Boulenger, G.A. (1905) - Description of Iberolacerta monticola monticola. – In: “A contribution to the knowledge of the varieties of the Wall-Lizard (Lacerta muralis) in western Europe and North Africa”. - Transactions of the Zoological Society of London, 17: 351-420. Mayer, W. & Arribas, O.J. (1996) - Allozyme differentiation and relationship among the Iberian-Pyrenean Mountain lizards (Squamata: Sauria: Lacertidae). - Herpetozoa, Wien, 9 (1/2): 57-61. × Sechs nominelle Taxa (`Lacerta` monücola cantabrica, `L. ` monticola monücola, `L. ` aranica, `L. ` aurelioi, `L. ` bonnali, `L. ` cyreni) der Iberisch-Pyrenäischen Gebirgseidechsen wurden mittels Allozym- Elektrophorese hinsichtlich 15 enzymatischer Loci untersucht; `L.` horvalhi wurde als Outgroup fiir die phylo- genetische Analyse verwendet.
Nach unseren Ergebnissen, die völlig mit karyologischen Befunden übereinstimmen (ODIERNA & al. im Druck a, b), können fünf Taxa, die wir als Arten auflassen ( T . ` monticola, `L. ` aranica, `L. ` aurelioi, `L. ` bonnali, `L. ` cyreni), unterschieden werden. Remón, N. & Vila, M. & Galán, P. & Naveira, H. (2008) - Isolation and characterization of polymorphic microsatellite markers in Iberolacerta monticola, and cross-species amplification in Iberolacerta galani and Zootoca vivipara. - Molecular Ecology Resources, 8: 1351-1353. × Fourteen polymorphic microsatellite loci are described for the Iberian rock lizard, Iberol-
acerta monticola. Genetic variation in a sample of 20 individuals from Piornedo (north-
western Spain) was quantified both by the number of alleles per locus, which ranged from
six to 13, and by the expected frequency of heterozygotes under random mating (heterozy-
gosity), which ranged from 0.761 to 0.902. Single locus and global exclusion probabilities
were also computed, and indicate a high power of these markers for paternity assignments
and mating system studies of I. monticola. All the analysed loci were also polymorphic in
Iberolacerta galani, but only seven in Zootoca vivipara. Remón, N. & Galán, P. & Vila, M. & Arribas, O. & Naveira, H. (2013) - Causes and evolutionary consequences of population subdivision of an Iberian Mountain Lizard, Iberolacerta monticola. - PLoS ONE 8 (6): e66034. × Aim The study of the factors that influence population connectivity and spatial distribution of genetic variation is crucial for understanding speciation and for predicting the effects of landscape modification and habitat fragmentation, which are considered severe threats to global biodiversity. This dual perspective is obtained from analyses of subalpine mountain species, whose present distribution may have been shaped both by cyclical climate changes over ice ages and anthropogenic perturbations of their habitats. Here, we examine the phylogeography, population structure and genetic diversity of the lacertid lizard Iberolacerta monticola, an endemism considered to be facing a high risk of extinction in several populations. Location Northwestern quadrant of the Iberian Peninsula. Methods We analyzed the mtDNA variation at the control region (454 bp) and the cytochrome b (598 bp) loci, as well as at 10 nuclear microsatellite loci from 17 populations throughout the distribution range of the species. Results According to nuclear markers, most sampling sites are defined as distinct, genetically differentiated populations, and many of them show traces of recent bottlenecks. Mitochondrial data identify a relatively old, geographically restricted lineage, and four to six younger geographically vicariant sister clades, whose origin may be traced back to the mid-Pleistocene revolution, with several subclades possibly associated to the mid-Bruhnes transition. Geographic range fragmentation of one of these clades, which includes lowland sites, is very recent, and most likely due to the accelerated loss of Atlantic forests by human intervention. Main Conclusion Altogether, the data fit a “refugia within refugia” model, some lack of pattern uniformity notwithstanding, and suggest that these mountains might be the cradles of new species of Iberolacerta. However, the changes operated during the Holocene severely compromise the long-term survival of those genetic lineages more exposed to the anthropogenic perturbations of their habitats. Arribas, O.J. & Galan P. & Remon N. & Naveira H. (2014) - A new mountain lizard from Montes de León (NW Iberian Peninsula): Iberolacerta monticola astur ssp. nov. (Squamata: Lacertidae) - Zootaxa 3796 (2): 201–236 × Iberolacerta populations from the Northern Montes de León (NML) were studied by means of external morphology (scalation and biometry), osteology and genetics (mtDNA and microsatellites), searching for their homogeneity (“intrazonal analysis”) and, once verified, comparing them with Iberolacerta monticola s. str. (from Central Cantabrian Mountains) and I. galani (from Southern Montes de León) (“extrazonal analysis”) from neighboring areas. Our “intrazonal analysis” revealed discordances between the different approaches, especially the patterns of variation of nuclear microsatellites (congruent with external morphology) and mtDNA, namely a very low nuclear differentiation between relatively highly differentiated mtDNA lineages. The morphological approach was unable to discriminate any of the populations as significantly different from the others in the NML. Mitochondrial DNA revealed a haplotype lineage closely related to I. galani (MNL-II in our text) in some specimens of Sierra de Villabandín and Suspirón, but these populations are morphologically indistinguishable from the main part of the other populations that belong to lineage NML-I, phylogenetically closer to I. monticola. After a separation from I. monticola ca. 1.8 Mya, the populations in this geographic region must have suffered at least two different waves of gene flow from I. galani, the second one not much later than 0.5 Mya. Microsatellite results indicate that all the NML populations are genetically similar in terms of their nuclear genomes, independently of their mitochondrial differentiation (NML-I vs. NML-II haplotype groups). Since all the morphological and microsatellite evidences point towards the fact that, independently of the mitochondrial haplotypes that they bear (NML-I or NML-II), there is only one taxon in the area, we describe it as: Iberolacerta monticola astur ssp. nov. Concerning the relationships of I. m. astur ssp. nov. with I. monticola s. str. and I. galani (“extrazonal analysis”), in the female analyses the new taxon centroid is closer to I. monticola s. str. than to I. galani (more similarity with I. monticola s. str.), whereas in the male analyses the relationship is just the contrary (closer to I. galani, paralleling the direction of the hypothesized past hybridization). Moreover, in both sexes’ ANOVA, I. m. astur ssp. nov. results more similar (less P<0.05 differences) to I. galani than to I. monticola s. str. Osteologically, I. m. astur ssp. nov. is slightly more similar to I. monticola s. str. than to I. galani, especially in the squamosal bone, which is regularly arched (primitive shape). Genetically, as indicated above, the NML populations can be subdivided in two groups according to their mitochondrial DNA, namely NML-I (bearing clearly differentiated haplotypes, phylogenetically closer to I. monticola) and NML-II (whose haplotypes could have been mistaken for those of an I. galani population). This mitochondrial subdivision has at most a subtle nuclear correlate, however. According to the nuclear microsatellite markers, all the NML populations belong to a single group (I. m. astur ssp. nov.), which would be more similar to I. galani than to I monticola, with NML-II populations lying closer to I. galani than those from the NML-I group and, correspondingly, more distant from I. monticola. The discordant phylogenetic signal of mitochondrial and nuclear markers is discussed in terms of past introgression events and sex-biases in phylopatry and dispersion in these species. Iberolacerta monticola astur ssp. nov., inhabits the Northern Montes de León (Sierra de Gistreo sensu latissimo): Gistredo, Catoute, Tambarón, Nevadín, Villabandín (or Macizo del Alto de la Cañada), Arcos del Agua (or Fernán Pérez), Tiendas and Suspirón, mainly in quartzite and slate rock substrates. Its current distribution, cornered in the NW of the Northern part of the Montes de León, suggests a possible competitive exclusion between this taxon and I. galani, as the galani haplotypes (NML-II) appear cornered in the most harsh and continental areas, speaking also about a, even in the past, very limited presence of this species in the area that probably was soon absorbed by I. m. astur ssp. nov. (with NML-Concluding, it seems that the current main distribution area of I. m. astur ssp. nov. (especially the typical NML-I) gravitates around what was the divisory between watersheds in the past, later shifted to the East during the Quaternary. Eastern known limits of I. m. astur ssp. nov. do not pass away from Collado de Campo Lamoso (1500 m), which today is perfectly suitable for the species, but during the Pliocene and the main part of the Pleistocene, constituted a barrier across which the two northern immediate valleys drained to the southern slopes. The West-East continuity of this massif during the end of the Miocene was broken by changes in the drainage across this pass in the Pliocene (geological datation uncertain). Although nowadays the pass to the East (to the Filera Massif, 1879 m) is possible for Iberolacerta, the prospections in these drier limestone areas had been unfruitful. In the north of these Sierras, the species can reach up to Cascaros peak (1854 m), but this extreme has to be confirmed.
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