Your search keyword '"Lemur classification"' showing total 54 results

1. Mid-Cenozoic climate change, extinction, and faunal turnover in Madagascar, and their bearing on the evolution of lemurs.

Author

Godfrey LR, Samonds KE, Baldwin JW, Sutherland MR, Kamilar JM, and Allfisher KL

Subjects

Animals, Madagascar, Phylogeny, Biological Evolution, Climate Change, Extinction, Biological, Fossils, Lemur classification

Abstract

Background: Was there a mid-Cenozoic vertebrate extinction and recovery event in Madagascar and, if so, what are its implications for the evolution of lemurs? The near lack of an early and mid-Cenozoic fossil record on Madagascar has inhibited direct testing of any such hypotheses. We compare the terrestrial vertebrate fauna of Madagascar in the Holocene to that of early Cenozoic continental Africa to shed light on the probability of a major mid-Cenozoic lemur extinction event, followed by an "adaptive radiation" or recovery. We also use multiple analytic approaches to test competing models of lemur diversification and the null hypothesis that no unusual mid-Cenozoic extinction of lemurs occurred., Results: Comparisons of the terrestrial vertebrate faunas of the early Cenozoic on continental Africa and Holocene on Madagascar support the inference that Madagascar suffered a major mid-Cenozoic extinction event. Evolutionary modeling offers some corroboration, although the level of support varies by phylogeny and model used. Using the lemur phylogeny and divergence dates generated by Kistler and colleagues, RPANDA and TESS offer moderate support for the occurrence of unusual extinction at or near the Eocene-Oligocene (E-O) boundary (34 Ma). TreePar, operating under the condition of obligate mass extinction, found peak diversification at 31 Ma, and low probability of survival of prior lineages. Extinction at the E-O boundary received greater support than other candidate extinctions or the null hypothesis of no major extinction. Using the lemur phylogeny and divergence dates generated by Herrera & Dàvalos, evidence for large-scale extinction diminishes and its most likely timing shifts to before 40 Ma, which fails to conform to global expectations., Conclusions: While support for large-scale mid-Cenozoic lemur extinction on Madagascar based on phylogenetic modeling is inconclusive, the African fossil record does provide indirect support. Furthermore, a major extinction and recovery of lemuriforms during the Eocene-Oligocene transition (EOT) would coincide with other major vertebrate extinctions in North America, Europe, and Africa. It would suggest that Madagascar's lemurs were impacted by the climate shift from "greenhouse" to "ice-house" conditions that occurred at that time. This could, in turn, help to explain some of the peculiar characteristics of the lemuriform clade.

Published

2020

2. Unusual sequence characteristics of human chromosome 19 are conserved across 11 nonhuman primates.

Author

Harris RA, Raveendran M, Worley KC, and Rogers J

Subjects

Animals, Base Composition, Base Sequence, Chromosomes genetics, CpG Islands, DNA Methylation, Dinucleoside Phosphates genetics, Genome, Humans, Lemur classification, Lemur genetics, Mice, Multigene Family, Phylogeny, Promoter Regions, Genetic genetics, Regulatory Sequences, Nucleic Acid genetics, Chromosomes, Human, Pair 19 genetics, Conserved Sequence genetics, Primates classification, Primates genetics

Abstract

Background: Human chromosome 19 has many unique characteristics including gene density more than double the genome-wide average and 20 large tandemly clustered gene families. It also has the highest GC content of any chromosome, especially outside gene clusters. The high GC content and concomitant high content of hypermutable CpG sites raises the possibility chromosome 19 exhibits higher levels of nucleotide diversity both within and between species, and may possess greater variation in DNA methylation that regulates gene expression., Results: We examined GC and CpG content of chromosome 19 orthologs across representatives of the primate order. In all 12 primate species with suitable genome assemblies, chromosome 19 orthologs have the highest GC content of any chromosome. CpG dinucleotides and CpG islands are also more prevalent in chromosome 19 orthologs than other chromosomes. GC and CpG content are generally higher outside the gene clusters. Intra-species variation based on SNPs in human common dbSNP, rhesus, crab eating macaque, baboon and marmoset datasets is most prevalent on chromosome 19 and its orthologs. Inter-species comparisons based on phyloP conservation show accelerated nucleotide evolution for chromosome 19 promoter flanking and enhancer regions. These same regulatory regions show the highest CpG density of any chromosome suggesting they possess considerable methylome regulatory potential., Conclusions: The pattern of high GC and CpG content in chromosome 19 orthologs, particularly outside gene clusters, is present from human to mouse lemur representing 74 million years of primate evolution. Much CpG variation exists both within and between primate species with a portion of this variation occurring in regulatory regions.

Published

2020

3. A digital collection of rare and endangered lemurs and other primates from the Duke Lemur Center.

Author

Yapuncich GS, Kemp AD, Griffith DM, Gladman JT, Ehmke E, and Boyer DM

Subjects

Animals, Conservation of Natural Resources, Databases, Factual, Galago anatomy & histology, Galago classification, Imaging, Three-Dimensional, Libraries, Digital, Lorisidae anatomy & histology, Lorisidae classification, Madagascar, North Carolina, Phylogeny, Species Specificity, Universities, X-Ray Microtomography, Endangered Species, Lemur anatomy & histology, Lemur classification, Strepsirhini anatomy & histology, Strepsirhini classification

Abstract

Scientific study of lemurs, a group of primates found only on Madagascar, is crucial for understanding primate evolution. Unfortunately, lemurs are among the most endangered animals in the world, so there is a strong impetus to maximize as much scientific data as possible from available physical specimens. MicroCT scanning efforts at Duke University have resulted in scans of more than 100 strepsirrhine cadavers representing 18 species from the Duke Lemur Center. An error study of the microCT scanner recovered less than 0.3% error at multiple resolution levels. Scans include specimen overviews and focused, high-resolution selections of complex anatomical regions (e.g., cranium, hands, feet). Scans have been uploaded to MorphoSource, an online digital repository for 3D data. As captive (but free ranging) individuals, these specimens have a wealth of associated information that is largely unavailable for wild populations, including detailed life history data. This digital collection maximizes the information obtained from rare and endangered animals with minimal degradation of the original specimens., Competing Interests: The authors have declared that no competing interests exist.

Published

2019

4. Genetic variation at MHC class II loci influences both olfactory signals and scent discrimination in ring-tailed lemurs.

Author

Grogan KE, Harris RL, Boulet M, and Drea CM

Subjects

Animals, DNA Mutational Analysis, Female, Genetic Variation, Genotype, Lemur classification, Lemur psychology, Male, Odorants analysis, Pheromones, Signal Transduction, Smell, HLA-DR beta-Chains genetics, Lemur genetics

Abstract

Background: Diversity at the Major Histocompatibility Complex (MHC) is critical to health and fitness, such that MHC genotype may predict an individual's quality or compatibility as a competitor, ally, or mate. Moreover, because MHC products can influence the components of bodily secretions, an individual's body odors may signal its MHC composition and influence partner identification or mate choice. Here, we investigated MHC-based signaling and recipient sensitivity by testing for odor-gene covariance and behavioral discrimination of MHC diversity and pairwise dissimilarity in a strepsirrhine primate, the ring-tailed lemur (Lemur catta)., Methods: First, we coupled genotyping of the MHC class II gene, DRB, with gas chromatography-mass spectrometry of genital gland secretions to investigate if functional genetic diversity is signaled by the chemical diversity of lemur scent secretions. We also assessed if the chemical similarity between individuals correlated with their MHC-DRB similarity. Next, we assessed if lemurs discriminated this chemically encoded, genetic information in opposite-sex conspecifics., Results: We found that both sexes signaled overall MHC-DRB diversity and pairwise MHC-DRB similarity via genital secretions, but in a sex- and season-dependent manner. Additionally, the sexes discriminated absolute and relative MHC-DRB diversity in the genital odors of opposite-sex conspecifics, suggesting that lemur genital odors function to advertise genetic quality., Conclusions: In summary, genital odors of ring-tailed lemurs provide honest information about an individual's absolute and relative MHC quality. Complementing evidence in humans and Old World monkeys, we suggest that reliance on scent signals to communicate MHC quality may be important across the primate lineage.

Published

2019

5. Shared evolutionary origin of major histocompatibility complex polymorphism in sympatric lemurs.

Author

Kaesler E, Kappeler PM, Brameier M, Demeler J, Kraus C, Rakotoniaina JH, Hämäläinen AM, and Huchard E

Subjects

Alleles, Animals, Helminths, Lemur parasitology, Polymorphism, Genetic, Selection, Genetic, Evolution, Molecular, Genes, MHC Class II, Lemur classification, Sympatry

Abstract

Genes of the major histocompatibility complex (MHC) play a central role in adaptive immune responses of vertebrates. They exhibit remarkable polymorphism, often crossing species boundaries with similar alleles or allelic motifs shared across species. This pattern may reflect parallel parasite-mediated selective pressures, either favouring the long maintenance of ancestral MHC allelic lineages across successive speciation events by balancing selection ("trans-species polymorphism"), or alternatively favouring the independent emergence of functionally similar alleles post-speciation via convergent evolution. Here, we investigate the origins of MHC similarity across several species of dwarf and mouse lemurs (Cheirogaleidae). We examined MHC class II variation in two highly polymorphic loci (DRB, DQB) and evaluated the overlap of gut-parasite communities in four sympatric lemurs. We tested for parasite-MHC associations across species to determine whether similar parasite pressures may select for similar MHC alleles in different species. Next, we integrated our MHC data with those previously obtained from other Cheirogaleidae to investigate the relative contribution of convergent evolution and co-ancestry to shared MHC polymorphism by contrasting patterns of codon usage at functional vs. neutral sites. Our results indicate that parasites shared across species may select for functionally similar MHC alleles, implying that the dynamics of MHC-parasite co-evolution should be envisaged at the community level. We further show that balancing selection maintaining trans-species polymorphism, rather than convergent evolution, is the primary mechanism explaining shared MHC sequence motifs between species that diverged up to 30 million years ago., (© 2017 John Wiley & Sons Ltd.)

Published

2017

6. Phylogeny and Divergence Times of Lemurs Inferred with Recent and Ancient Fossils in the Tree.

Author

Herrera JP and Dávalos LM

Subjects

Animals, Lemur anatomy & histology, Lemur genetics, Madagascar, Time, Fossils, Lemur classification, Phylogeny

Abstract

Paleontological and neontological systematics seek to answer evolutionary questions with different data sets. Phylogenies inferred for combined extant and extinct taxa provide novel insights into the evolutionary history of life. Primates have an extensive, diverse fossil record and molecular data for living and extinct taxa are rapidly becoming available. We used two models to infer the phylogeny and divergence times for living and fossil primates, the tip-dating (TD) and fossilized birth-death process (FBD). We collected new morphological data, especially on the living and extinct endemic lemurs of Madagascar. We combined the morphological data with published DNA sequences to infer near-complete (88% of lemurs) time-calibrated phylogenies. The results suggest that primates originated around the Cretaceous-Tertiary boundary, slightly earlier than indicated by the fossil record and later than previously inferred from molecular data alone. We infer novel relationships among extinct lemurs, and strong support for relationships that were previously unresolved. Dates inferred with TD were significantly older than those inferred with FBD, most likely related to an assumption of a uniform branching process in the TD compared with a birth-death process assumed in the FBD. This is the first study to combine morphological and DNA sequence data from extinct and extant primates to infer evolutionary relationships and divergence times, and our results shed new light on the tempo of lemur evolution and the efficacy of combined phylogenetic analyses., (© The Author(s) 2016. Published by Oxford University Press, on behalf of the Society of Systematic Biologists. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2016

7. Genomic analysis reveals hidden biodiversity within colugos, the sister group to primates.

Author

Mason VC, Li G, Minx P, Schmitz J, Churakov G, Doronina L, Melin AD, Dominy NJ, Lim NT, Springer MS, Wilson RK, Warren WC, Helgen KM, and Murphy WJ

Subjects

Animals, Biodiversity, Chiroptera classification, High-Throughput Nucleotide Sequencing, Lemur classification, Molecular Sequence Annotation, Primates classification, Chiroptera genetics, Genome, Lemur genetics, Phylogeny, Primates genetics

Abstract

Colugos are among the most poorly studied mammals despite their centrality to resolving supraordinal primate relationships. Two described species of these gliding mammals are the sole living members of the order Dermoptera, distributed throughout Southeast Asia. We generated a draft genome sequence for a Sunda colugo and a Philippine colugo reference alignment, and used these to identify colugo-specific genetic changes that were enriched in sensory and musculoskeletal-related genes that likely underlie their nocturnal and gliding adaptations. Phylogenomic analysis and catalogs of rare genomic changes overwhelmingly support the contested hypothesis that colugos are the sister group to primates (Primatomorpha), to the exclusion of treeshrews. We captured ~140 kb of orthologous sequence data from colugo museum specimens sampled across their range and identified large genetic differences between many geographically isolated populations that may result in a >300% increase in the number of recognized colugo species. Our results identify conservation units to mitigate future losses of this enigmatic mammalian order.

Published

2016

8. Female rule in lemurs is ancestral and hormonally mediated.

Author

Petty JM and Drea CM

Subjects

Animals, Behavior, Animal, Female, Male, Sex Factors, Testosterone blood, Lemur classification, Social Dominance

Abstract

Female social dominance (FSD) over males is unusual in mammals, yet characterizes most Malagasy lemurs, which represent almost 30% of all primates. Despite its prevalence in this suborder, both the evolutionary trajectory and proximate mechanism of FSD remain unclear. Potentially associated with FSD is a suite of behavioural, physiological and morphological traits in females that implicates (as a putative mechanism) 'masculinization' via androgen exposure; however, relative to conspecific males, female lemurs curiously show little evidence of raised androgen concentrations. By observing mixed-sex pairs of related Eulemur species, we identified two key study groups--one comprised of species expressing FSD and increased female scent marking, the other comprised of species (from a recently evolved clade) showing equal status between the sexes and the more traditional pattern of sexually dimorphic behaviour. Comparing females from these two groups, we show that FSD is associated with more masculine androgen profiles. Based on the widespread prevalence of male-like features in female lemurs and a current phylogeny, we suggest that relaxation of hormonally mediated FSD emerged only recently and that female masculinization may be the ancestral lemur condition, an idea that could revolutionize our understanding of the ancient socioecology and evolution of primate social systems.

Published

2015

9. Comparative and population mitogenomic analyses of Madagascar's extinct, giant 'subfossil' lemurs.

Author

Kistler L, Ratan A, Godfrey LR, Crowley BE, Hughes CE, Lei R, Cui Y, Wood ML, Muldoon KM, Andriamialison H, McGraw JJ, Tomsho LP, Schuster SC, Miller W, Louis EE, Yoder AD, Malhi RS, and Perry GH

Subjects

Animals, DNA analysis, DNA genetics, Fossils, Madagascar, Phylogeny, Body Size genetics, Body Size physiology, Extinction, Biological, Genomics methods, Lemur classification, Lemur genetics, Lemur physiology, Paleontology methods

Abstract

Humans first arrived on Madagascar only a few thousand years ago. Subsequent habitat destruction and hunting activities have had significant impacts on the island's biodiversity, including the extinction of megafauna. For example, we know of 17 recently extinct 'subfossil' lemur species, all of which were substantially larger (body mass ∼11-160 kg) than any living population of the ∼100 extant lemur species (largest body mass ∼6.8 kg). We used ancient DNA and genomic methods to study subfossil lemur extinction biology and update our understanding of extant lemur conservation risk factors by i) reconstructing a comprehensive phylogeny of extinct and extant lemurs, and ii) testing whether low genetic diversity is associated with body size and extinction risk. We recovered complete or near-complete mitochondrial genomes from five subfossil lemur taxa, and generated sequence data from population samples of two extinct and eight extant lemur species. Phylogenetic comparisons resolved prior taxonomic uncertainties and confirmed that the extinct subfossil species did not comprise a single clade. Genetic diversity estimates for the two sampled extinct species were relatively low, suggesting small historical population sizes. Low genetic diversity and small population sizes are both risk factors that would have rendered giant lemurs especially susceptible to extinction. Surprisingly, among the extant lemurs, we did not observe a relationship between body size and genetic diversity. The decoupling of these variables suggests that risk factors other than body size may have as much or more meaning for establishing future lemur conservation priorities., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published

2015

10. True lemurs…true species - species delimitation using multiple data sources in the brown lemur complex.

Author

Markolf M, Rakotonirina H, Fichtel C, von Grumbkow P, Brameier M, and Kappeler PM

Subjects

Animals, Biological Evolution, DNA, Mitochondrial genetics, Female, Lemur anatomy & histology, Lemuridae genetics, Madagascar, Male, Phylogeny, Principal Component Analysis, Vocalization, Animal, Lemur classification, Lemur genetics

Abstract

Background: Species are the fundamental units in evolutionary biology. However, defining them as evolutionary independent lineages requires integration of several independent sources of information in order to develop robust hypotheses for taxonomic classification. Here, we exemplarily propose an integrative framework for species delimitation in the "brown lemur complex" (BLC) of Madagascar, which consists of seven allopatric populations of the genus Eulemur (Primates: Lemuridae), which were sampled extensively across northern, eastern and western Madagascar to collect fecal samples for DNA extraction as well as recordings of vocalizations. Our data base was extended by including museum specimens with reliable identification and locality information for skull shape and pelage color analysis., Results: Between-group analyses of principal components revealed significant heterogeneity in skull shape, pelage color variation and loud calls across all seven populations. Furthermore, post-hoc statistical tests between pairs of populations revealed considerable discordance among different data sets for different dyads. Despite a high degree of incomplete lineage sorting among nuclear loci, significant exclusive ancestry was found for all populations, except for E. cinereiceps, based on one mitochondrial and three nuclear genetic loci., Conclusions: Using several independent lines of evidence, our results confirm the species status of the members of the BLC under the general lineage concept of species. More generally, the present analyses demonstrate the importance and value of integrating different kinds of data in delimiting recently evolved radiations.

Published

2013

11. Group Size Predicts Social but Not Nonsocial Cognition in Lemurs.

Author

Maclean EL, Sandel AA, Bray J, Oldenkamp RE, Reddy RB, and Hare BA

Subjects

Animals, Competitive Behavior, Female, Interpersonal Relations, Lemur classification, Lemur psychology, Male, Behavior, Animal, Cognition, Lemur physiology, Social Behavior

Abstract

The social intelligence hypothesis suggests that living in large social networks was the primary selective pressure for the evolution of complex cognition in primates. This hypothesis is supported by comparative studies demonstrating a positive relationship between social group size and relative brain size across primates. However, the relationship between brain size and cognition remains equivocal. Moreover, there have been no experimental studies directly testing the association between group size and cognition across primates. We tested the social intelligence hypothesis by comparing 6 primate species (total N = 96) characterized by different group sizes on two cognitive tasks. Here, we show that a species' typical social group size predicts performance on cognitive measures of social cognition, but not a nonsocial measure of inhibitory control. We also show that a species' mean brain size (in absolute or relative terms) does not predict performance on either task in these species. These data provide evidence for a relationship between group size and social cognition in primates, and reveal the potential for cognitive evolution without concomitant changes in brain size. Furthermore our results underscore the need for more empirical studies of animal cognition, which have the power to reveal species differences in cognition not detectable by proxy variables, such as brain size.

Published

2013

12. Nocturnal light environments influence color vision and signatures of selection on the OPN1SW opsin gene in nocturnal lemurs.

Author

Veilleux CC, Louis EE Jr, and Bolnick DA

Subjects

Animals, Base Sequence, Environment, Genetics, Population, Humans, Lemur classification, Lemur physiology, Molecular Sequence Data, Phylogeny, Polymorphism, Single Nucleotide, Selection, Genetic, Sequence Alignment, Color Vision genetics, Evolution, Molecular, Gene-Environment Interaction, Lemur genetics, Rod Opsins genetics

Abstract

Although loss of short-wavelength-sensitive (SWS) cones and dichromatic color vision in mammals has traditionally been linked to a nocturnal lifestyle, recent studies have identified variation in selective pressure for the maintenance of the OPN1SW opsin gene (and thus, potentially dichromacy) among nocturnal mammalian lineages. These studies hypothesize that purifying selection to retain SWS cones may be associated with a selective advantage for nocturnal color vision under certain ecological conditions. In this study, we explore the effect of nocturnal light environment on OPN1SW opsin gene evolution in a diverse sample of nocturnal lemurs (106 individuals, 19 species, and 5 genera). Using both phylogenetic and population genetic approaches, we test whether species from closed canopy rainforests, which are impoverished in short-wavelength light, have experienced relaxed selection compared with species from open canopy forests. We identify clear signatures of differential selection on OPN1SW by habitat type. Our results suggest that open canopy species generally experience strong purifying selection to maintain SWS cones. In contrast, closed canopy species experience weaker purifying selection or a relaxation of selection on OPN1SW. We also found evidence of nonfunctional OPN1SW genes in all Phaner species and in Cheirogaleus medius, implying at least three independent losses of SWS cones in cheirogaleids. Our results suggest that the evolution of color vision in nocturnal lemurs has been influenced by nocturnal light environment.

Published

2013

13. Occurrence of Encephalitozoon intestinalis in the Red ruffed lemur (Varecia rubra) and the Ring-tailed lemur (Lemur catta) housed in the Poznan Zoological Garden, Poland.

Author

Słodkowicz-Kowalska A, Majewska AC, Trzesowska E, and Skrzypczak Ł

Subjects

Animals, Feces microbiology, Poland, Species Specificity, Animals, Zoo microbiology, Encephalitozoon isolation & purification, Encephalitozoonosis microbiology, Encephalitozoonosis veterinary, Lemur classification, Lemur microbiology

Abstract

Encephalitozoon intestinalis is one of the most common microsporidial species found in humans worldwide but it has rarely been identified in animals. The presence of this pathogen has been detected in a few species of domestic, captive and wild mammals as well as in three species of birds. The aim of the present study was to examine fecal samples obtained from mammals housed in the Poznan Zoological Garden, Poland, for the presence of potentially human-infectious microsporidia. A total of 339 fresh fecal samples collected from 75 species of mammals belonging to 27 families and 8 orders were examined for the presence of microsporidian spores. Microsporidian spores were identified in 3 out of 339 (0.9%) examined fecal samples. All samples identified as positive by chromotrope 2R and calcofluor white M2R were also positive by the FISH assay. Using multiplex FISH in all 3 fecal samples, only spores of E. intestinalis were identified in 2 out of 14 Ring-tailed lemurs (Lemur catta) and in one out of 17 Red ruffed lemurs (Varecia variegata rubra). To our knowledge this is the first diagnosis of E. intestinalis in Ring-tailed and Red ruffed lemurs. It should be mentioned that both lemur species are listed by the IUCN Red List of Threatened Species. Although the lemurs were asymptomatically infected, the possibility of widespread infection or death of these animals remains in the event of an elevated stress or a decrease in their immunological functions.

Published

2012

14. On species delimitation: yet another lemur species or just genetic variation?

Author

Markolf M, Brameier M, and Kappeler PM

Subjects

Animals, Base Sequence, Computer Simulation, DNA, Mitochondrial genetics, Lemur classification, Molecular Sequence Data, Phylogeny, Primates classification, Primates genetics, Genetic Variation, Lemur genetics

Abstract

Background: Although most taxonomists agree that species are independently evolving metapopulation lineages that should be delimited with several kinds of data, the taxonomic practice in Malagasy primates (Lemuriformes) looks quite different. Several recently described lemur species are based solely on evidence of genetic distance and diagnostic characters of mitochondrial DNA sequences sampled from a few individuals per location. Here we explore the validity of this procedure for species delimitation in lemurs using published sequence data., Results: We show that genetic distance estimates and Population Aggregation Analysis (PAA) are inappropriate for species delimitation in this group of primates. Intra- and interspecific genetic distances overlapped in 14 of 17 cases independent of the genetic marker used. A simulation of a fictive taxonomic study indicated that for the mitochondrial D-loop the minimum required number of individuals sampled per location is 10 in order to avoid false positives via PAA., Conclusions: Genetic distances estimates and PAA alone should not be used for species delimitation in lemurs. Instead, several nuclear and sex-specific loci should be considered and combined with other data sets from morphology, ecology or behavior. Independent of the data source, sampling should be done in a way to ensure a quantitative comparison of intra- and interspecific variation of the taxa in question. The results of our study also indicate that several of the recently described lemur species should be reevaluated with additional data and that the number of good species among the currently known taxa is probably lower than currently assumed.

Published

2011

15. Effects of seasonality on brain size evolution: evidence from strepsirrhine primates.

Author

van Woerden JT, van Schaik CP, and Isler K

Subjects

Animals, Body Size, Lemur classification, Lemur physiology, Lorisidae classification, Lorisidae physiology, Organ Size, Phylogeny, Species Specificity, Temperature, Brain anatomy & histology, Lemur anatomy & histology, Lorisidae anatomy & histology, Seasons

Abstract

Seasonal changes in energy supply impose energetic constraints that affect many physiological and behavioral characteristics of organisms. As brains are costly, we predict brain size to be relatively small in species that experience a higher degree of seasonality (expensive brain framework). Alternatively, it has been argued that larger brains give animals the behavioral flexibility to buffer the effects of habitat seasonality (cognitive buffer hypothesis). Here, we test these two hypotheses in a comparative study on strepsirrhine primates (African lorises and Malagasy lemurs) that experience widely varying degrees of seasonality. We found that experienced seasonality is negatively correlated with relative brain size in both groups, controlling for the effect of phylogenetic relationships and possible confounding variables such as the extent of folivory. However, relatively larger-brained lemur species tend to experience less variation in their dietary intake than indicated by the seasonality of their habitat. In conclusion, we found clear support for the hypothesis that seasonality restricts brain size in strepsirrhines as predicted by the expensive brain framework and weak support for the cognitive buffer hypothesis in lemurs.

Published

2010

16. Fossil primate challenges Ida's place.

Author

Dalton R

Subjects

Animals, Egypt, Germany, Hominidae classification, Humans, Skeleton, Species Specificity, Fossils, Lemur classification, Phylogeny

Published

2009

17. Luxury bushmeat trade threatens lemur conservation.

Author

Barrett MA and Ratsimbazafy J

Subjects

Animals, Extinction, Biological, Forestry legislation & jurisprudence, Humans, Madagascar, Population Density, Trees physiology, Zoonoses transmission, Biodiversity, Commerce economics, Conservation of Natural Resources economics, Lemur classification, Meat economics

Published

2009

18. Sociality, ecology, and relative brain size in lemurs.

Author

MacLean EL, Barrickman NL, Johnson EM, and Wall CE

Subjects

Animals, Biological Evolution, Lemur classification, Organ Size, Behavior, Animal, Brain anatomy & histology, Diet, Lemur anatomy & histology, Lemur physiology, Social Behavior

Abstract

The social brain hypothesis proposes that haplorhine primates have evolved relatively large brains for their body size primarily as an adaptation for living in complex social groups. Studies that support this hypothesis have shown a strong relationship between relative brain size and group size in these taxa. Recent reports suggest that this pattern is unique to haplorhine primates; many nonprimate taxa do not show a relationship between group size and relative brain size. Rather, pairbonded social monogamy appears to be a better predictor of a large relative brain size in many nonprimate taxa. It has been suggested that haplorhine primates may have expanded the pairbonded relationship beyond simple dyads towards the evolution of complex social groups. We examined the relationship between group size, pairbonding, and relative brain size in a sample of 19 lemurs; strepsirrhine primates that last share a common ancestor with monkeys and apes approximately 75 Ma. First, we evaluated the social brain hypothesis, which predicts that species with larger social groups will have relatively larger brains. Secondly, we tested the pairbonded hypothesis, which predicts that species with a pairbonded social organization will have relatively larger brains than non-pairbonded species. We found no relationship between group size or pairbonding and relative brain size in lemurs. We conducted two further analyses to test for possible relationships between two nonsocial variables, activity pattern and diet, and relative brain size. Both diet and activity pattern are significantly associated with relative brain size in our sample. Specifically, frugivorous species have relatively larger brains than folivorous species, and cathemeral species have relatively larger brains than diurnal, but not nocturnal species. These findings highlight meaningful differences between Malagasy strepsirrhines and haplorhines, and between Malagasy strepsirrhines and nonprimate taxa, regarding the social and ecological factors associated with increases in relative brain size. The results suggest that factors such as foraging complexity and flexibility of activity patterns may have driven selection for increases in brain size in lemurs.

Published

2009

19. What is it going to be? Pattern and potential function of natal coat change in sexually dichromatic redfronted lemurs (Eulemur fulvus rufus).

Author

Barthold J, Fichtel C, and Kappeler P

Subjects

Animals, Behavior, Animal physiology, Ecosystem, Face anatomy & histology, Female, Germany, Hair Color, Lemur classification, Madagascar, Male, Sex Characteristics, Aging physiology, Lemur anatomy & histology

Abstract

In some primate species, pelage colorations at birth contrast with adult colorations. The intensity of natal coats and their phylogenetic distribution is highly variable within primates. Natal coat coloration seems to change to adult coloration in most species when infants become independent from their mothers, but an accepted functional explanation for natal coats is not available. Here we describe pelage coloration change in sexually dichromatic redfronted lemurs (Eulemur fulvus rufus) in Kirindy Forest, and propose a new functional hypothesis for this phenomenon. In this species, infants are born with adult male coloration and female infants subsequently undergo a change in coloration. Using digital pictures and behavioral data collected on eight mother-offspring dyads from birth until the end of the coloration change, we 1) described timing and pattern of pelage developmentin redfronted lemur infants and 2) examined behavioral developmental correlates of the coloration change. The color change took place between 7 and 17 weeks of age and coincided with advanced physical independence; a pattern also found in monochromatic primate species with natal coats. No behavioral differences between male and female infants were found. Hypotheses about the ultimate function of natal coats focusing on enhanced infant care or reduced infanticide risk did not explain the pelage change in redfronted lemurs. The natal pelage pattern in this species may instead serve as sexual mimicry. Accordingly, female infants may mimic males during the most vulnerable developmental phase to avoid sex-specific aggression by adult females in a species with intense female-female aggression and competition.

Published

2009

20. DNA from extinct giant lemurs links archaeolemurids to extant indriids.

Author

Orlando L, Calvignac S, Schnebelen C, Douady CJ, Godfrey LR, and Hänni C

Subjects

Animals, Bayes Theorem, DNA Primers, Evolution, Molecular, Genetic Speciation, Lemur classification, Madagascar, Models, Genetic, Monte Carlo Method, Phylogeny, Sequence Analysis, DNA, Strepsirhini classification, DNA genetics, Extinction, Biological, Fossils, Lemur genetics, Strepsirhini genetics

Abstract

Background: Although today 15% of living primates are endemic to Madagascar, their diversity was even greater in the recent past since dozens of extinct species have been recovered from Holocene excavation sites. Among them were the so-called "giant lemurs" some of which weighed up to 160 kg. Although extensively studied, the phylogenetic relationships between extinct and extant lemurs are still difficult to decipher, mainly due to morphological specializations that reflect ecology more than phylogeny, resulting in rampant homoplasy., Results: Ancient DNA recovered from subfossils recently supported a sister relationship between giant "sloth" lemurs and extant indriids and helped to revise the phylogenetic position of Megaladapis edwardsi among lemuriformes, but several taxa - such as the Archaeolemuridae - still await analysis. We therefore used ancient DNA technology to address the phylogenetic status of the two archaeolemurid genera (Archaeolemur and Hadropithecus). Despite poor DNA preservation conditions in subtropical environments, we managed to recover 94- to 539-bp sequences for two mitochondrial genes among 5 subfossil samples., Conclusion: This new sequence information provides evidence for the proximity of Archaeolemur and Hadropithecus to extant indriids, in agreement with earlier assessments of their taxonomic status (Primates, Indrioidea) and in contrast to recent suggestions of a closer relationship to the Lemuridae made on the basis of analyses of dental developmental and postcranial characters. These data provide new insights into the evolution of the locomotor apparatus among lemurids and indriids.

Published

2008

21. Development and application of a phylogenomic toolkit: resolving the evolutionary history of Madagascar's lemurs.

Author

Horvath JE, Weisrock DW, Embry SL, Fiorentino I, Balhoff JP, Kappeler P, Wray GA, Willard HF, and Yoder AD

Subjects

Animals, Base Sequence, DNA Primers, Evolution, Molecular, Female, Geography, Lemur genetics, Madagascar, Male, Molecular Sequence Data, Polymerase Chain Reaction, Genomics methods, Lemur classification, Phylogeny

Abstract

Lemurs and the other strepsirrhine primates are of great interest to the primate genomics community due to their phylogenetic placement as the sister lineage to all other primates. Previous attempts to resolve the phylogeny of lemurs employed limited mitochondrial or small nuclear data sets, with many relationships poorly supported or entirely unresolved. We used genomic resources to develop 11 novel markers from nine chromosomes, representing approximately 9 kb of nuclear sequence data. In combination with previously published nuclear and mitochondrial loci, this yields a data set of more than 16 kb and adds approximately 275 kb of DNA sequence to current databases. Our phylogenetic analyses confirm hypotheses of lemuriform monophyly and provide robust resolution of the phylogenetic relationships among the five lemuriform families. We verify that the genus Daubentonia is the sister lineage to all other lemurs. The Cheirogaleidae and Lepilemuridae are sister taxa and together form the sister lineage to the Indriidae; this clade is the sister lineage to the Lemuridae. Divergence time estimates indicate that lemurs are an ancient group, with their initial diversification occurring around the Cretaceous-Tertiary boundary. Given the power of this data set to resolve branches in a notoriously problematic area of primate phylogeny, we anticipate that our phylogenomic toolkit will be of value to other studies of primate phylogeny and diversification. Moreover, the methods applied will be broadly applicable to other taxonomic groups where phylogenetic relationships have been notoriously difficult to resolve.

Published

2008

22. Lemurs.

Author

Yoder AD

Subjects

Animals, Biological Evolution, Ecosystem, Madagascar, Species Specificity, Lemur classification, Lemur genetics

Published

2007

23. Unexpected species diversity of Malagasy primates (Lepilemur spp.) in the same biogeographical zone: a morphological and molecular approach with the description of two new species.

Author

Craul M, Zimmermann E, Rasoloharijaona S, Randrianambinina B, and Radespiel U

Subjects

Animals, Genes, Mitochondrial, Lemur genetics, Madagascar, Mutation, Genetic Speciation, Genetic Variation, Lemur classification, Phylogeny

Abstract

Background: The lemurs of Madagascar provide an excellent mammalian radiation to explore mechanisms and processes favouring species diversity and evolution. Species diversity, in particular of nocturnal species, increased considerably during the last decade. However, the factors contributing to this high diversity are not well understood. We tested predictions derived from two existing biogeographic models by exploring the genetic and morphological divergence among populations of a widely distributed lemur genus, the sportive lemur (Lepilemur ssp.) along a 560 km long transect from western to northern Madagascar., Results: By using the phylogenetic analyses of mtDNA sequence data, molecular diagnostic sites and phenotypic morphometric traits, we uncovered two previously undetected species whose distributions contradict the two existing biogeographic models. Brief species descriptions are provided and a new biogeographic model is proposed (the "large river model")., Conclusion: According to the "large river model", large rivers in north and northwestern Madagascar acted as geographical barriers for gene flow and facilitated speciation events on a much smaller spatial scale than previously thought. Thereby, this study does not only show that species diversity in nocturnal Malagasy primates is continuously underestimated but aims to emphasize the need for conservation actions if those species with small ranges shall not face extinction in the near future.

Published

2007

24. Beyond odor discrimination: demonstrating individual recognition by scent in Lemur catta.

Author

Palagi E and Dapporto L

Subjects

Animals, Biological Assay methods, Cluster Analysis, Cues, Female, Lemur classification, Male, Species Specificity, Behavior, Animal physiology, Discrimination Learning physiology, Lemur physiology, Odorants, Smell physiology

Abstract

The current study demonstrates, for the first time, the occurrence of olfactory individual recognition in a nonhuman primate species. The empirical demonstration of recognition systems requires 1) a set of cues produced by the sender (expression component), 2) the perception of these cues by the receiver (perception component), and 3) a functional response by the receiver (action component). On the basis of this framework, we analyzed by gas chromatography 35 brachial secretions collected from 10 males of Lemur catta. Moreover, we performed habituation/discrimination tests to demonstrate the perception component, and we designed a specific bioassay, based on territorial competition, to highlight a functional response to individual odors. We demonstrated that recognition of conspecific odors goes beyond the perception of cues other than individuality (familiarity, kin, season, age, and rank) and that the receiver actually forms a mental representation of a specific individual by its scent.

Published

2006

25. Comparison of serum iron, total iron binding capacity, ferritin, and percent transferrin saturation in nine species of apparently healthy captive lemurs.

Author

Williams CV, Campbell J, and Glenn KM

Subjects

Age Factors, Animal Feed analysis, Animals, Diet veterinary, Female, Iron metabolism, Lemur classification, Male, Reference Values, Species Specificity, Ferritins blood, Iron blood, Lemur blood, Transferrin metabolism

Abstract

Lemurs kept in captivity have been reported to be highly prone to accumulate excessive amounts of iron in tissues (hemosiderosis). Diagnosis of the condition is most commonly made during a postmortem examination because an antemortem diagnosis requires a liver biopsy, a procedure that may not be well tolerated by all animals. The lack of a noninvasive method to evaluate iron status in captive lemurs limits investigators' ability to effectively screen animals for the presence of hemosiderosis, and to detect the condition early when treatment protocols are most effective. This study was conducted in an effort to provide data regarding iron analyte values in healthy captive lemurs of multiple species. The relationship of various iron-related metabolites was evaluated in 177 clinically normal lemurs of nine different species. Serum iron (sI), total iron binding capacity (TIBC), and ferritin concentration were measured directly and the percent transferrin saturation (TS) was calculated. Significant differences in various iron metabolites were observed among several species, suggesting that normal reference values for iron metabolites in lemurs may need to be developed on a species by species basis., (2005 Wiley-Liss, Inc.)

Published

2006

26. A composite molecular phylogeny of living lemuroid primates.

Author

DelPero M, Pozzi L, and Masters JC

Subjects

Animals, Female, Lemur classification, Lemur genetics, Madagascar, Male, Models, Genetic, Trees physiology, Evolution, Molecular, Fossils, Lemuridae classification, Lemuridae genetics, Phylogeny

Abstract

Lemuroid phylogeny is a source of lively debate among primatologists. Reconstructions based on morphological, physiological, behavioural and molecular data have yielded a diverse array of tree topologies with few nodes in common. In the last decade, molecular phylogenetic studies have grown in popularity, and a wide range of sequences has been brought to bear on the problem, but consensus has remained elusive. We present an analysis based on a composite molecular data set of approx. 6,400 bp assembled from the National Center for Biotechnology Information (NCBI) database, including both mitochondrial and nuclear genes, and diverse analytical methods. Our analysis consolidates some of the nodes that were insecure in previous reconstructions, but is still equivocal on the placement of some taxa. We conducted a similar analysis of a composite data set of approx. 3,600 bp to investigate the controversial relationships within the family Lemuridae. Here our analysis was more successful; only the position of Eulemur coronatus remained uncertain., (Copyright 2006 S. Karger AG, Basel.)

Published

2006

27. Ancient DNA from giant extinct lemurs confirms single origin of Malagasy primates.

Author

Karanth KP, Delefosse T, Rakotosamimanana B, Parsons TJ, and Yoder AD

Subjects

Animals, Base Sequence, Cytochromes b genetics, DNA isolation & purification, DNA Primers genetics, Fossils, Lemur classification, Madagascar, Models, Genetic, Molecular Sequence Data, Phylogeny, Polymerase Chain Reaction, Primates classification, Sequence Alignment, DNA genetics, Evolution, Molecular, Lemur genetics, Primates genetics

Abstract

The living Malagasy lemurs constitute a spectacular radiation of >50 species that are believed to have evolved from a common ancestor that colonized Madagascar in the early Tertiary period. Yet, at least 15 additional Malagasy primate species, some of which were relative giants, succumbed to extinction within the past 2,000 years. Their existence in Madagascar is recorded predominantly in its Holocene subfossil record. To rigorously test the hypothesis that all endemic Malagasy primates constitute a monophyletic group and to determine the evolutionary relationships among living and extinct taxa, we have conducted an ancient DNA analysis of subfossil species. A total of nine subfossil individuals from the extinct genera Palaeopropithecus and Megaladapis yielded amplifiable DNA. Phylogenetic analysis of cytochrome b sequences derived from these subfossils corroborates the monophyly of endemic Malagasy primates. Our results support the close relationship of sloth lemurs to living indriids, as has been hypothesized on morphological grounds. In contrast, Megaladapis does not show a sister-group relationship with the living genus Lepilemur. Thus, the classification of the latter in the family Megaladapidae is misleading. By correlating the geographic location of subfossil specimens with relative amplification success, we reconfirm the global trend of increased success rates of ancient DNA recovery from nontropical localities.

Published

2005

28. A molecular approach to comparative phylogeography of extant Malagasy lemurs.

Author

Pastorini J, Thalmann U, and Martin RD

Subjects

Animals, DNA, Mitochondrial genetics, Genetic Variation, Geography, Lemur genetics, Madagascar, Evolution, Molecular, Lemur classification, Phylogeny

Abstract

The lemurs of Madagascar provide an excellent model for exploring evolutionary diversification. This study investigates genetic divergence among most extant lemur taxa in relation to potential geographical boundaries to gene flow. For this purpose, approximately 2,400 bp of mitochondrial DNA (part of the COIII gene; ND3, ND4L, and ND4 genes; and five tRNAs) were sequenced in a total of 131 lemurs from 5 families, 12 genera, 25 species, and 18 subspecies to reconstruct phylogenetic relationships among them. The comprehensive range of taxa makes this a particularly suitable molecular data set to examine lemur evolution. Those data clearly reveal that the Betsiboka River acts as an isolating barrier between populations of lemurs in north-western Madagascar. The Tsiribihina River similarly serves as a barrier to gene flow between northern and southern populations of lemurs in central western Madagascar, whereas the Mahavavy River does not seem to lead to genetic isolation of lemur populations. Several discrepancies among molecular data, current taxonomy, and geographic distribution along the western coast emerged. Examination of geographical distribution of the taxa concerned in comparison with distribution boundaries of other lemur taxa in that region yielded explanations for these inconsistencies. Eulemur fulvus and Eulemur mongoz are the only lemur taxa that also occur outside Madagascar, on the Comoro Islands. Genetic data show no significant differentiation between Malagasy and Comorian populations of these species, supporting the interpretation that both were introduced only recently to the Comoro Islands.

Published

2003

29. Genetic assessment of a white-collared x red-fronted lemur hybrid zone at Andringitra, Madagascar.

Author

Wyner YM, Johnson SE, Stumpf RM, and Desalle R

Subjects

Animals, Biological Evolution, DNA, Mitochondrial genetics, Female, Genetic Variation genetics, Lemur classification, Madagascar, Male, Microsatellite Repeats genetics, Phylogeny, Sequence Analysis, DNA, Species Specificity, Crosses, Genetic, Hybridization, Genetic genetics, Lemur genetics

Abstract

We examined a purported lemur (Eulemur fulvus rufusxE. albocollaris) hybrid zone at Andringitra, Madagascar, using sequences from five genes (one mitochondrial gene (d-loop) and four nuclear introns (hemopexin, malic enzyme, ceruloplasmin, and microsatellite 26 flanking region)), from 60 individuals (E. albocollaris (n = 16), E.f. rufus (n = 14), E. collaris (n = 9), and purported hybrids from Andringitra (n = 21)). Diagnostic (d-loop and microsatellite 26) and private sites (all other genes) were found in all gene regions for E. albocollaris and E.f. rufus. Also, private sites were found for the purported hybrid population in two gene regions (d-loop and ceruloplasmin). When the putative hybrids were examined for diagnostic and private markers, 18 of 21 were found to contain markers from both E. albocollaris and E.f. rufus populations. The remaining three individuals were found to contain only markers for E. albocollaris. These results indicate that the population at Andringitra is a hybrid population between E. albocollaris and E.f. rufus., (Copyright 2002 Wiley-Liss, Inc.)

Published

2002

30. Microbat paraphyly and the convergent evolution of a key innovation in Old World rhinolophoid microbats.

Author

Teeling EC, Madsen O, Van den Bussche RA, de Jong WW, Stanhope MJ, and Springer MS

Subjects

Amino Acid Sequence, Animals, Base Sequence, Evolution, Molecular, Exons, Humans, Lemur classification, Lemur genetics, Molecular Sequence Data, Monte Carlo Method, Phylogeny, Proteins genetics, Shrews classification, Shrews genetics, Biological Evolution, Chiroptera classification, Chiroptera genetics

Abstract

Molecular phylogenies challenge the view that bats belong to the superordinal group Archonta, which also includes primates, tree shrews, and flying lemurs. Some molecular studies also challenge microbat monophyly and instead support an alliance between megabats and representative rhinolophoid microbats from the families Rhinolophidae (horseshoe bats, Old World leaf-nosed bats) and Megadermatidae (false vampire bats). Another molecular study ostensibly contradicts these results and supports traditional microbat monophyly, inclusive of representative rhinolophoids from the family Nycteridae (slit-faced bats). Resolution of the microbat paraphyly/monophyly issue is essential for reconstructing the temporal sequence and deployment of morphological character state changes associated with flight and echolocation in bats. If microbats are paraphyletic, then laryngeal echolocation either evolved more than once in different microbats or was lost in megabats after evolving in the ancestor of all living bats. To examine these issues, we used a 7.1-kb nuclear data set for nine outgroups and twenty bats, including representatives of all rhinolophoid families. Phylogenetic analyses and statistical tests rejected both Archonta and microbat monophyly. Instead, bats are in the superorder Laurasiatheria and microbats are paraphyletic. Further, the superfamily Rhinolophoidea is polyphyletic. The rhinolophoid families Rhinolophidae and Megadermatidae belong to the suborder Yinpterochiroptera along with rhinopomatids and megabats. The rhinolophoid family Nycteridae belongs to the suborder Yangochiroptera along with vespertilionoids, noctilionoids, and emballonuroids. These results resolve the apparent conflict between previous molecular studies that sampled different rhinolophoid families. An important implication of rhinolophoid polyphyly is independent evolution of key anatomical innovations associated with the nasal-emission of echolocation pulses.

Published

2002

31. Telomere biology and cellular aging in nonhuman primate cells.

Author

Steinert S, White DM, Zou Y, Shay JW, and Wright WE

Subjects

Animals, COS Cells, Cebidae classification, Cebidae genetics, Cell Division, Cell Line, Cellular Senescence physiology, Chlorocebus aethiops, DNA-Binding Proteins, Fibroblasts cytology, Haplorhini classification, Humans, Lemur classification, Macaca mulatta classification, Macaca mulatta genetics, Pan paniscus classification, Pan paniscus genetics, Pongo pygmaeus classification, Pongo pygmaeus genetics, Primates classification, Primates genetics, Saimiri classification, Saimiri genetics, Telomerase genetics, Telomerase metabolism, Cellular Senescence genetics, Haplorhini genetics, Lemur genetics, Telomere physiology

Abstract

To determine how cellular aging is conserved among primates, we analyzed the replicative potential and telomere shortening in skin fibroblasts of anthropoids and prosimians. The average telomere length of the New World primates Ateles geoffroyi (spider monkey) and Saimiri sciureus (squirrel monkey) and the Old World primates Macaca mulatta (rhesus monkey), Pongo pygmaeus (orangutan), and Pan paniscus (pigmy chimpanzee) ranged from 4 to 16 kb. We found that telomere shortening limits the replicative capacity of anthropoid fibroblasts and that the expression of human telomerase produced telomere elongation and the extension of their in vitro life span. In contrast the prosimian Lemur catta (ring-tailed lemur) had both long and short telomeres and telomere shortening did not provide an absolute barrier to immortalization. Following a transient growth arrest a subset of cells showing a reduced number of chromosomes overgrew the cultures without activation of telomerase. Here we show that the presence of continuous TTAGGG repeats at telomeres and rigorous control of replicative aging by telomere shortening appear to be conserved among anthropoid primates but is less effective in prosimian lemurs., ((c)2001 Elsevier Science.)

Published

2002

32. A fossil lemur from the Oligocene of Pakistan.

Author

Marivaux L, Welcomme JL, Antoine PO, Métais G, Baloch IM, Benammi M, Chaimanee Y, Ducrocq S, and Jaeger JJ

Subjects

Animals, Biological Evolution, Pakistan, Paleodontology, Phylogeny, Fossils, Lemur anatomy & histology, Lemur classification

Abstract

In the absence of a comprehensive fossil record, the origin and early evolution of Malagasy lemurs have been subject to much uncertainty. We report here the discovery of a strepsirrhine fossil with strong cheirogaleid lemur affinities, Bugtilemur mathesoni gen. et sp. nov., from early Oligocene deposits of the Bugti Hills (Balochistan, Pakistan). Bugtilemur represents the earliest record of Lemuriformes, which hence appear to have already diversified outside of Madagascar at least 30 million years ago. This fossil clearly enhances the critical role of the Indian subcontinent in the early diversification of lemurs and constrains paleobiogeographic models of strepsirrhine lemur evolution.

Published

2001

33. Phylogeny of Pneumocystis carinii from 18 primate species confirms host specificity and suggests coevolution.

Author

Demanche C, Berthelemy M, Petit T, Polack B, Wakefield AE, Dei-Cas E, and Guillot J

Subjects

Air Microbiology, Animals, Biological Evolution, DNA, Fungal genetics, DNA, Mitochondrial genetics, Dihydropteroate Synthase genetics, Genes, rRNA, Genetic Variation, Lung microbiology, Molecular Sequence Data, Pneumocystis classification, Pneumocystis isolation & purification, Pneumonia, Pneumocystis microbiology, Polymerase Chain Reaction, RNA, Ribosomal genetics, Sequence Analysis, DNA, Haplorhini classification, Lemur classification, Monkey Diseases microbiology, Phylogeny, Pneumocystis genetics, Pneumonia, Pneumocystis veterinary

Abstract

Primates are regularly infected by fungal organisms identified as Pneumocystis carinii. They constitute a valuable population for the confirmation of P. carinii host specificity. In this study, the presence of P. carinii was assessed by direct examination and nested PCR at mitochondrial large subunit (mtLSU) rRNA and dihydropteroate synthetase (DHPS) genes in 98 lung tissue samples from captive or wild nonhuman primates. Fifty-nine air samples corresponding to the environment of different primate species in zoological parks were also examined. Cystic forms of P. carinii were detected in smears from 7 lung tissue samples corresponding to 5 New World primate species. Amplifications at the mtLSU rRNA gene were positive for 29 lung tissue samples representing 18 different primate species or subspecies and 2 air samples corresponding to the environment of two simian colonies. Amplifications at the DHPS gene were positive for 8 lung tissue samples representing 6 different primate species. Direct sequencing of nested PCR products demonstrated that a specific mtLSU rRNA and DHPS sequence could be attributed to each primate species or subspecies. No nonhuman primate harbored the human type of P. carinii (P. carinii f. sp. hominis). Genetic divergence in primate-derived P. carinii organisms varied in terms of the phylogenetic divergence existing among the corresponding host species, suggesting coevolution.

Published

2001

34. Ancient DNA from Megaladapis edwardsi (Malagasy Subfossil): preliminary results using partial cytochrome b sequence.

Author

Montagnon D, Ravaoarimanana B, Rakotosamimanana B, and Rumpler Y

Subjects

Animals, Base Sequence, Bone and Bones chemistry, Bone and Bones enzymology, Databases, Factual, Lemur classification, Molecular Sequence Data, Phylogeny, Cytochrome b Group genetics, DNA chemistry, Fossils, Lemur genetics

Published

2001

35. Lemur origins: rafting by groups of hibernators?

Author

Kappeler PM

Subjects

Animals, Emigration and Immigration, Madagascar, Phylogeny, Environment, Hibernation, Lemur classification, Lemur physiology

Published

2000

36. Remarkable species diversity in Malagasy mouse lemurs (primates, Microcebus).

Author

Yoder AD, Rasoloarison RM, Goodman SM, Irwin JA, Atsalis S, Ravosa MJ, and Ganzhorn JU

Subjects

Animals, Haplotypes, Lemur classification, Mice, Molecular Sequence Data, Phylogeny, Species Specificity, DNA, Mitochondrial genetics, Lemur genetics

Abstract

Phylogenetic analysis of mtDNA sequence data confirms the observation that species diversity in the world's smallest living primate (genus Microcebus) has been greatly underestimated. The description of three species new to science, and the resurrection of two others from synonymy, has been justified on morphological grounds and is supported by evidence of reproductive isolation in sympatry. This taxonomic revision doubles the number of recognized mouse lemur species. The molecular data and phylogenetic analyses presented here verify the revision and add a historical framework for understanding mouse lemur species diversity. Phylogenetic analysis revises established hypotheses of ecogeographic constraint for the maintenance of species boundaries in these endemic Malagasy primates. Mouse lemur clades also show conspicuous patterns of regional endemism, thereby emphasizing the threat of local deforestation to Madagascar's unique biodiversity.

Published

2000

37. Relationships among brown lemurs (Eulemur fulvus) based on mitochondrial DNA sequences.

Author

Pastorini J, Forstner MR, and Martin RD

Subjects

Animals, DNA, Mitochondrial chemistry, Electron Transport Complex IV genetics, Female, Geography, Lemur classification, Male, Molecular Sequence Data, NADH Dehydrogenase genetics, RNA, Transfer genetics, Sequence Analysis, DNA, DNA, Mitochondrial genetics, Lemur genetics, Phylogeny

Abstract

The brown lemurs (Eulemur fulvus) include seven subspecies, whose evolutionary relationships remain contentious. In particular, it is unclear whether the Malagasy and Comorian E. f. fulvus populations are differentiated at the subspecific level (E. f. mayottensis). Furthermore, it has been suggested that E. f. collaris and E. f. albocollaris are separate species. Analyses of approximately 2400 bp of mitochondrial DNA sequence data from part of the COIII gene, together with complete genes for ND3, ND4L, and ND4 and 5 tRNAs, resolved 34 E. fulvus specimens into six clades: ((albocollaris, collaris) (rufus (rufus (fulvus/mayottensis (albifrons/fulvus/sanfordi))))). Based on the information available and our analyses we conclude that E. f. albocollaris and E. f. collaris do not represent species distinct from E. fulvus and that Comorian brown lemurs do not deserve subspecific rank. No genetic differentiation was detected between E. f. albifrons and E. f. sanfordi; on the other hand, there are obviously two separate lineages of E. f. rufus., (Copyright 2000 Academic Press.)

Published

2000

38. Characterization of polymorphic brown lemur (Eulemur fulvus) microsatellite loci and their amplification in the family Lemuridae.

Author

Jekielek J and Strobeck C

Subjects

Animals, Genetic Variation, Genotype, Lemur classification, Polymerase Chain Reaction methods, Sequence Analysis, DNA, Lemur genetics, Lemuridae classification, Lemuridae genetics, Microsatellite Repeats genetics

Published

1999

39. Molar morphology and variation in two malagasy lemur families (Lemuridae and Indriidae).

Author

Yamashita N

Subjects

Analysis of Variance, Animals, Body Constitution, Genetic Variation, Lemur classification, Lemur anatomy & histology, Molar anatomy & histology

Abstract

The lemurs of Madagascar represent a radiation of primates exhibiting considerable ecological and morphological diversity. Dentally, all lemurs possess the characteristic strepsirhine anterior tooth comb, but exhibit variation in their postcanine teeth that may be related to dietary differences. In this study, I examine two factors that could complicate a strictly functional interpretation of tooth form variation in two families of Malagasy primates, the Lemuridae and Indriidae. (1) Allometry may be responsible for observed variation. Body size, not specific tooth features, may be the object of selection; tooth features may vary among taxa as a consequence of differences in body size. (2) Taxonomic affiliation may "explain" variation without recourse to functional explanations. Tooth morphology among closely-related taxa may be constrained developmentally or as a result of stabilizing selection. Morphological variation between families, therefore, may not be the result of current functional differences related to physical dietary properties, but may result from past events that are lineage-specific. Morphological features from the upper and lower second molars of seven lemurid and four indriid taxa are compared. The results of this study indicate that the majority of second molar features scale isometrically. Initial separation by families is warranted by the homogeneous slopes but different elevations in analyses of covariance between families. Intrafamilial variation is considerable for lemurids, but more discrete among indriids. Functional explanations for tooth form variability should take into consideration the degree of variation within taxa. For this particular dataset, the two families should be analyzed separately, and, because of the considerable overlap of subspecies with full species among lemurids, the lowest taxonomic unit recognized should be used.

Published

1998

40. The primates of the Baly Bay area, north-western Madagascar.

Author

Hawkins AF, Durbin JC, and Reid DB

Subjects

Animals, Conservation of Natural Resources, Data Collection, Female, Madagascar, Trees, Lemur classification

Abstract

Primate surveys were conducted in isolated primary west Malagasy decidous forest blocks around Baly Bay, north-western Madagascar. Eight species of primate were found, including Microcebus c.f. myoxinus, Hapalemur griseus occidentalis and Phaner furcifer. Two species were found only in Namoroka Strict Nature Reserve, which may mean that other forest blocks in the area have experienced primate extinctions. The record of M. c.f. myoxinus came from mangrove, the first confirmed record of a lemur from this habitat. The pelage of female Eulemur fulvus rufus was atypical.

Published

1998

41. Reappraisal of the postcranium of Hadropithecus (Primates, Indroidea).

Author

Godfrey LR, Jungers WL, Wunderlich RE, and Richmond BG

Subjects

Animals, Body Constitution, Extremities anatomy & histology, Lemur classification, Locomotion, Posture, Fossils, Lemur anatomy & histology

Abstract

Hadropithecus stenognathus (Lorenz von Liburnau [1899] Anz. Akad. Wiss. Wien 36:255-257), a giant extinct lemur from Madagascar, has been reconstructed as primarily terrestrial and probably cursorial on the basis of its postcranial anatomy, especially long bone gracility and interlimb proportions. We show here that aspects of this reconstruction are almost certainly incorrect. Hindlimb bones of Archaeolemur have been misattributed to Hadropithecus, and new hindlimb allocations (including newly recognized elements such as the calcaneus) indicate that Hadropithecus had a robust body build and lacked osteological specializations for cursoriality. We review the evidence for the existence of "Bradylemur" and offer a view of archaeolemurid positional behavior that includes terrestrial and arboreal components. Body size and limb proportions of Hadropithecus are reassessed in light of our new allocations.

Published

1997

42. Meiotic study of hybrids in the genus Eulemur and taxonomic considerations.

Author

Djlelati R, Brun B, and Rumpler Y

Subjects

Abortion, Veterinary, Animals, Chromosome Aberrations, Crosses, Genetic, Female, Fertility, Lemur physiology, Madagascar, Male, Meiosis, Pedigree, Pregnancy, Reproduction, Spermatocytes cytology, Spermatogenesis, Synaptonemal Complex genetics, Lemur classification, Lemur genetics

Abstract

A reproductive study was conducted on seven hybrids of Eulemur showing chromosomal multivalents involving at least four chromosomes at the pachytene stage. Three individuals were infertile hybrids and one presented a reduced spermatogenesis. In three out of these four hybrids, multivalents were associated with the sex bivalent in a large number of spermatocytes (23%). The relative importance of the reduction of fertility in males linked to chromosomal multivalent formation as well as the genetic background is discussed with regard to the use of cytogenetic data for systematics. Our findings argue for the classification of Eulemur fulvus collaris and E. f. albocollaris in two separate species. In regard to their repartition area, their separation along a linear north-south axis in Madagascar is discussed.

Published

1997

43. First discovery of the hairy-eared dwarf lemur (Allocebus trichotis) in a highland rain forest of eastern Madagascar.

Author

Rakotoarison N, Zimmermann H, and Zimmermann E

Subjects

Animals, Animals, Wild, Anthropometry, Body Temperature, Geography, Lemur anatomy & histology, Lemur physiology, Madagascar, Male, Rain, Reproduction, Seasons, Sleep, Social Behavior, Testis anatomy & histology, Tropical Climate, Vocalization, Animal, Lemur classification

Published

1997

44. The giant aye-aye Daubentonia robusta.

Author

Simons EL

Subjects

Animals, Femur, Humerus, Madagascar, Bone and Bones anatomy & histology, Fossils, Lemur anatomy & histology, Lemur classification

Abstract

Subfossils of a giant form of aye-aye are found at scattered sites in the south and southwest of the island of Madagascar, outside the known distribution of the living, or common, aye-aye. The subfossil aye-aye, named Daubentonia robusta, has massive, robust limb bones implying a species with a body weight 2.5-5 times as great as that of the living species. A mystery exists regarding how a species this large with the same specializations of teeth and manus as the living species could have existed in a xeric environment.

Published

1994

45. Distribution of lemurs in central western Madagascar, with a regional distribution hypothesis.

Author

Thalmann U and Rakotoarison N

Subjects

Animals, Conservation of Natural Resources, Geography, Madagascar, Population Surveillance, Vocalization, Animal, Demography, Lemur classification

Published

1994

46. Aye-ayes: out of the dark and into the light?

Author

Feistner AT and Sterling EJ

Subjects

Animals, Conservation of Natural Resources, Humans, Madagascar, Lemur anatomy & histology, Lemur classification, Superstitions

Published

1994

47. Taxonomy and distribution of Daubentonia: a historical perspective.

Author

Sterling E

Subjects

Animals, Conservation of Natural Resources, Demography, Geography, History, 18th Century, History, 19th Century, History, 20th Century, Lemur anatomy & histology, Madagascar, Zoology history, Lemur classification

Published

1994

48. Rediscovery of Allocebus trichotis Günther 1875 (primates) in northeast Madagascar.

Author

Meier B and Albignac R

Subjects

Animals, Behavior, Animal, Diet, Female, Lemur classification, Lemur physiology, Locomotion, Madagascar, Male, Motor Activity, Reproduction, Seasons, Sleep, Social Behavior, Lemur anatomy & histology

Published

1991

49. [Reactions to mirror in three species of lemurs (Lemur fulvus, L. macaco, L. catta)].

Author

Fornasieri I, Roeder JJ, and Anderson JR

Subjects

Animals, Female, Lemur classification, Male, Psychophysiology, Lemur physiology

Abstract

Reactions when confronted with their own reflection in a mirror were observed in three captive groups of lemurs: L. fulvus, L. macaco and L. catta. The ability of a mirror to induce social facilitation of drinking was also studied in one individual of each species. As previously observed in monkeys, the three groups of lemurs showed much more attention to the mirror than to a non-reflective surface, especially nasal contacts. Only L. fulvus showed habituation to the mirror with successive presentations. No social behaviours were directed towards the reflection, in contrast to descriptions of mirror-image reactions in monkeys, and the mirror did not produce an effect of social facilitation. The results suggest that the mirror elicits a diminished social reaction in lemurs compared to monkeys, perhaps due to the absence of relevant olfactory stimuli.

Published

1991

50. Intraspecific chromosome variability in a lemur from the north of Madagascar: Lepilemur septentrionalis, species nova.

Author

Rumpler Y and Albignac R

Subjects

Animals, Biological Evolution, Cytogenetics, Female, Hybridization, Genetic, Karyotyping, Madagascar, Male, Polymorphism, Genetic, Species Specificity, Chromosomes, Lemur classification, Strepsirhini classification

Abstract

A cytogenetical study of 25 Lepilemur from the north of Madagascar has given evidence for six karyotypes (with four diploid numbers). Four of the karyotypes with these diploid numbers--2N = 38, 2N = 36, 2N = 34--we believe evolved from one another by centric fusion; and two karyotypes resulted from the hybridization of two of these (2N = 37 and 2N = 35). The different karyotypes distinguish themselves clearly from those of other species of Lepilemur. We have named a new species, Lepilemur septentrionalis (sp. nov.) with four subspecies: L. s. andrafiamenensis (2N = 38), L. s. ankaranensis (2N = 36), L. s. sahafarensis (2N = 36), and L. s. septentrionalis (2N = 34).

Published

1975