Browsing by Autor "Juan C. Chaparro"

Now showing 1 - 5 of 5

A new species of bamboo-dwelling Ranitomeya (Anura: Dendrobatidae) from the Upper Purus River Basin of Brazil and Peru
(Q15088586, 2025) Evan Twomey; Paulo Roberto Melo-Sampaio; Jason L. Brown; Santiago Castroviejo‐Fisher; Giussepe Gagliardi‐Urrutia; José M. Padial; Roberto Gutiérrez; Juan C. Chaparro
A new species of Ranitomeya from Amazonian lowland forests in western Brazil and southeastern Peru is described and named. This species was formerly considered to be an outlying population of R. sirensis on the far eastern periphery of its geographic distribution. We analyze new and existing phylogenomic data and infer that the new species is not part of, or closely related to R. sirensis, but is sister to a clade including R. aetherea, R. aquamarina, R. cyanovittata, R. flavovittata, and R. yavaricola. The new species can be distinguished from species in its sister clade by its color pattern (yellow dorsal stripes, finely spotted ventral pattern, and a distinctive black band separating the gular and belly regions), and from R. sirensis by the presence/absence of a ventral color patch (absent in the new species, present in R. sirensis). Calls of the new species are longer in duration, with more pulses per call, and a slightly higher pulse rate, than any of the species in its sister clade for which call data are available. The new species is strongly associated with native Guadua bamboo, which it uses for reproduction. Based on museum records the new species also occurs in northern Bolivia. Unlike other close relatives, which are mostly monogamous, males of the new species appear to be polygynous, recruiting multiple females per breeding site.
A new species of Hyalinobatrachium (Anura: Centrolenidae) from the Amazonian slopes of the central Andes, with comments on the diversity of the genus in the area
(Q15088586, 2009) Santiago Castroviejo‐Fisher; José M. Padial; Juan C. Chaparro; Rodrigo Aguayo; Ignacio De la Riva
We describe a new species of Hyalinobatrachium from the Amazonian slopes of the Andes in Peru and Bolivia on the basis of morphological, bioacoustic and genetic characteristics. Hyalinobatrachium carlesvilai sp. nov. can be distinguished from other species of Hyalinobatrachium by the combination of the following characters: (1) truncate snout in dorsal and lateral view; (2) white pericardium; (3) enameled dorsal, tarsal and cloacal folds; (4) hand webbing formula III 2 – – 1 + IV; (5) iris cream; (6) advertisement call consisting of a single, frequency-modulated note with a pulsed section followed by a tonal section. The new species had been previously identified as Hyalinobatrachium munozorum and H. bergeri. The advertisement call of the new species was previously assigned to H. bergeri. Here we describe the previously unknown call of Hyalinobatrachium bergeri. Additionally, we study the taxonomic status of H. lemur and H. pellucidum and place the former as synonym of the later. We extend the distribution of H. pellucidum to Departamento Cusco in southern Peru.
A Revision of Species Diversity in the Neotropical Genus<i>Oreobates</i>(Anura: Strabomantidae), with the Description of Three New Species from the Amazonian Slopes of the Andes
(American Museum of Natural History, 2012) José M. Padial; Juan C. Chaparro; Santiago Castroviejo‐Fisher; Juan M. Guayasamin; Edgar Lehr; Amanda J. Delgado; Marcos Vaira; Mauro Teixeira; Rodrigo Aguayo; Ignacio De la Riva
We revisit species diversity within Oreobates (Anura: Strabomantidae) by combining molecular phylogenetic analyses of the 16S rRNA amphibian barcode fragment with the study of the external morphology of living and preserved specimens. Molecular and morphological evidence support the existence of 23 species within Oreobates, and three additional candidate species (Oreobates sp. [Ca JF809995], Oreobates sp. [Ca EU368903], Oreobates cruralis [Ca EU192295]). We describe and name three new species from the Andean humid montane forests of Departamento Cusco, southern Peru: O. amarakaeri New Species from Río Nusinuscato and Río Mabe, at elevations ranging from 670 to 1000 m in the Andean foothills; O. machiguenga, new species, from Río Kimbiri (1350 m), a small tributary of the Apurimac River, in the western versant of Cordillera Vilcabamba; and O. gemcare, new species, from the Kosñipata Valley at elevations ranging from 2400 to 2800 m. The three new species are readily distinguished from all other Oreobates by at least one qualitative morphological character. Three species are transferred to Oreobates from three genera of Strabomantidae: Hypodactylus lundbergi Pristimantis crepitans, and Phrynopus ayacucho (for which the advertisement call, coloration in life, and male characteristics are described for first time). Oreobates simmonsi is transferred to the genus Lynchius. Hylodes verrucosus is considered a junior synonym of Hylodes philippi. In addition, H. philippi is removed from the synonymy of O. quixensis and considered a nomem dubium within Hypodactylus. The inclusion of Phrynopus ayacucho in Oreobates extends the ecological range of the genus to the cold Andean puna. Oreobates is thus distributed from the Amazonian lowlands in southern Colombia to northern Argentina, reaching the Brazilian Atlantic dry forests in eastern Brazil, across an altitudinal range from ca. 100 to 3850 m.
A roadmap for harlequin frog systematics, with a partial revision of Amazonian species related to Atelopus spumarius
(Q15088586, 2025) Stefan Lötters; Philipp Böning; Salvador Bailón; José Simón Martínez Castañeda; Renaud Boistel; Alessandro Catenazzi; Juan C. Chaparro; Germán Chávez; ANGEL CHUJUTALLI; Laurent Coen
Harlequin frogs, genus Atelopus, are a species-rich group of bufonid anurans from the Neotropics with more than 100 species. For nearly four decades now, this group has suffered from massive population declines. Almost all species are threatened with extinction, and many populations and several species are considered extinct or possibly extinct. This results in a limited sampling available for studies on harlequin frog systematics, especially in terms of molecular genetic information. However, efficient conservation of harlequin frogs requires an improved taxonomy. This is further complicated through the circumstance that many Atelopus species are relatively poor in external morphological characters combined with a high level of intra-specific character variation (e.g. coloration and body size). At the same time, cryptic diversity exists with well differentiated species (supported by osteology and molecular genetics) almost indistinguishable by external morphology. We compiled the largest dataset to date for mitochondrial (12S, 16S, cyt b) and nuclear (POMC, RAG1) markers and present a phylogeny (likelihood and Bayesian inference methods) including 152 samples from 104 populations scattered over the entire geographic range of the genus. Four allo- or parapatric main clades are distinguished: I. Sierra Nevada; II. Venezuelan-Andean; III. Andean-Chocó-Central American (with the ignescens and the varius-longirostris clades); and IV Amazonian (containing the tricolor and the flavescens-spumarius clades). The phylogenetic relationships within these clades remain to be resolved. Taxonomic implications included both splitting and lumping, but taxonomic action is here only taken for populations related to A. spumarius from western Amazonia. Besides redescriptions of A. spumarius sensu stricto and A. colomai, we describe two new species based on morphology, skull osteology and bioacoustics. Additional yet understudied populations from Amazonia may be allocated to these species or may represent additional undescribed taxa.
Diversification of the <i>Pristimantis conspicillatus</i> group (Anura: Craugastoridae) within distinct neotropical areas throughout the Neogene
(Taylor & Francis, 2022) Antoine Fouquet; Alexandre Réjaud; Miguel Tréfaut Rodrigues; Santiago R. Ron; Juan C. Chaparro; Mariela Osorno; Fernanda P. Werneck; Tomas Hrbek; Albertina P. Lima; Teresa Camacho‐Badani
Determining the relative importance of dispersal and vicariance events across neotropical regions is a major goal in biogeography. These events are thought to be related to important landscape changes, notably the transition of Amazonia toward its modern hydrological configuration ca. 10 million years ago. We investigated the spatio-temporal context of the diversification of one of the major lineages of Pristimantis, a widespread and large genus of direct-developing Neotropical frogs. We gathered a spatially and taxonomically extensive sampling of mitochondrial DNA sequences from 754 Pristimantis gr. conspicillatus specimens, which led to delimiting 75 Operational Taxonomic Units (OTUs). Complete mitogenomes of 35 of these OTUs were assembled and collated with two nuDNA loci to reconstruct a time-calibrated phylogeny. We identified five major clades that diverged around the Oligocene-Miocene transition and that are largely restricted to distinct Neotropical regions i.e. Western Amazonia (P. conspicillatus clade), the Brazilian Shield (P. fenestratus clade), the Atlantic Forest (P. ramagii clade), the Guiana Shield (P. vilarsi clade) and the northern Andes (P. nicefori clade). The majority of the diversification events within these clades occurred in-situ from the early Miocene onward. Yet, a few ancient dispersal/vicariance events are inferred to have occurred among trans-Andean forests, the Atlantic Forest, the Brazilian and the Guiana Shields, but almost none in the last 10 Ma. The radical landscape transformations during the Miocene caused by the Andean orogeny and hydrological barriers such as the Pebas System and the subsequent transcontinental configuration of the Amazon drainage is a likely explanation for the isolation of the different clades within the P. gr. conspicillatus.