ORCID Profile
0000-0003-3288-1693
Current Organisation
Universidade de Lisboa
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Publisher: Springer Science and Business Media LLC
Date: 22-02-2007
Publisher: Springer Science and Business Media LLC
Date: 08-2011
DOI: 10.1007/S10709-011-9602-0
Abstract: The phylogenetic relationships of the genus Squalius are believed to be well established based on the mitochondrial cytochrome b gene. Here, we inferred the phylogenetic relationships of all species inhabiting most of the western Iberia river systems using a nuclear multi-locus approach and different species tree methods: concatenation and coalescent-based methods (BEST and minimize-deep-coalescence). The dataset comprised sequences of seven coding and three non-coding regions belonging to seven nuclear genes, which were chosen to cover multiple biological functions: amh, bmp4, ef1a, egr2, irbp, rh and rpl8. We provide evidence for a conflicting topology between the nuDNA species tree and the widely reported mtDNA gene tree. S. pyrenaicus is rendered paraphyletic in all nuDNA species trees, with populations of the Tagus/Colares clustering with S. carolitertii, while populations from the Guadiana, Sado and Almargem form a separate clade. Although a larger s ling size encompassing the full spectrum of Squalius populations in western Iberia is still needed to fully elucidate the phylogeography and species delimitation of this genus, our results suggest that the two S. pyrenaicus clades may represent different species.
Publisher: Elsevier BV
Date: 07-2012
DOI: 10.1016/J.YMPEV.2012.04.004
Abstract: Lineages undergoing rapid radiations provide exceptional opportunities for studying speciation and adaptation, but also represent a challenge for molecular systematics because retention of ancestral polymorphisms and the occurrence of hybridization can obscure relationships among lineages. Dolphins in the subfamily Delphininae are one such case. Non-monophyly, rapid speciation events, and discordance between morphological and molecular characters have made the inference of phylogenetic relationships within this subfamily very difficult. Here we approach this problem by applying multiple methods intended to estimate species trees using a multi-gene dataset for the Delphininae (Sousa, Sotalia, Stenella, Tursiops, Delphinus and Lagenodelphis). Incongruent gene trees obtained indicate that incomplete lineage sorting and possibly hybridization are confounding the inference of species history in this group. Nonetheless, using coalescent-based methods, we have been able to extract an underlying species-tree signal from ergent histories of independent genes. This is the first time a molecular study provides support for such relationships. This study further illustrates how methods of species-tree inference can be very sensitive both to the characteristics of the dataset and the evolutionary processes affecting the evolution of the group under study.
Publisher: Oxford University Press (OUP)
Date: 2011
Abstract: The rapid evolution of proteins involved in reproduction has been documented in several animal taxa. This is thought to be the result of forces involved in sexual selection and is expected to be particularly strong in promiscuous mating systems. In this study, a range of cetacean species were used to analyze the patterns of evolution in 2 reproductive proteins involved in fertilization: the zona pellucida 3 (ZP3), present in the egg coat, and PKDREJ, localized in the sperm head. We targeted exons 6 and 7 of ZP3 and a part of the REJ domain in PKDREJ for a total of 958 bp in 18 species. We found very low levels of amino acid sequence ergence in both proteins, a very weak signal of positive selection in ZP3 and no signal in PKDREJ. These results were consistent with previous reports of a slow rate of molecular evolution in cetaceans but unexpected due to the existence of promiscuous mating systems in these species. The results raise questions about the evolution of reproductive isolation and species recognition in whales and dolphins.
Publisher: Elsevier BV
Date: 2009
DOI: 10.1016/J.ZOOL.2008.03.001
Abstract: The present study investigates the pattern of differentiation of cranial shape in three closely related delphinid cetacean species of the complex Delphinus-Stenella-Tursiops: Delphinus delphis, Stenella coeruleoalba and Tursiops truncatus. Dorsal and ventral aspects of the cranium were analysed using landmark-based geometric morphometric methods. While there was no evidence of sexual dimorphism for shape or size, multivariate statistical analyses showed that there were interspecific differences in skull morphology. Skull shape differences between the three studied species were related with cranial width and differences in the length of the rostrum relative to the cranial portion of the skull. D. delphis and S. coeruleoalba showed high cranial shape similarity, which is indicative of their evolutionary proximity when compared with T. truncatus. Phenetic clusters based on cranial shape similarities were found to be concordant with the molecular phylogenetic clades obtained from mitochondrial DNA genes. Geometric morphometric methods can thus be an exceptionally useful tool for the study of differentiation of delphinid cetacean species and therefore provide some insights into their evolutionary history.
Publisher: Public Library of Science (PLoS)
Date: 08-01-2014
Publisher: Public Library of Science (PLoS)
Date: 02-02-2012
Publisher: Springer Science and Business Media LLC
Date: 02-04-2010
Publisher: Wiley
Date: 19-06-2017
DOI: 10.1111/MEC.14185
Abstract: Species endemic to the tropical regions are expected to be vulnerable to future climate change due in part to their relatively narrow climatic niches. In addition, these species are more likely to have responded strongly to past climatic change, and this can be explored through phylogeographic analyses. To test the hypothesis that tropical specialists are more sensitive to climate change than climate generalists, we generated and analyse sequence data from mtDNA and ~2500 exons to compare scales of historical persistence and population fluctuation in two sister species of Australian rainbow skinks: the tropical specialist Carlia johnstonei and the climate generalist C. triacantha. We expect the tropical specialist species to have deeper and finer-scale phylogeographic structure and stronger demographic fluctuations relative to the closely related climate generalist species, which should have had more stable populations through periods of harsh climate in the late Quaternary. Within C. johnstonei, we find that some populations from the northern Kimberley islands are highly ergent from mainland populations. In C. triacantha, one major clade occurs across the deserts and into the mesic Top End, and another occurs primarily in the Kimberley with scattered records eastwards. Where their ranges overlap in the Kimberley, both mitochondrial DNA and nuclear DNA suggest stronger phylogeographic structure and range expansion within the tropical specialist, whereas the climate generalist has minimal structuring and no evidence of recent past range expansion. These results are consistent with the hypothesis that tropical specialists are more sensitive to past climatic change.
Publisher: Wiley
Date: 14-08-2012
Publisher: CSIRO Publishing
Date: 2007
DOI: 10.1071/MF07050
Abstract: The DNA barcode initiative has gained particular popularity as a promising tool to assist in species identification by using a single mitochondrial gene, cytochrome c oxidase I (COI). In some animal groups, COI barcodes have proved efficient in separating closely related taxa. However, several issues remain for discussion, namely how efficient this tool will be in animal groups with an unresolved taxonomy. Here, we examined COI sequences in delphinid cetaceans, a group where taxonomic uncertainty still exists. We analysed species belonging to the genera Stenella, Tursiops and Delphinus in the North-east Atlantic using cytochrome b gene sequences for comparison. We obtained values of COI interspecific genetic ergence ranging from 1.47% to 2.45%, which suggests a recent separation of the analysed taxa. S. coeruleoalba and D. delphis were the most similar species, with COI phylogenetic trees failing to separate them. On the other hand, the phylogenetic tree obtained with cytochrome b sequences correctly clustered species with high bootstrap support values. We thus consider that the application of COI barcodes in delphinid cetaceans should be done with caution not only has the cytochrome b gene been shown to be phylogenetically more informative, but relying only on mitochondrial DNA genes alone may be problematic.
No related grants have been discovered for Maria Coelho.