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Morphometric and molecular analysis of variation in the southern African hedgehog, Atelerix frontalis (Eulipotyphla : Erinaceidae)Rotherham, Lia Suzanne 09 July 2008 (has links)
The near-threatened southern African hedgehog, Atelerix frontalis (A. Smith, 1831) is divided into two subspecies based on its disjunct distribution of two allopatric populations. This is despite reservations because its nature and extent of geographic variation remains virtually unknown. The present study, therefore, represents the first analysis of geographic variation within A. frontalis and is based on a multidisciplinary approach involving traditional and two-dimensional geometric morphometric analysis of the cranium and mandible, and molecular data in order to test the validity of the subspecies designations. The results of all univariate and multivariate analyses of both traditional and geometric morphometric data were congruent and provide evidence for a north-westerly–south-easterly clinal pattern of variation with cranial configuration being positively correlated with both latitude and longitude. These results are supported by Neighbour-joining, Maximum Likelihood, and Maximum Parsimony analyses of Cyt-b and ND2 data that revealed no variation across a 377 bp and 1034 bp region sequenced for each gene, respectively, while a 377 bp control region sequenced revealed low levels of variation between representatives of the two recognized subspecies (0.54 % pairwise sequence divergence). These results together with the lack of pronounced steps in the clinal pattern of variation suggest that the recognition of subspecies within A. frontalis may be untenable such that its disjunct distribution may represent a recent divergence event. If this is the case, then the results in this study may have implications in the conservation management strategies for A. frontalis, since it could be argued that one disjunct population could act as a source population for the other. However, it is recommended that prior to the implementation of conservation management plans for the species, further studies involving a wide range of alternative systematic techniques need to be undertaken first in order to gain a better understanding of the nature and extent of geographic variation within A. frontalis. These suggested studies should focus on comprehensive sampling and analyses involving a range of environmental and/or climatic variables in an attempt to identify factors that may explain the disjunct distribution and the clinal pattern of variation within the southern African hedgehog. / Dissertation (MS)--University of Pretoria, 2011. / Zoology and Entomology / unrestricted
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Study of speciation and species taxonomy of Meteterakis (Nematoda: Heterakidae) from the East Asian islands / 東アジア島嶼域産寄生性線虫Meteterakis属の種分化と種分類に関する研究Sata, Naoya 25 March 2019 (has links)
京都大学 / 0048 / 新制・課程博士 / 博士(理学) / 甲第21604号 / 理博第4511号 / 新制||理||1647(附属図書館) / 京都大学大学院理学研究科生物科学専攻 / (主査)准教授 中野 隆文, 教授 曽田 貞滋, 教授 中務 真人 / 学位規則第4条第1項該当 / Doctor of Science / Kyoto University / DFAM
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ANÁLISE MORFOMÉTRICA INTRAESPECÍFICA DE DUAS ESPÉCIES DE AEGLA (CRUSTACEA: DECAPODA: ANOMURA) COM AMPLA DISTRIBUIÇÃO GEOGRÁFICA / INTRASPECIFIC MORPHOMETRIC ANALYSIS OF TWO WIDELY DISTRIBUTED SPECIES OF AEGLA (CRUSTACEA: DECAPODA: ANOMURA)Marchiori, Amanda Bohrz 27 February 2014 (has links)
Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Crustaceans of the genus Aegla occur in continental waters, in southern South America.
The genus is composed by more than 70 species, most of them characterized by having restricted
distributions. Unlike this pattern, the species Aegla longirostri and Aegla platensis have wide
geographic distributions. Moreover, both species form non-monophyletic groups, which may
indicate that these groups are formed by cryptic species. Therefore, the objective of this study was
to analyze populations of A. longirostri and A. platensis through a geometric morphometric
approach, in order to clarify their intraspecific relationships. For A. longirostri, we analyzed 120
individuals from 6 populations, totalizing 20 animals per population. For A. platensis, we
analyzed 110 individuals from 11 populations (four Argentinean and seven Brazilian), totalizing
10 animals per population. For both species, the animals were photographed in dorsal view, and
19 landmarks were defined on the carapace. Both sides of the carapace were symmetrized, and the
landmarks coordinates were superimposed. Variations in centroid size were tested with an
analysis of variance (ANOVA) and Tukey s test. For A. longirostri, we also used a Procrustes
ANOVA. Variations in carapace shape were explored through a principal component analysis
(PCA), and afterwards through a linear discriminant analysis (LDA) and a canonical variate
analysis (CVA), based on the first 8 principal components. The Mahalanobis distances between
the populations were calculated. For statistical test of carapace shape differences, we used
multivariate analysis of variance (MANOVA), and for pairwise comparisons among populations
we used Bonferroni corrections for adjust of p-value after multiple MANOVAs. For A.
longirostri, CV1 and CV2 represented 46.5% and 23.1% of the variation, respectively. The most
geographically distant population showed the highest values of Mahalanobis distance. The
pairwise comparisons showed that all populations of A. longirostri differ significantly in carapace
shape. For A. platensis, CV1 and CV2 represented 28.5% and 22.2% of the variation,
respectively. There was a separation between Argentinean and Brazilian populations, with high
values of Mahalanobis distances between populations from both countries. The pairwise
comparisons showed that all populations of A. platensis differ significantly in carapace shape,
with the exception of a pair of Argentinean populations and a pair of Brazilian populations. Some
characteristics of the aeglids indicate that these animals may have low dispersal potential, thus the
geographic distance may have led to an interruption of the gene flow between populations. Added
to the non-monophyletic grouping, the intraspecific difference in carapace shape in A. longirostri
and A. platensis could be an evidence that populations of both species are fragmented. / Crustáceos do gênero Aegla ocorrem em águas continentais, no sul da América do Sul. O
gênero é composto por mais de 70 espécies, caracterizadas em sua maioria por possuírem
distribuições restritas. Ao contrário deste padrão, as espécies Aegla longirostri e Aegla platensis
possuem distribuições geográficas amplas. Além disso, ambas as espécies formam agrupamentos
não-monofiléticos, o que pode indicar que esses agrupamentos são formados por espécies
crípticas. Portanto, o objetivo deste estudo foi analisar populações de A. longirostri e A. platensis
através de técnicas de morfometria geométrica, visando esclarecer suas relações intraespecíficas.
Para A. longirostri, foram analisados 120 indivíduos provenientes de seis populações, totalizando
20 animais de cada população. Para A. platensis, foram analisados 110 indivíduos provenientes de
11 populações (quatro argentinas e sete brasileiras), totalizando 10 animais de cada população.
Para ambas as espécies, os animais foram fotografados em vista dorsal e foram selecionados 19
marcos anatômicos localizados na carapaça. Ambos os lados da carapaça foram simetrizados e as
coordenadas dos marcos anatômicos foram sobrepostas. Variações no tamanho do centroide foram
testadas através de análise de variância (ANOVA) de um critério e teste de Tukey. Para A.
longirostri, também foi utilizada ANOVA de Procrustes. Variações na forma da carapaça foram
exploradas através de análise de componentes principais (PCA), e posteriormente através de
análise linear discriminante (LDA) e análise de variáveis canônicas (CVA), com base nos 8
primeiros componentes principais. Foi calculada a distância de Mahalanobis entre as populações.
Variações na forma da carapaça foram testadas através de análise de variância multivariada
(MANOVA) e MANOVAs par a par seguidas por correção de Bonferroni. Para A. longirostri,
CV1 e CV2 corresponderam a 46,5% e 23,1% da variação, respectivamente. A população mais
distante geograficamente apresentou os maiores valores de distância de Mahalanobis. As
MANOVAs par a par demonstraram que todas as populações de A. longirostri diferem
significativamente na forma da carapaça. Para A. platensis, CV1 e CV2 corresponderam a 28,5%
e 22,2% da variação, respectivamente. Houve uma separação entre as populações argentinas e
brasileiras, com valores de distância de Mahalanobis maiores entre as populações dos dois países.
As MANOVAs par a par demonstraram que todas as populações de A. platensis diferem
significativamente na forma da carapaça, com exceção de um par de populações argentinas e um
par de populações brasileiras. Algumas características dos eglídeos indicam que esses animais
possuem baixo potencial de dispersão, portanto, a distância geográfica pode ter levado à
interrupção do fluxo gênico entre as populações. Somada à ausência de monofilia, a diferença
intraespecífica na forma da carapaça em A. longirostri e A. platensis pode ser um indício de que
populações de ambas as espécies estão fragmentadas.
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Evoluční vztahy tetraploidních zástupců skupiny Galium pusillum (sekce Leptogalium) na území střední Evropy. Alopatrická diferenciace českého endemického druhu G. sudeticum. / Evolutionary history of tetraploid representatives Galium pusillum group (sect. Leptogalium) in central Europe. Allopatric differentiation of Czech endemic species G. sudeticumKnotek, Adam January 2014 (has links)
The presented study tries to reveal the evolutionary history of polyploid complex Galium pusillum aiming on a rare czech endemic species G. sudeticum, an ideal model to study allopatric speciation in the context of Central European (post)glacial development. The species G. sudeticum grows in Krkonose Mts. and on serpentines in western Bohemia (Slavkovský les) more than 200 kilometers away. Our morphological and molecular data suggest a clearly different history of its two isolated areas. The populations in Krkonose Mts. are probable relics of mountainous species G. anisophyllon which was there on its northern border of occurence and hybridized with lowland species G. valdepilosum during postglacial vegetations shifts. This fact is well supported by intermediate position of Krkonose Mts. populations in both morphological and molecular AFLP analyses and by sharing the same chloroplast haplotype with geographically close lowland populations. On the other hand the serpentine lowland populations in western Bohemia are both morphologicaly and genetically indistinguishable from G. valdepilosum. Distinct genetic lineage of few populations belonging to G. valdepilosum (incl. one traditionaly referred as G. sudeticum) was found in western Bohemia and Bavaria, located on relic stands (calcareous and serpentine...
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Infer?ncias carioevolutivas sobre grupos cr?pticos de peixes marinhos e estuarinosAra?jo, Washington Candeia de 26 February 2009 (has links)
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Previous issue date: 2009-02-26 / Conselho Nacional de Desenvolvimento Cient?fico e Tecnol?gico / Cytogenetic studies have been revealing a great diversity not detected, until then, in several families of fishes. Many of these groups, especially those that exhibit great diversity, like Perciformes and Siluriformes, possess species with difficult
morphologic characterization, called cryptic species, commonly detected through karyotypic analyses, which reveals outstanding interespecific variations with
relationship to the number and its chromosomal structures. Thus, the present work intends to contribute for the cytogenetic knowledge of marine and brackish fish
species, because they peculiar life habits and by lack of cytogenetic data of your genetic aspects. Therefore, cytogenetic studies were developed in a species of
Apogonidae (Perciformes), two species of sea catfishes of the family Ariidae (Siluriformes) and brackish fish Paurachenipterus galeatus (Siluriformes, Auchenipteridae), through C banding, Ag-NOR, use of base-specific flourochromes (DAPI and CMA3), as well as FISH (Fluorescent in situ hybridization) using ribosomal DNA probes 5S and 18S. The present results
contribute to a better understanding of the processes of differentiation patterns and chromosome evolution in these groups. The use of other approaches (the morphology and molecular tools) will allow a larger understanding of the genetic
and biological diversity of the Brazilian ichthyofauna. / Estudos citogen?ticos t?m revelado uma grande diversidade at? ent?o n?o detectada em diversas fam?lias de peixes. Muitos destes grupos, sobretudo os que exibem grande diversidade, como Perciformes e Siluriformes, possuem esp?cies de dif?cil caracteriza??o morfol?gica, chamadas de esp?cies cr?pticas, muitas vezes s? detectadas atrav?s de an?lises cariot?picas, as quais revelam varia??es
interespec?ficas marcantes quanto ao n?mero e estrutura cromoss?mica. Desta forma, o presente trabalho pretende contribuir para o conhecimento citogen?tico de esp?cies marinhos e estuarinos, que, por n?o serem exploradas
comercialmente ou terem h?bitos de vida peculiares s?o pouco estudadas quanto aos seus aspectos gen?ticos. Assim, an?lises cariot?picas foram desenvolvidas em uma esp?cie da fam?lia Apogonidae (Perciformes), em duas esp?cies de bagres
marinhos da fam?lia Ariidae (Siluriformes), al?m de uma esp?cie de siluriforme estuarino, Paurachenipterus galeatus (Auchenipteridae) atrav?s de bandamento C, Ag-RONs, colora??o com DAPI e CMA3, bem como pela FISH (Fluorescent in situ hibridization), utilizando sondas ribossomais 5S e 18S. Os resultados aqui apresentados indicam grande diversidade inerente a estes grupos. Outras
abordagens (an?lises morfol?gicas e ferramentas moleculares) permitir?o obter maior entendimento acerca da diversidade biol?gica da ictiofauna brasileira
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