation initiatives. This study highlights potential reintroduction zones that will minimize anthropogenic threats to animals that are released. These data reiterate the conclusion of previous research, showing MaxEnt is a viable technique for modelling species distributions with small sample sizes.     

从D环和细胞色素b基因序列探讨懒猴属的分子系统发育关系(英文)

本研究测定了懒猴属(Nycticebus)D环的部分序列和细胞色素b基因的全序列(1140bp),分析了该属物种之间的系统发育进化关系。在DNA水平上,序列分析结果一致地提供了新的分类学证据：支持Rataiszczak和Groves的观点,即N．intermedus只是N．pygmaeus的成体(Ratajszczak,1998;Groves,1971)。对两种序列的数据做了联合及个别分析,获得相似的系统树,支持懒猴属由两个单系群组成：第一群由N．pygmaeus聚成,第二群由N．coucang聚成。该结果也提供了新的分子遗传证据,支持懒猴属由N．coucang和N．pygmaeus两物种组成。     

Aposematic signaling and seasonal variation in dorsal pelage in a venomous mammal

In mammals, colouration patterns are often related to concealment, intraspecific communication, including aposematic signals, and physiological adaptations. Slow lorises (Nycticebus spp.) are arboreal primates native to Southeast Asia that display stark colour contrast, are highly territorial, regularly enter torpor, and are notably one of only seven mammal taxa that possess venom. All slow loris species display a contrasting stripe that runs cranial‐caudally along the median sagittal plane of the dorsum. We examine whether these dorsal markings facilitate background matching, seasonal adaptations, and intraspecific signaling. We analyzed 195 images of the dorsal region of 60 Javan slow loris individuals (Nycticebus javanicus) from Java, Indonesia. We extracted greyscale RGB values from dorsal pelage using ImageJ software and calculated contrast ratios between dorsal stripe and adjacent pelage in eight regions. We assessed through generalized linear mixed models if the contrast ratio varied with sex, age, and seasonality. We also examined whether higher contrast was related to more aggressive behavior or increased terrestrial movement. We found that the dorsal stripe of N. javanicus changed seasonally, being longer and more contrasting in the wet season, during which time lorises significantly increased their ground use. Stripes were most contrasting in younger individuals of dispersal age that were also the most aggressive during capture. The dorsal stripe became less contrasting as a loris aged. A longer stripe when ground use is more frequent can be related to disruptive colouration. A darker anterior region by younger lorises with less fighting experience may allow them to appear larger and fiercer. We provide evidence that the dorsum of a cryptic species can have multimodal signals related to concealment, intraspecific communication, and physiological adaptations.     

蜂猴属（Nycticebus）D-loop控制区和Cyt b基因遗传学研究

测定了蜂猴属线粒体DNA中的D-loop控制区部分序列和细胞色素b基因全序列（1140 bp）,对其变异情况进行了分析,并采用Mega 4.0软件中构建了分子系统树。无论是基于D-loop控制区部分序列构建的系统树,还是基于细胞色素b基因序列构建的分子系统树的拓扑结构图,都清晰地表明蜂猴属由两个分支组成,分支置信度较高,一支由N．pygmaeus聚成,另一支由N．coucang聚成,即支持蜂猴属由N．coucang和N．pygmaeus两物种组成。     

Slow Lorises (<Emphasis Type="Italic">Nycticebus</Emphasis> spp.) Really Are Slow: a Study of Food Passage Rates

The characteristics of food ingested by a primate affect its assimilation of energy by modulating food passage rate. In general, digestive time increases in folivorous primates and decreases in frugivorous primates when they are fed higher fiber diets but this relationship is understudied in exudativorous primates. We compared the food passage rate of five slow loris species. We studied 34 wild-caught slow lorises (15 Nycticebus coucang, 15 N. javanicus, and 4 N. menegensis) in an Indonesian rescue center and four captive-born slow lorises (2 N. bengalensis and 2 N. pygmaeus) in a UK institution. We fed the Indonesian subjects two different diets: a captive-type diet comprising fruits, vegetables, and insects and a wild-type diet formulated to be similar in nutrients to that consumed by slow lorises in the wild, consisting of gum, insects, vegetables, and nectar. We fed the UK subjects a diet of gum, vegetables, insects, and hard-boiled eggs. We formulated this diet to mimic the wild diet, with notably higher fiber fractions and lower soluble sugars than the previous diet. We measured two variables: the transit time (TT) and the mean retention time (MRT). We mixed 1 tsp. of glitter in bananas or gum as our markers and fed them to the slow lorises immediately before their main diet. We noted the date and time of feeding and of appearances of the marker in feces. We weighed food given and left over for each individual to calculate ingested foods and nutrients. We found that TTs were not affected by diet treatment but MRTs were significantly longer for all species fed the wild-type diet. Our results show that Nycticebus spp. have long MRTs for their body weight, and N. pygmdaeus may have the slowest MRT of all primates in relation to body mass. The digestive flexibility of exudativorous primates should allow them to maximize fermentation opportunities when they ingest more (appropriate) fiber by increasing the amount of time the fiber substrate stays in the large intestine. Exudativorous primates appear to have plastic digestive strategies that may be an adaptation to cope with relatively nutrient-poor staple food sources such as gum. The provision of gum in a captive setting may therefore provide benefits for gut health in slow lorises.     

Proportions and variability in the Indian lorises: Bone weight observations onLoris tardigradus lydekkerianus andNycticebus coucang

Thirty uniformly prepared, disarticulated complete skeletons of adultLoris tardigradus lydekkerianus andNycticebus coucang have been weighed for preliminary study of the weight relations between different major skeletal parts. In these forms, combined relative weight of the precaudal vertebrae, ribs and sternum surpasses the averages for the rest of the skeletal parts. The weight of the skull equals one-fifth of the total skeletal weight inLoris andNycticebus. The weight of the skeletons of the limbs (including the shoulder girdle and the hip bones) contributes less than half of the total skeletal weight in lorises. The bones of the upper limbs are lighter than those of the lower limbs in the 2 series examined.Loris andNycticebus are distinguished by having the proportionately heaviest axial skeleton and skull and the lowest relative weights of the bones of the 4 limbs. The combined relative skeletal weight of the upper and lower limbs ranges between 45.34 and 50.01 inLoris andNycticebus. The relative weight of the skeletons of the hands and feet are almost similar to the corresponding weights in the 2 series.As far as the weights of the different skeletal parts are concerned, there is no relative asymmetry in the 2 series ofLoris andNycticebus examined.     

Protein polymorphism and genetic divergence in slow loris (genusNycticebus)

In this study, protein electrophoresis was assayed to detect genetic variation in GenusNycticebus. A total of 29 samples (2N. coucang and 27N. pygmaeus) were analyzed for 42 genetic loci. In the 27 samples ofN. pygmaeus, 4 loci were observed to be polymerphic. Therefore, the estimatedP value (proportion of polymorphic loci) is 0.095, theA value (average number of alleles each locus) is 1.045, and theH value (mean individual heterozygosity) is 0.040. After comparing theH ofN. pygmaeus with those of other primates reported, we found that the protein variation inN. pygmaeus is slightly lower than the average level. Additionally, we also observed obivious allele difference betweenN. pygmaeus andN. coucang. There are no shared alleles between these two species in eight loci. TheNei's genetic distance between them was calculated as 0.2541, which falls in the spectrum of genetic difference between species in primates.     

A Survey of Husbandry Practices for Lorisid Primates in North American Zoos and Related Facilities

Zoos and related facilities in North America currently manage five species in the primate family Lorisidae: the greater (Nycticebus coucang), Bengal (N. bengalensis) and pygmy (N. pygmaeus) slow lorises, red slender loris (Loris tardigradus), and potto (Perodicticus potto). We used an online survey to describe institutional housing and husbandry practices for these species and assess the extent to which practices are consistent with established guidelines. Our results show that most captive lorisids are housed solitarily or in pairs. Most individuals occupy a single exhibit space in a building dedicated to nocturnal animals. Facilities are commonly meeting recommendations for abiotic exhibit design and are providing animals with an enriched environment. However, pottos and slender lorises currently occupy exhibit spaces smaller than the recommended minimum, and the impact of cleaning protocols on olfactory communication should be critically evaluated. Few facilities are taking advantage of the benefits of positive reinforcement training for promoting animal welfare. Research is greatly needed on the effects of exhibit lighting on behavior, health, and reproduction; and to determine how best to manage the social needs of lorisids with naturally dispersed social structures. Although captive populations of slender lorises, pottos, and slow lorises are declining, we suggest that improved husbandry knowledge has the potential to positively influence population sustainability and to enhance future efforts to manage the growing pygmy loris population. Zoo Biol. 32:88‐100, 2013. © 2012 Wiley Periodicals, Inc.     

Milk composition reflects pattern of material care in prosimian primates

Hypothesized relationships between milk composition and life history traits were examined by analyzing mid-lactation milks of seven lemurs (Eulemur fulvus, E. macaco, E. rubriventer, E. mongoz, Varecia variegata, Hapalemur griseus, Lemur catta), three bushbabies (Otolemur crassicaudatus, O. garnettii, Galago moholi), and two lorises (Nycticebus coucang, Loris tardigradus); partial data were also obtained for the lemuroid Cheirogaleus medius. There were significant differences in milk composition among species within either Eulemur or Otolemur, but the four genera for which multiple samples were available (Eulemur, Varecia, Otolemur, and Nycticebus) exhibited large composition differences. Eulemur milk was, on average, very dilute (9.9% dry matter) and low in energy (0.49 kcal/g). These milks contained 0.9% fat, 1.2% protein, and 8.4% carbohydrate on a fresh weight basis. Protein energy comprised only about 15% of total milk energy. Varecia had significantly higher dry matter (13.5%), fat (3.2%), protein (4.2%), gross energy (0.80 kcal/g), and protein energy: total energy ratio (28%) than Eulemur. Milks of the lorisoid genera Otolemur and Nycticebus were very similar, and both had significantly higher dry matter (18.3, 16.3%), fat (7.6, 7.0%), and gross energy concentration (1.27, 1.13 kcal/g) than either lemuroid genus. Otolemur milk was higher in protein than Nycticebus milk. We conclude that lorises, bushbabies, and perhaps cheirogaleids produce relatively rich, energy-dense milks in comparison with anthropoid primates. However, dilute milks appear to be uniformly found among species of Eulemur and perhaps in Lemur catta. The milk of Varecia (and perhaps Hapalemur) is intermediate in composition. Differences in milk composition among prosimians may be related to differences in maternal care: prosimians that carry their young during lactation produce more dilute milks than do species which leave their young unattended for prolonged periods. When looking at primates as a whole, however, the picture is somewhat less clear, since the milks of some “parkers” like Varecia do closely resemble those of large anthropoid primates who carry their young. Am. J. Primatol. 41:195–211, 1997. © 1997 Wiley-Liss, Inc.     

Mitochondrial Sequences as Indicators of Genetic Classification in Bush Babies

Systematic relationships among the African bush babies are not well understood. Various generic designations are currently in use. Some authors refer all species to a single genus (Galago), while others recognize 4 genera. Phylogenetic reconstructions based on morphology, karyology, allozymes and vocal repertoires have generated inconsistent hypotheses of relationship. We analyzed partial sequences of three mitochondrial genes (270 bp from cytochrome b, 387 bp from 12S rRNA, and 241 bp from 16S rRNA, total 898 bp) to resolve some uncertainties. We sampled taxa from each of three genera: Galagoides alleni, G. demidoff and G. zanzibaricus; Galago senegalensis, G. gallarum and G. moholi; and Otolemur crassicaudatus and O. garnettii. Outgroup taxa were Asian lorises: Nycticebus coucang and Loris tardigradus. We analyzed sequences separately and in combination, and modeled phylogenies using maximum parsimony, weighted parsimony, neighbor-joining and maximum-likelihood. We obtained some variation in phylogenetic inference depending on sequence and analytical method, but the results also gave strong phylogenetic signals. The lesser bush babies invariably formed a clade, showing evidence of very recent radiation. The greater bush babies also formed a clade, marked by somewhat greater interspecific genetic distances, which was allied with Galagoides alleni in most instances. Galagoides demidoff and G. zanzibaricus are not closely related, though both diverged early in the history of the group. A genus comprising Galagoides alleni, G. demidoff and G. zanzibaricus is not supported by our data. The most likely alliance for Galagoides alleni is within the genus Otolemur. Of the three partial sequences employed in the study, 16S rRNA gave the most consistent results, while cytochrome b was least informative.     

Eastern limit of distribution of the slow loris,Nycticebus coucang

The easternmost known record of the slow loris,Nycticebus coucang, is Tawitawi, Philippines. A report of this species in Mindanao, 500 km northeast of Tawitawi, is based on a mislabeled specimen.     

Asymmetries of the long bones of the limbs and of the clavicles in Indian Lorises

Eighteen adult skeletons ofLoris tardigradus lydekkerianus (4 males and 4 females) andNycticebus coucang (6 males and 4 females) have been studied for the asymmetries in the long bones of the limbs and of the clavicles. The bones of the upper extremity are longer in the right inLoris andNycticebus. Asymmetry favours the right side more inLoris than inNycticebus regarding the thigh bone and the total length of the lower extremity. Lorises do not essentially differ from the other primates including man, regarding the asymmetries of the lower extremities as they do in regard to the asymmetries of the upper extremities.Averages of the percentage asymmetries are higher in females than in males. Cases of symmetry are rarer in clavicles (0%) than in the other bones of the upper and lower extremities ofLoris andNycticebus but they do favour radius inNycticebus (45%) alone. There are no significant sex differences in the 2 series in the distribution of the asymmetries.The average of the degrees in which the lengths of the corresponding limb bones are unequal on the 2 sides of the body are approximately the same inLoris (0.78),Hylobatidae (0.70) and the great apes (0.72) with regard to the upper extremities. In the lower extremities, however, these degrees including those in man (0.63) and the macaque (0.61), excepting inHylobatidae (0.86) are practically the same as inNycticebus (0.61) while much higher than those inLoris (0.43).This investigation forms a part of the main research programme based on the anatomical and metrical data, on the Indian Lorises, conducted under the aegis of the Council of Scientific and Industrial Research, New Delhi, during the years 1962–65.This paper was presented before the section of Anthropology and Archaeology of the Indian Science Congress Association at its 54th annual session held at Hyderabad in January 3–9, 1967.     

懒猴属的核糖体DNA变异及其种间分化关系

用１５种限制性内切酶和人２８Ｓ、１８ＳｒＤＮＡ探针构建了懒猴属各物种核糖体ＤＮＡ重复单位的限制性内切酶图谱。在进化速率较高的非转录间隔区,在大、中、小懒猴中分别定位了２３、２４、２４个酶切位点。大懒猴与中懒猴有１２个位点不同,与小懒猴有１４个位点不同,而中、小懒猴间则只有一个位点的差异。经过计算,大懒猴与中懒猴的遗传距离值为１２．６５％,与小懒猴的差异为１４．２４％,中、小懒猴间的差异则仅为０．７