Molecular evidence for species-level distinctions in clouded leopards

Among the 37 living species of Felidae, the clouded leopard (Neofelis nebulosa) is generally classified as a monotypic genus basal to the Panthera lineage of great cats. This secretive, mid-sized (16-23 kg) carnivore, now severely endangered, is traditionally subdivided into four southeast Asian subspecies (Figure 1A). We used molecular genetic methods to re-evaluate subspecies partitions and to quantify patterns of population genetic variation among 109 clouded leopards of known geographic origin (Figure 1A, Tables S1 ans S2 in the Supplemental Data available online). We found strong phylogeographic monophyly and large genetic distances between N. n. nebulosa (mainland) and N. n. diardi (Borneo; n = 3 individuals) with mtDNA (771 bp), nuclear DNA (3100 bp), and 51 microsatellite loci. Thirty-six fixed mitochondrial and nuclear nucleotide differences and 20 microsatellite loci with nonoverlapping allele-size ranges distinguished N. n. nebulosa from N. n. diardi. Along with fixed subspecies-specific chromosomal differences, this degree of differentiation is equivalent to, or greater than, comparable measures among five recognized Panthera species (lion, tiger, leopard, jaguar, and snow leopard). These distinctions increase the urgency of clouded leopard conservation efforts, and if affirmed by morphological analysis and wider sampling of N. n. diardi in Borneo and Sumatra, would support reclassification of N. n. diardi as a new species (Neofelis diardi).     

Evolutionary and biogeographical implications of variation in skull morphology of raccoon dogs (Nyctereutes procyonoides,Mammalia: Carnivora)

Morphological characteristics reflect geographical variation resulting from adaptation to varying environmental conditions. Carnivore species distributed over a wide geographical range generally have highly polymorphic morphological variation. The raccoon dog (Nyctereutes procyonoides) has a longitudinal distribution restricted to East Asia and the northern Indochina Peninsula. Its unique geographical range makes it an appropriate model to examine how morphological differences are influenced by geography. To demonstrate morphological evolution of Russian, Chinese, Korean and Japanese raccoon dogs predicted by geographical differences, we tested the island rule and Bergmann's rule. We compared craniodental variation among populations and examined morphological implications for intraspecific taxonomic status. Insular raccoon dogs possessed substantially smaller body size than those from the mainland. Moreover, different island effects among Japanese islands were demonstrated by markedly larger occipital condyle breath in the Hokkaido population. Larger skull size in Russian and Hokkaido raccoon dogs could be explained by Bergmann's rule. Based on previous chromosomal and molecular studies and results of our morphological analyses, we suggest Japanese raccoon dogs are a distinct species from the mainland N. procyonoides.     

Geographical variation in and evolutionary history of the Sunda clouded leopard (Neofelis diardi) (Mammalia: Carnivora: Felidae) with the description of a new subspecies from Borneo

Recent morphological and molecular studies led to the recognition of two extant species of clouded leopards; Neofelis nebulosa from mainland southeast Asia and Neofelis diardi from the Sunda Islands of Borneo and Sumatra, including the Batu Islands. In addition to these new species-level distinctions, preliminary molecular data suggested a genetic substructure that separates Bornean and Sumatran clouded leopards, indicating the possibility of two subspecies of N. diardi. This suggestion was based on an analysis of only three Sumatran and seven Bornean individuals. Accordingly, in this study we re-evaluated this proposed subspecies differentiation using additional molecular (mainly historical) samples of eight Bornean and 13 Sumatran clouded leopards; a craniometric analysis of 28 specimens; and examination of pelage morphology of 20 museum specimens and of photographs of 12 wild camera-trapped animals. Molecular (mtDNA and microsatellite loci), craniomandibular and dental analyses strongly support the differentiation of Bornean and Sumatran clouded leopards, but pelage characteristics fail to separate them completely, most probably owing to small sample sizes, but it may also reflect habitat similarities between the two islands and their recent divergence. However, some provisional discriminating pelage characters are presented that need further testing. According to our estimates both populations diverged from each other during the Middle to Late Pleistocene (between 400 and 120 kyr). We present a discussion on the evolutionary history of Neofelis diardi sspp. on the Sunda Shelf, a revised taxonomy for the Sunda clouded leopard, N. diardi, and formally describe the Bornean subspecies, Neofelis diardi borneensis, including the designation of a holotype (BM.3.4.9.2 from Baram, Sarawak) in accordance with the rules of the International Code of Zoological Nomenclature.     

The Role of Geographical and Ecological Factors on Population Divergence of the Neotropical otter <Emphasis Type="Italic">Lontra longicaudis</Emphasis> (Carnivora,Mustelidae)

The geographic distribution of the populations of a species are influenced by the spatial structure of the ecosystems, the environmental factors and the presence of geographic barriers. The Neotropical otter, Lontra longicaudis, is widely distributed throughout the Americas, where a wide range of environmental conditions and geographical features could promote genetic and morphological variation on the three currently recognized subspecies. In this study, we combined phylogeographic, morphometric and environmental niche modelling analyses to examine whether: (1) genetic variation is associated with the presence of barriers to gene flow and/or hydrography; (2) genetic and morphologic variation are associated with environmental variation; and (3) the observed variation in L. longicaudis populations corresponds to the previously defined subspecies. We found strong phylogeographic structure between the northern (L. l. annectens) and the two-southern subspecies (L. l. longicaudis and L. l. enudris), and although shallower, we also detected genetic differentiation between the two South American subspecies. Such genetic differentiation corresponds to the hydrography and to the geographical barriers characteristic of the distributional area of the species. We found a correlation between the shape of the skull and mandible with the environmental variation through the distribution of the species, and we rejected the hypothesis of niche equivalency and similarity between the three identified genetic lineages, suggesting adaptations to different environmental conditions. Our results support that the variation in environmental conditions, in concert with geographical barriers to gene flow and hydrography, have led to population divergence of L. longicaudis along the Neotropics. These results have important taxonomic implications for the species and its conservation.     

Phylogenetic analysis,taxonomic revision,and dental ontogeny of the Cretaceous Zhelestidae (Mammalia: Eutheria)

Iphisa elegans Gray, 1851 is a ground‐dwelling lizard widespread over Amazonia that displays a broadly conserved external morphology over its range. This wide geographical distribution and conservation of body form contrasts with the expected poor dispersal ability of the species, the tumultuous past of Amazonia, and the previously documented prevalence of cryptic species in widespread terrestrial organisms in this region. Here we investigate this homogeneity by examining hemipenial morphology and conducting phylogenetic analyses of mitochondrial (CYTB) and nuclear (C‐MOS) DNA sequence data from 49 individuals sampled across Amazonia. We detected remarkable variation in hemipenial morphology within this species, with multiple cases of sympatric occurrence of distinct hemipenial morphotypes. Phylogenetic analyses revealed highly divergent lineages corroborating the patterns suggested by the hemipenial morphotypes, including co‐occurrence of different lineages. The degrees of genetic and morphological distinctness, as well as instances of sympatry among mtDNA lineages/morphotypes without nuDNA allele sharing, suggest that I. elegans is a complex of cryptic species. An extensive and integrative taxonomic revision of the I. elegans complex throughout its wide geographical range is needed. © 2012 The Linnean Society of London, Zoological Journal of the Linnean Society, 2012, 166 , 361–376.     

Sequence variability analysis on major histocompatibility complex class Ⅱ DRB alleles in three felines

The variation of the exon 2 of the major histo-compatibility complex (MHC) class Ⅱ gene DRB locus in three feline species were examined on clouded leopard (Neofelis nebulosa), leopard (Panthera pardus) and Amur tiger (Panthera tigris altaica). A pair of degenerated primers was used to amplify DRB locus covering almost the whole exon 2. Exon 2 encodes the β1 domain which is the most vari-able fragments of the MHC class Ⅱ molecule. Single-strand conformational polymorphism (SSCP) analysis was applied to detect different MHC class Ⅱ DRB haplotypes. Fifteen recombinant plasmids for each individual were screened out, isolated, purified and sequenced finally. Totally eight distinct haplotypes of exon 2 were obtained in four individuals. With-in 237 bp nucleotide sequences from four samples, 30 vari-able positions were found, and 21 putative peptide-binding positions were disclosed in 79 amino acid residues. The ratio of nonsynonymous substitutions (dN) was much higher than that of synonymous substitutions (dS), which indicated that balancing selection probably maintain the variation ofexon 2. MEGA neighbor joining (N J) and PAUP maximum parsimo-ny (MP) methods were used to reconstruct phylogenetic trees among species, respectively. Results displayed a more close relationship between leopard and tiger; however, clouded leopard has a comparatively distant relationship form the other two.     

Geographical approaches to crop conservation: The partitioning of genetic diversity in andean potatoes

The geographical concepts of spatial scale and the human-geographic region offer significant contributions to the conservation of crop genetic resources. They are used in the present study to examine the partitioning of genetic diversity along two axes: geographical location and landrace population. Locations in the study consist of three micro-regions within the highland Paucartambo region of southern Peru. Six widely distributed landraces of the potato species Solatium stenotomum Juz. et Buk. and S. tuberosum subsp. andigena (Juz. et Buk.) Hawkes are evaluated. Electrophoretic analysis of isozyme loci demonstrates that the majority of allelic variation is contained within the geographical and landrace populations. Geographically, greater than 99% of total variation is found within single micro-regions. Taxonomically, approximately 75% of variation occurs within individual landraces. The weak geographical partitioning of allelic variation is due in part to formerly high rates of seed-tuber exchange. The weak-moderate taxonomic partitioning of variation is attributed to common parentage and shared introgression. Unique genotypes are microgeographically concentrated. Findings recommend that conservation strategies focus on intensive sampling or preservation in micro-regional areas due to the concentration of unique genotypes. Evaluation of the spatial patterning of diversity and recognition of the taxonomic specificity of results (not necessarily applicable even to related potato landraces) rely on biogeographical and human-geographic concepts.     

A global gap analysis of infectious agents in wild primates

A number of infectious diseases have emerged as threats to humans and wildlife. Despite the growing importance of georeferenced data for mitigating disease risk, information on parasite threat is patchily distributed at a global scale. In this paper, we explore the utility of gap analysis techniques to investigate the global geographical distribution of parasite sampling in non-human primates. Specifically, we identify geographical areas that are undersampled for parasites in relation to primate geographical distributions, primate taxonomic sampling, primate threat status, and parasite taxonomy. Our results reveal that East Asia (particularly China), South-East Asia, and the South American Amazon are the most deficient in sampling effort with respect to all criteria. We also identify sampling gaps based on several criteria in West and Central Africa. Future research aimed at filling these gaps is needed for both human health and primate conservation purposes.     

Draft genome sequence of Gordonia neofelifaecis NRRL B-59395, a cholesterol-degrading actinomycete

We report a draft sequence of the genome of Gordonia neofelifaecis NRRL B-59395, a cholesterol-degrading actinomycete isolated from fresh feces of a clouded leopard (Neofelis nebulosa). As predicted, the reported genome contains several gene clusters for cholesterol degradation. This is the second available genome sequence of the family Gordoniaceae.     

Differentiation in the Elymus dahuricus complex (Poaceae): evidence from grain proteins,DNA, and crossability

The status of the taxa Elymus dahuricus Turcz. ex Griseb., E. excelsus Turcz. ex Griseb., E. woroschilowii Probat. and E. tangutorum (Nevski) Hand.-Mazz., all of which are sometimes treated as members of E. dahuricus s.l. or as constituting the E. dahuricus complex, has been investigated using morphological, biochemical (SDS-PAGE of endosperm proteins) and molecular (DNA-AFLP) variation characteristics. Populations include accessions from Siberia, Far East (Russia), Tien-Shan (Kirghizstan), and Tibet and Sichuan Provinces (China). Variation in the morphological characteristics and endosperm proteins patterns have been found in all populations of the complex. DNA variation was very low within populations but was different among populations; this was attributed to genetic drift. Seed fertility of artificial hybrids and F2-F3 progenies in 38 combinations was analyzed. All biotypes studied form a common recombination genepool (RGP). The reproductive compatibility of hybrid combinations decreases with increased geographical separation of the parents. Differences in protein patterns and in genetic variation drawn from DNA-AFLPs and phenotypical segregation in F2 on series of diagnostic characters does not support existing taxonomic treatments of the E. dahuricus complex in Southern Russia, and Central-Asian area. The E. dahuricus complex seems to be a polymorphic species having a wide geographical range and wide genetic variation. The different species need probably be relegated to infraspecific rank. We have refrained from making the necessary combinations pending examination of additional specimens, including specimens of taxa not included in this study and the type specimens of all taxa involved.     

Conservation Genetics of the Philippine Tarsier: Cryptic Genetic Variation Restructures Conservation Priorities for an Island Archipelago Primate

Establishment of conservation priorities for primates is a particular concern in the island archipelagos of Southeast Asia, where rates of habitat destruction are among the highest in the world. Conservation programs require knowledge of taxonomic diversity to ensure success. The Philippine tarsier is a flagship species that promotes environmental awareness and a thriving ecotourism economy in the Philippines. However, assessment of its conservation status has been impeded by taxonomic uncertainty, a paucity of field studies, and a lack of vouchered specimens and genetic samples available for study in biodiversity repositories. Consequently, conservation priorities are unclear. In this study we use mitochondrial and nuclear DNA to empirically infer geographic partitioning of genetic variation and to identify evolutionarily distinct lineages for conservation action. The distribution of Philippine tarsier genetic diversity is neither congruent with expectations based on biogeographical patterns documented in other Philippine vertebrates, nor does it agree with the most recent Philippine tarsier taxonomic arrangement. We identify three principal evolutionary lineages that do not correspond to the currently recognized subspecies, highlight the discovery of a novel cryptic and range-restricted subcenter of genetic variation in an unanticipated part of the archipelago, and identify additional geographically structured genetic variation that should be the focus of future studies and conservation action. Conservation of this flagship species necessitates establishment of protected areas and targeted conservation programs within the range of each genetically distinct variant of the Philippine tarsier.     

Taxonomy and ecological niche modeling: Implications for the conservation of wood partridges (genus Dendrortyx)

Ecological niche models (ENMs) have a wide range of biological applications, particularly in conservation. To build these models, two sources of information are needed: occurrence records for the species of interest and environmental variables. However, taxonomic limits are often unclear, and the selection of occurrence data depends on the species concept being used. In this study we generated ENMs based on different taxonomic levels within the Dendrortyx group, which is comprised of three species and several subspecies; we analyzed the geographic and ecological distribution patterns and discuss the implications for the biogeography and conservation of this group. Our results suggest that the area with suitable climate depends on the taxonomic category used in the model, which in turn affects the interpretation of the importance of different biogeographic barriers and introduces variation into the potential differentiation of Dendrortyx. In terms of conservation, Dendrortyx macroura and Dendrortyx leucophrys are in a low risk category, that of “least concern,” although they may be amended to a higher category when their allopatric lineages are considered as the units for modeling. We suggest carrying out an a priori taxonomic analysis to facilitate the empirical identification of the units to be modeled in order to allow for a better ecological and biogeographic interpretation and more sound conservation policies.     

DNA barcodes identify Chinese medicinal plants and detect geographical patterns of Sinosenecio (Asteraceae)

DNA barcodes have proved to be efficient for plants species discrimination and identification using short and standardized genomic regions. The genus Sinosenecio(Asteraceae) is used for traditional medicinal purposes in China. Most species of the genus occur in restricted geographical regions and exhibit a wide range of morphological variations within species, making them difficult to differentiate in the field. Previously, taxonomic revisions have been made based on morphological and cytological evidence. In the present study, barcoding analysis was performed on 107 individuals representing 38 species in this genus to evaluate the performance of four candidate barcoding loci (matK, rbcL, trnH-psbA and internal transcribed spacer [ITS]) and detect geographical patterns. Three different methods based on genetic distance, sequence similarity, and the phylogenetic tree were used. Comparably high species discrimination power was detected in species-level taxonomic process by the ITS dataset alone or combined with other loci, which was suggested to be the most suitable barcode for Sinosenecio. Our results are congruent with previous taxonomic studies concerning the monophyly of the S. oldhamianus group. The present study provides an empirical paradigm for the identification of medicinal plant species and their geographical patterns, ascertaining the congruence between taxonomical studies and barcoding analysis inSinosenecio.     

The distribution–abundance (density) relationship: its form and causes in a tropical mammal order, Primates

Aim Across a wide variety of organisms, taxa with high local densities (abundance) have large geographical ranges (distributions). We use primatology's detailed knowledge of its taxon to investigate the form and causes of the relationship in, unusually for macroecological analysis, a tropical taxon. Location Africa, Central and South America, Asia, Madagascar. Methods To investigate the form of the density–range relationship, we regressed local density on geographical range size, and also on female body mass, because in the Primates, density correlates strongly with mass. To investigate the biological causes of the relationship, we related (1) abundance (density × range size) and (2) residuals from the density–range regression lines to various measures of (i) resource use, (ii) reproductive rate and (iii) potential specialization. All data are from the literature. Analyses were done at the level of species (n = 140), genera (n = 60) and families/subfamilies (n = 17). We present various levels of results, including for all data, after omission of outlier data, after correction for phylogenetic dependence, and after Bonferroni correction of probabilities for multiple comparisons. Results Regarding the form of the relationship, Madagascar primates are clear outliers (high densities in small ranges). Among the remaining three realms, the relation of density to range is weak or non‐existent at the level of species and genera. However, it is strong, tight and linear at the level of families/subfamilies (r² = 0.6, F_1,10 = 19, P < 0.01). Although among primates, density is very significantly related to mass, at no taxonomic level is range size related to body mass. Consequently, removing the effects of mass makes little to no difference to density–range results. Regarding the biology of the relationship, only traits indicative of specialization are associated with abundance (meaning numbers): rare taxa are more specialized than are abundant taxa. The association is largely via range size, not density. Across families, no traits correlate significantly with the density–range relationship, nor with deviations from it, despite the strength of the relationship at this taxonomic level. Main conclusions We suggest that in macroecology, analysis at taxonomic levels deeper than that of the relatively ephemeral species can be appropriate. We argue that the several purely methodological explanations for the positive density–range size relationship in primates can be rejected. Of the various biological hypotheses, those having to do with specialization–generalization seem the only applicable ones. The fact that the relationship is entirely via range size, not via density, means that while we might have a biology of range size, we do not yet have one of the density–geographical range relationship. It is probably time to search for multivariate explanations, rather than univariate ones. However, we can for the first time, for at least primates, suggest that any association of abundance or range size with specialization is via the number of different subtaxa, not the average degree of specialization of each subtaxon. The implication for conservation is obvious.     

The holarctic complex Potentilla fruticosa (Rosaceae)

Potentilla fruticosa L. (Rosaceae) is a complex of large morphological, karyological, geographical and ecological amplitudes. A survey of the distribution of the morphological variation is given and the underlying reasons discussed. Migration paths are also discussed. In southeast central Asia there is a complex in need of further investigation. Outside this area two species should be recognized, a diploid and hermaphrodite species, P. floribunda Pursh, in N America, S Europe and Siberia and a tetraploid and dioecious species, P. fruticosa L., in N Europe and Siberia.     

Geographical differentiation and cryptic diversity in the monocled cobra,Naja kaouthia (Elapidae), from Thailand

South‐East Asia has an exceptionally high diversity of snakes, with more than 250 snake species currently recorded from Thailand. This diversity likely reflects the diverse range of geographical and climatic conditions under which they live, but the evolutionary history and population genetics of many snake species in South‐East Asia have been little investigated in comparison with morphological studies. Here, we investigated genetic variation in the monocled cobra, Naja kaouthia, Lesson, 1831, across its distribution range in Thailand using mitochondrial DNA (cytochrome b, control region) for ~100 individuals and the nuclear DNA gene (C‐mos) for a small subset. Using population genetic and phylogenetic methods, we show high levels of genetic variation between regional populations of this non‐spitting cobra, including the north‐eastern, north‐central and southern regions, in addition to a population on Pha‐ngan Island, 150 km offshore from the southern peninsula. Moreover, inclusion of the north‐eastern population renders N. kaouthia paraphyletic in relation to other regional Naja species. The north‐eastern population is therefore probably specifically distinct. Given that these cobras are otherwise undifferentiated based on colour and general appearance to the “typical” cobra type of this region, they would represent a cryptic species. As has been shown in other animal groups from Thailand, it is likely that the geographical characteristics and/or tectonic alteration of these regions have facilitated high levels of population divergence of N. kaouthia in this region. Our study highlights the need for dense sampling of snake populations to reveal their systematics, plan conservation and facilitate anti‐snake venom development.     

Reproductive physiology of the clouded leopard: I. Electroejaculates contain high proportions of pleiomorphic spermatozoa throughout the year

Ejaculates were analyzed from clouded leopards (Neofelis nebulosa) subjected to a regimented anesthesia/electroejaculation protocol. Group I males (n = 4), maintained individually in an environment with natural fluctuations in photoperiod, were electroejaculated on the same day at monthly intervals (January-December). Group II clouded leopards (n = 8), maintained in random zoo populations throughout the U.S., were evaluated on a single occasion. Phase contrast and electron microscopy indicated a high proportion of structurally abnormal spermatozoa in seminal fluid (Group I range, 14.8-78.9%; Group II range, 32.3-93.0%), the predominant deformity being a tightly coiled flagellum. Semen quality, including spermatozoal concentration and the incidence of abnormal sperm forms, varied (p less than 0.05) among males. Evaluating the numbers of motile spermatozoa/ejaculate (MS/E) among individual males from Group I on a monthly basis suggested a seasonal influence; gradually increasing MS/E values with peaks in June and July were observed in three of four animals. A simultaneous analysis of international breeding records for captive female clouded leopards demonstrated that 46.2% of parturitions occurred in March and April, indicating that most estrual periods occurred from late December through February. These data suggest that a physiological asymmetry may exist in peak reproductive performance between the male and female clouded leopard, perhaps as a result of differing adaptations to the captive environment. Motile spermatozoa can be recovered throughout the year using electroejaculation and, when used over time, a standardized procedure can determine a hierarchy of seminal quality among males of unknown reproductive potential. The relatively high proportions of structurally abnormal spermatozoa in the ejaculates of the clouded leopard may be related to a low degree of genetic variation within the species and/or hyperadrenal activity in captive populations.     

Genetic analysis of an endemic archipelagic lizard reveals sympatric cryptic lineages and taxonomic discordance

The importance of genetic data in biodiversity conservation is well established, and knowledge of standing genetic variation within and between populations is important for designing conservation strategies. We investigated partitioning of genetic diversity in an endemic lizard (Leiocephalus psammodromus) distributed in the Turks and Caicos archipelago using mtDNA and AFLP data from 259 individuals sampled across 13 islands. Current taxonomy identifies six or more subspecies of L. psammodromus within the archipelago, several of which have undergone recent drastic reductions in range due to extirpation. However, our results indicate the presence of two independent lineages, one on each of the Turks and Caicos banks, and a third sympatric cryptic lineage on both banks. These lineages do not correspond to current taxonomy and alter our understanding of diversity and conservation of this species. Gross morphological data (mass and snout-vent length) indicate some variation in female size among lineages, indicating the possibility of cryptic morphological variation. Instead of initiating separate conservation measures for nominate subspecies, we recommend a more thorough investigation of the morphology and genetics of this group and a more inclusive conservation program. Our surprising results indicate that other endemic squamates in the Bahamas Archipelago might also exhibit sympatric cryptic diversity that does not correspond to current taxonomic understanding and could have significant impacts on our approach to conservation in this region.