José A. Dávila

Cryptic diversity and deep divergence in an upper Amazonian leaflitter frog, Eleutherodactylus ockendeni

BackgroundThe forests of the upper Amazon basin harbour some of the worlds highest anuran species richness, but to date we have only the sparsest understanding of the distribution of genetic diversity within and among species in this region. To quantify region-wide genealogical patterns and to test for the presence of deep intraspecific divergences that have been documented in some other neotropical anurans, we developed a molecular phylogeny of the wide-spread terrestrial leaflitter frog Eleutherodactylus ockendeni (Leptodactylidae) from 13 localities throughout its range in Ecuador using data from two mitochondrial genes (16S and cyt b; 1246 base pairs). We examined the relation between divergence of mtDNA and the nuclear genome, as sampled by five species-specific microsatellite loci, to evaluate indirectly whether lineages are reproductively isolated where they co-occur. Our extensive phylogeographic survey thus assesses the spatial distribution of E. ockendeni genetic diversity across eastern Ecuador.ResultsWe identified three distinct and well-supported clades within the Ecuadorean range of E. ockendeni: an uplands clade spanning north to south, a northeastern and central lowlands clade, and a central and southeastern clade, which is basal. Clades are separated by 12% to 15% net corrected p-distance for cytochrome b, with comparatively low sequence divergence within clades. Clades marginally overlap in some geographic areas (e.g., Napo River basin) but are reproductively isolated, evidenced by diagnostic differences in microsatellite PCR amplification profiles or DNA repeat number and coalescent analyses (in MDIV) best modelled without migration. Using Bayesian (BEAST) and net phylogenetic estimates, the Southeastern Clade diverged from the Upland/Lowland clades in the mid-Miocene or late Oligocene. Lowland and Upland clades speciated more recently, in the early or late Miocene.ConclusionOur findings uncover previously unsuspected cryptic species diversity within the common leaflitter frog E. ockendeni, with at least three different species in Ecuador. While these clades are clearly geographically circumscribed, they do not coincide with any existing landscape barriers. Divergences are ancient, from the Miocene, before the most dramatic mountain building in the Ecuadorean Andes. Therefore, this diversity is not a product of Pleistocene refuges. Our research coupled with other studies suggests that species richness in the upper Amazon is drastically underestimated by current inventories based on morphospecies.

Fitness consequences of anthropogenic hybridization in wild red-legged partridge ( Alectoris rufa , Phasianidae) populations

Hybridization is a widespread phenomenon, which plays crucial roles in the speciation of living beings. However, unnatural mixing of historically isolated taxa due to human-related activities has increased in recent decades, favouring levels of hybridization and introgression that can have important implications for conservation. The wild red-legged partridge (Alectoris rufa, Phasianidae) populations have recently declined and the releases of farm-reared partridges have become a widespread management strategy. The native range of the red-legged is limited to the south-west of Europe (from Italy to Portugal). This species does not breed in sympatry with the chukar partridge (A. chukar), whose range is Eurasian (from Turkey to China). However, red-legged partridges have often been hybridized with chukar partridges to increase the productivity of farmed birds, and game releases may have spread hybrid birds into the wild. In this study, we investigated the fitness (survival and breeding) differences between hybrid and “pure” red-legged partridges in a wild population located in central Spain. Incubation probability was similar in hybrids and “pure” partridges. Hybrid females laid larger clutches than “pure” ones, but hatching success did not differ between hybrid and “pure” partridges. Hybrid birds had lower survival rate than “pure” ones, mainly because of higher predation rates. Our results show that, despite lower survival, hybrid partridges breed in natural populations, so this could increase extinction risk of wild pure partridge populations, through releases of farmed hybrid birds. The consequences of continued releases could be of vital importance for the long term conservation of wild red-legged partridges.

Male phenotype predicts extra-pair paternity in pied flycatchers

Consejeria de Medio Ambiente, Comunidad de Madrid and Delegacion de Medio Ambiente, Junta de Castilla-La Mancha gave us working permissions. This work was supported by projects PAC05-006-2 (to J.A.D.) and CGL2006-07481/BOS (to J.C. Senar). D.C. was supported by a grant from the Ministerio de Educacion y Ciencia (I3P-BDP2005).

Applying new inter-individual approaches to assess fine-scale population genetic diversity in a neotropical frog, Eleutherodactylus ockendeni

We assess patterns of genetic diversity of a neotropical leaflitter frog, Eleutherodactylus ockendeni, in the upper Amazon of Ecuador without a priori delineation of biological populations and with sufficiently intensive sampling to assess inter-individual patterns. We mapped the location of each collected frog across a 5.4 × 1 km landscape at the Jatun Sacha Biological Station, genotyped 185 individuals using five species–specific DNA microsatellite loci, and sequenced a fragment of mitochondrial cytochrome b for a subset of 51 individuals. The microsatellites were characterized by high allelic diversity and homozygote excess across all loci, suggesting that when pooled the sample is not a panmictic population. We conclude that the lack of panmixia is not attributable to the influence of null alleles or biased sampling of consanguineous family groups. Multiple methods of population cluster analysis, using both Bayesian and maximum likelihood approaches, failed to identify discrete genetic clusters across the sampled area. Using multivariate spatial autocorrelation, kinship coefficients and relatedness coefficients, we identify a continuous isolation by distance population structure, with a first patch size of ca. 260 m and apparently large population sizes. Analysis of mtDNA corroborates the observation of high genetic diversity at fine scales: there are multiple haplotypes, they are non-randomly distributed and a binary haplotype correlogram shows significant spatial genetic autocorrelation. We demonstrate the utility of inter-individual genetic methods and caution against making a priori assumptions about population genetic structure based simply on arbitrary or convenient patterns of sampling.

The influence of landscape on gene flow in the eastern massasauga rattlesnake (Sistrurus c. catenatus): insight from computer simulations.

Understanding how gene flow shapes contemporary population structure requires the explicit consideration of landscape composition and configuration. New landscape genetic approaches allow us to link such heterogeneity to gene flow within and among populations. However, the attribution of cause is difficult when landscape features are spatially correlated, or when genetic patterns reflect past events. We use spatial Bayesian clustering and landscape resistance analysis to identify the landscape features that influence gene flow across two regional populations of the eastern massasauga rattlesnake, Sistrurus c. catenatus. Based on spatially explicit simulations, we inferred how habitat distribution modulates gene flow and attempted to disentangle the effects of spatially confounded landscape features. We found genetic clustering across one regional landscape but not the other, and also local differences in the effect of landscape on gene flow. Beyond the effects of isolation‐by‐distance, water bodies appear to underlie genetic differentiation among individuals in one regional population. Significant effects of roads were additionally detected locally, but these effects are possibly confounded with the signal of water bodies. In contrast, we found no signal of isolation‐by‐distance or landscape effects on genetic structure in the other regional population. Our simulations imply that these local differences have arisen as a result of differences in population density or tendencies for juvenile rather than adult dispersal. Importantly, our simulations also demonstrate that the ability to detect the consequences of contemporary anthropogenic landscape features (e.g. roads) on gene flow may be compromised when long‐standing natural features (e.g. water bodies) co‐exist on the landscape.

Phylogeography and genetic structure of the red‐legged partridge (Alectoris rufa): more evidence for refugia within the Iberian glacial refugium

The Pleistocene climatic oscillations promoted the diversification in avian species during the last glacial period. The red‐legged partridge (Alectoris rufa, Family Phasianidae) has a large natural distribution extending from the Mediterranean to humid temperate zones. However, the genetic structure for this species is unknown. The present study investigates the phylogeography, genetic structure and demographic history of A. rufa across its distribution, employing both mitochondrial DNA control region sequences and nuclear microsatellite loci. Our results propose that this species was greatly affected by Pleistocene glaciations. The mismatch analyses suggest that the current populations resulted from post‐glacial expansion and subsequent differentiation resulting in five diagnosable genetic clusters: Southwestern, Central‐eastern, Northwestern, Balearic and French and Italian. Further, we found evidence of three glacial refugia within the currently recognized Iberian glacial refugium. The intraspecific structure revealed by both maternal and biparental phylogeographic analyses was not resolved in the phylogenetic analyses. Based on all considerations, we recommended that five management units be recognized.

Continental phylogeography of an ecologically and morphologically diverse Neotropical songbird, Zonotrichia capensis

BackgroundThe Neotropics are exceptionally diverse, containing roughly one third of all extant bird species on Earth. This remarkable species richness is thought to be a consequence of processes associated with both Andean orogenesis throughout the Tertiary, and climatic fluctuations during the Quaternary. Phylogeographic studies allow insights into how such events might have influenced evolutionary trajectories of species and ultimately contribute to a better understanding of speciation. Studies on continentally distributed species are of particular interest because different populations of such taxa may show genetic signatures of events that impacted the continent-wide biota. Here we evaluate the genealogical history of one of the world’s most broadly-distributed and polytypic passerines, the rufous-collared sparrow (Zonotrichia capensis).ResultsWe obtained control region DNA sequences from 92 Zonotrichia capensis individuals sampled across the species’ range (Central and South America). Six additional molecular markers, both nuclear and mitochondrial, were sequenced for a subset of individuals with divergent control region haplotypes. Median-joining network analysis, and Bayesian and maximum parsimony phylogenetic analyses all recovered three lineages: one spanning Middle America, the Dominican Republic, and north-western South America; one encompassing the Dominican Republic, Roraima (Venezuela) and La Paz (Bolivia) south to Tierra del Fuego, Argentina; and a third, including eastern Argentina and Brazil. Phylogenetic analyses suggest that the Middle American/north-western South American clade is sister to the remaining two. Bayesian and maximum likelihood coalescent simulations used to study lineage demographic history, diversification times, migration rates and population expansion together suggested that diversification of the three lineages occurred rapidly during the Pleistocene, with negligible gene flow, leaving genetic signatures of population expansions.ConclusionsThe Pleistocene history of the rufous-collared sparrow involved extensive range expansion from a probable Central American origin. Its remarkable morphological and behavioral diversity probably represents recent responses to local conditions overlying deeper patterns of lineage diversity, which are themselves produced by isolation and the history of colonization of South America.

Contamination with nonessential metals from a solid-waste incinerator correlates with nutritional and immunological stress in prefledgling black kites (Milvus migrans)

We assessed whether levels of heavy metals in blood have detrimental effects on the health of prefledgling black kites (Milvus migrans) exposed to emissions from a solid waste incinerator near Madrid, central Spain. As health indexes, we considered body mass corrected by structural size as a general indicator of nutritional condition and white blood cell counts (especially the heterophil:lymphocyte ratio) as an indirect measure of immune function. Nutritional condition was positively related to levels of Zn, an essential element with a major role in many physiological pathways, while the opposite trend was found for the essential Cu, the concentration of which tends to increase with decreasing nutritional condition. We found an interaction between Zn and Cd, indicating that high levels of Zn produce smaller effects of Cd on body mass. Potential immunological stress, expressed as an increase in the heterophil:lymphocyte ratio, caused by the toxic Cd increased as levels of Cu decreased. Thus, nestlings with low levels of Cu and poor nutritional condition suffered more immunological stress due to Cd contamination than nestlings with higher levels of Cu. We also found a negative interaction between Zn and Cd, indicating a response of essential Zn to increasing levels of Cd, which may be indicative of the negative effects of Cd on the immune system. These results suggest that the participation of metallothioneins in detoxification and metal regulation may also indirectly enhance the adrenal stress response to contaminants, probably through a competition of Cd and Zn for Zn binding sites on metallothioneins, reducing the ability of Cd to stress the immune system.

Survey of infectious agents in the endangered Darwin's fox (Lycalopex fulvipes): High prevalence and diversity of hemotrophic mycoplasmas

Very little is known about the diseases affecting the Darwins fox (Lycalopex fulvipes), which is considered to be one of the most endangered carnivores worldwide. Blood samples of 30 foxes captured on Chiloé Island (Chile) were tested with a battery of PCR assays targeting the following pathogens: Ehrlichia/Anaplasma sp., Rickettsia sp., Bartonella sp., Coxiella burnetti, Borrelia sp., Mycoplasma sp., Babesia sp., Hepatozoon canis, Hepatozoon felis, Leishmania donovani complex, and Filariae. Analysis of the 16S rRNA gene revealed the presence of Mycoplasma spp. in 17 samples (56.7%, 95% Confidence Intervals= 38.2-73.7). Of these, 15 infections were caused by a Mycoplasma belonging to the M. haemofelis/haemocanis (Mhf/Mhc) group, whereas two were caused by a Mycoplasma showing between 89% and 94% identity with different Candidatus Mycoplasma turicensis from felids and rodents hemoplasmas. The analysis of the sequence of the RNA subunit of the RNase P gene of 10 of the foxes positive for Mhf/Mhc showed that eight were infected with M. haemocanis (Mhc), one with a Mycoplasma showing 94% identity with Mhc, and one by M. haemofelis (Mhf). One of the foxes positive for Mhc was infected with a Ricketssia closely related to R. felis. All foxes were negative for the other studied pathogens. Our results are of interest because of the unexpectedly high prevalence of Mycoplasma spp. detected, the variability of species identified, the presence of a potentially new species of hemoplasma, and the first time a hemoplasma considered to be a feline pathogen (Mhf) has been identified in a canid. Though external symptoms were not observed in any of the infected foxes, further clinical and epidemiological studies are necessary to determine the importance of hemoplasma infection in this unique species.

Molecular identification of a novel gammaherpesvirus in the endangered Darwin’s fox (Lycalopex fulvipes)

We report the detection and characterization of a novel gammaherpesvirus in the critically endangered Darwins fox (Lycalopex fulvipes; syn. Pseudalopex fulvipes) on Chiloé Island, Chile. Out of 28 analysed blood samples stored in alcohol, four were positive for this herpesvirus using a previously described pan-herpesvirus PCR assay targeting the herpesvirus DNA polymerase. Positive samples were subsequently characterized by means of a PCR targeting a 500 bp fragment of the glycoprotein B of the gammaherpesviruses. This novel herpesvirus was most closely related to other gammaherpesviruses from terrestrial carnivores, and is tentatively named Darwins fox gammaherpesvirus. No apparent lesions were observed in the surveyed foxes. This is the first report of a gammaherpesvirus infecting a canid worldwide, and also of one infecting a carnivore from South America.