Your search keyword '"Farias, Izeni Pires"' showing total 6 results

1. Two hundred and five newly assembled mitogenomes provide mixed evidence for rivers as drivers of speciation for Amazonian primates

Author

Janiak, Mareike, Silva, Felipe E., Beck, Robin, de Vries, Dorien, Kuderna, Lukas F.K., Torosin, Nicole, Melin, Amanda D., Marques-Bonet, Tomas, Goodhead, Ian, Messias, Mariluce, da Silva, Maria N.F., Sampaio, Iracilda, Farias, Izeni Pires, Rossi, Rogerio, de Melo, Fabiano R., Valsecchi, João, Hrbek, Tomas, Boubli, Jean, Janiak, Mareike, Silva, Felipe E., Beck, Robin, de Vries, Dorien, Kuderna, Lukas F.K., Torosin, Nicole, Melin, Amanda D., Marques-Bonet, Tomas, Goodhead, Ian, Messias, Mariluce, da Silva, Maria N.F., Sampaio, Iracilda, Farias, Izeni Pires, Rossi, Rogerio, de Melo, Fabiano R., Valsecchi, João, Hrbek, Tomas, and Boubli, Jean

Abstract

Altres ajuts: CERCA Programme/Generalitat de Catalunya, Mitochondrial DNA remains a cornerstone for molecular ecology, especially for study species from which high-quality tissue samples cannot be easily obtained. Methods using mitochondrial markers are usually reliant on reference databases, but these are often incomplete. Furthermore, available mitochondrial genomes often lack crucial metadata, such as sampling location, limiting their utility for many analyses. Here, we assembled 205 new mitochondrial genomes for platyrrhine primates, most from the Amazon and with known sampling locations. We present a dated mitogenomic phylogeny based on these samples along with additional published platyrrhine mitogenomes, and use this to assess support for the long-standing riverine barrier hypothesis (RBH), which proposes that river formation was a major driver of speciation in Amazonian primates. Along the Amazon, Negro, and Madeira rivers, we found mixed support for the RBH. While we identified divergences that coincide with a river barrier, only some occur synchronously and also overlap with the proposed dates of river formation. The most compelling evidence is for the Amazon river potentially driving speciation within bearded saki monkeys (Chiropotes spp.) and within the smallest extant platyrrhines, the marmosets and tamarins. However, we also found that even large rivers do not appear to be barriers for some primates, including howler monkeys (Alouatta spp.), uakaris (Cacajao spp.), sakis (Pithecia spp.), and robust capuchins (Sapajus spp.). Our results support a more nuanced, clade-specific effect of riverine barriers and suggest that other evolutionary mechanisms, besides the RBH and allopatric speciation, may have played an important role in the diversification of platyrrhines.

Published

2022

2. Redescription of the Amazonian tiny tree toad Amazophrynella minuta (Melin, 1941) (Anura: Bufonidae) from its type locality

Author

Rojas, Rommel R., Fouquet, Antoine, De Carvalhol, Vinicius Tadeu, Ron, Santiago, Chaparro, Juan Carlos, Vogt, Richard C., Avila, Robson W., Farias, Izeni Pires, Gordo, Marcelo, Hrbek, Tomas, Rojas, Rommel R., Fouquet, Antoine, De Carvalhol, Vinicius Tadeu, Ron, Santiago, Chaparro, Juan Carlos, Vogt, Richard C., Avila, Robson W., Farias, Izeni Pires, Gordo, Marcelo, and Hrbek, Tomas

Abstract

The description of Amazophrynella minuta was published in 1941 by the Swedish naturalist Douglas Melin based on material from Taracua (Amazonas state, Brazil). This description was very brief and based on the morphology of few specimens with diagnostic characters and color variation not well defined. Moreover, the type series is currently in poor state of conservation. Consequently, taxonomic ambiguity surrounds the nominal taxon A. minuta, which hampers the description of many unnamed congeneric species. Herein, we redescribe A. minuta based on recently collected specimens from the type locality, designate a lectotype, formulate a new diagnosis, provide patterns of morphological variation, measurements and body proportions.

Published

2018

3. A Pan-Amazonian species delimitation: high species diversity within the genus Amazophrynella (Anura: Bufonidae)

Author

Rojas, Rommel R., Fouquet, Antoine, Ron, Santiago R., Hernandez-ruz, Emil Jose, Melo-sampaio, Paulo R., Chaparro, Juan C., Vogt, Richard C., De Carvalho, Vinicius Tadeu, Pinheiro, Leandra Cardoso, Avila, Robson W., Farias, Izeni Pires, Gordo, Marcelo, Hrbek, Tomas, Rojas, Rommel R., Fouquet, Antoine, Ron, Santiago R., Hernandez-ruz, Emil Jose, Melo-sampaio, Paulo R., Chaparro, Juan C., Vogt, Richard C., De Carvalho, Vinicius Tadeu, Pinheiro, Leandra Cardoso, Avila, Robson W., Farias, Izeni Pires, Gordo, Marcelo, and Hrbek, Tomas

Abstract

Amphibians are probably the most vulnerable group to climate change and climate-change associate diseases. This ongoing biodiversity crisis makes it thus imperative to improve the taxonomy of anurans in biodiverse but understudied areas such as Amazonia. In this study, we applied robust integrative taxonomic methods combining genetic (mitochondrial 16S, 12S and COI genes), morphological and environmental data to delimit species of the genus Amazophrynella (Anura: Bufonidae) sampled from throughout their pan-Amazonian distribution. Our study confirms the hypothesis that the species diversity of the genus is grossly underestimated. Our analyses suggest the existence of eighteen linages of which seven are nominal species, three Deep Conspecific Lineages, one Unconfirmed Candidate Species, three Uncategorized Lineages, and four Confirmed Candidate Species and described herein. We also propose a phylogenetic hypothesis for the genus and discuss its implications for historical biogeography of this Amazonian group.

Published

2018

4. Redescription of the Amazonian tiny tree toad Amazophrynella minuta (Melin, 1941) (Anura: Bufonidae) from its type locality

Author

Rojas, Rommel R., Fouquet, Antoine, De Carvalhol, Vinicius Tadeu, Ron, Santiago, Chaparro, Juan Carlos, Vogt, Richard C., Avila, Robson W., Farias, Izeni Pires, Gordo, Marcelo, Hrbek, Tomas, Rojas, Rommel R., Fouquet, Antoine, De Carvalhol, Vinicius Tadeu, Ron, Santiago, Chaparro, Juan Carlos, Vogt, Richard C., Avila, Robson W., Farias, Izeni Pires, Gordo, Marcelo, and Hrbek, Tomas

Abstract

The description of Amazophrynella minuta was published in 1941 by the Swedish naturalist Douglas Melin based on material from Taracua (Amazonas state, Brazil). This description was very brief and based on the morphology of few specimens with diagnostic characters and color variation not well defined. Moreover, the type series is currently in poor state of conservation. Consequently, taxonomic ambiguity surrounds the nominal taxon A. minuta, which hampers the description of many unnamed congeneric species. Herein, we redescribe A. minuta based on recently collected specimens from the type locality, designate a lectotype, formulate a new diagnosis, provide patterns of morphological variation, measurements and body proportions.

Published

2018

5. A Pan-Amazonian species delimitation: high species diversity within the genus Amazophrynella (Anura: Bufonidae)

Author

Rojas, Rommel R., Fouquet, Antoine, Ron, Santiago R., Hernandez-ruz, Emil Jose, Melo-sampaio, Paulo R., Chaparro, Juan C., Vogt, Richard C., De Carvalho, Vinicius Tadeu, Pinheiro, Leandra Cardoso, Avila, Robson W., Farias, Izeni Pires, Gordo, Marcelo, Hrbek, Tomas, Rojas, Rommel R., Fouquet, Antoine, Ron, Santiago R., Hernandez-ruz, Emil Jose, Melo-sampaio, Paulo R., Chaparro, Juan C., Vogt, Richard C., De Carvalho, Vinicius Tadeu, Pinheiro, Leandra Cardoso, Avila, Robson W., Farias, Izeni Pires, Gordo, Marcelo, and Hrbek, Tomas

Abstract

Amphibians are probably the most vulnerable group to climate change and climate-change associate diseases. This ongoing biodiversity crisis makes it thus imperative to improve the taxonomy of anurans in biodiverse but understudied areas such as Amazonia. In this study, we applied robust integrative taxonomic methods combining genetic (mitochondrial 16S, 12S and COI genes), morphological and environmental data to delimit species of the genus Amazophrynella (Anura: Bufonidae) sampled from throughout their pan-Amazonian distribution. Our study confirms the hypothesis that the species diversity of the genus is grossly underestimated. Our analyses suggest the existence of eighteen linages of which seven are nominal species, three Deep Conspecific Lineages, one Unconfirmed Candidate Species, three Uncategorized Lineages, and four Confirmed Candidate Species and described herein. We also propose a phylogenetic hypothesis for the genus and discuss its implications for historical biogeography of this Amazonian group.

Published

2018

6. A Pan-Amazonian species delimitation: high species diversity within the genus Amazophrynella (Anura: Bufonidae)

Author

Rojas, Rommel R., Fouquet, Antoine, Ron, Santiago R., Hernandez-ruz, Emil Jose, Melo-sampaio, Paulo R., Chaparro, Juan C., Vogt, Richard C., De Carvalho, Vinicius Tadeu, Pinheiro, Leandra Cardoso, Avila, Robson W., Farias, Izeni Pires, Gordo, Marcelo, Hrbek, Tomas, Rojas, Rommel R., Fouquet, Antoine, Ron, Santiago R., Hernandez-ruz, Emil Jose, Melo-sampaio, Paulo R., Chaparro, Juan C., Vogt, Richard C., De Carvalho, Vinicius Tadeu, Pinheiro, Leandra Cardoso, Avila, Robson W., Farias, Izeni Pires, Gordo, Marcelo, and Hrbek, Tomas

Abstract

Amphibians are probably the most vulnerable group to climate change and climate-change associate diseases. This ongoing biodiversity crisis makes it thus imperative to improve the taxonomy of anurans in biodiverse but understudied areas such as Amazonia. In this study, we applied robust integrative taxonomic methods combining genetic (mitochondrial 16S, 12S and COI genes), morphological and environmental data to delimit species of the genus Amazophrynella (Anura: Bufonidae) sampled from throughout their pan-Amazonian distribution. Our study confirms the hypothesis that the species diversity of the genus is grossly underestimated. Our analyses suggest the existence of eighteen linages of which seven are nominal species, three Deep Conspecific Lineages, one Unconfirmed Candidate Species, three Uncategorized Lineages, and four Confirmed Candidate Species and described herein. We also propose a phylogenetic hypothesis for the genus and discuss its implications for historical biogeography of this Amazonian group.

Published

2018