Evolutionary relationships of Podarcis lizards from Sicily and the Maltese Islands

The electrophoretic variation at 26 presumptive gene loci was investigated in populations of the closely related species Podarcis sicula, P. wagleriana, P. raffonei, and P. filfolensis. Low values of proportion of polymorphic loci (P) and mean observed heterozygosity (H_o) were found in P. sicula (P= 0.10; H_o= 0.016), P. wagleriana (P= 0.13; H_o= 0.029), and P. raffonei (P= 0.08; H_o= 0.017), while higher levels of genetic variability were observed in P. filfolensis (P= 0.17; H_o= 0.054). In the latter species, a multiple regression analysis was carried out in order to analyse the geographic correlates of P and H_o. The results of this analysis were consistent with the predictions of the time-divergence theory of variation, supporting the conclusion that directional selection is the main force eroding genetic variation on small islands. Intraspecific values of Nei 's (1972) standard genetic distance were relatively low in P. sicula (average D= 0.024), P. wagleriana (average D= 0.004), and P. filfolensis (average D= 0.012), while higher in P. raffonei (D= 0.040). The lizards from Pantellena Island, which were considered by BISCHOFF (1986) to be very similar to P. filfolensis from Malta on the basis of a superficial analysis of the coloration pattern, were shown to actually belong to P. sicula. This confirms that the range of P. filfolensis only includes the Maltese Archipelago, Linosa Island, and the islet of Lampione. Surprisingly, the samples of P. filfolensis from the Pelagie Islands (Linosa and Lampione) were very similar to those from the Maltese Archipelago (average D= 0.016). This could be explained by rafting or anthropogenic introduction of P. filfolensis on Linosa and Lampione. Podarcis wagleriana and P. raffonei were genetically related (average D= 0.152), confirming the results of previous electrophoretic investigations. Podarcis filfolensis, though showing some morphological affinity with P. wagleriana, was genetically highly differentiated from this latter species (average D= 0.526), while being more similar to P. sicula (average D= 0.306). This indicates a close relationship between P. sicula and P. filfolensis, suggesting that P. sicula and P. filfolensis probably diverged from a common ancestor, and that the apparent similarity between P. filfolensis and P. wagleriana could be merely due to morphological convergence.     

Microsatellite markers developed for a Swedish population of sand lizard (<Emphasis Type="Italic">Lacerta agilis</Emphasis>)

Populations of sand lizards (Lacerta agilis) are declining throughout its north-western range. Here we characterize fifteen new microsatellite markers developed specifically for parentage analysis in a small Swedish population of sand lizards. These loci were screened in the Asketunnan population and a much larger and genetically diverse Hungarian population, with heterozygosities ranging from (0.217–0.875) and (0.400–0.974), respectively. All loci were in Hardy-Weinberg Equilibrium in the Swedish population but eight loci had significant heterozygote deficiencies in the Hungarian population. Two loci were significantly linked in both populations. These microsatellite loci are likely to be applicable in research on other sand lizard populations throughout Europe. An erratum to this article can be found at     

Natural oak forest vs. ancient pine plantations: lizard microhabitat use may explain the effects of ancient reforestations on distribution and conservation of Iberian lizards

Natural vegetation in Europe appears nowadays deeply modified by human activities. In the Guadarrama Mountains (Central Spain), ancient reforestations with Scots pines, Pinus sylvestris, replaced original deciduous pyrenean oak, Quercus pyrenaica, forests (since the Roman period). However, the effect of reforestations on fauna remains little known, especially in reptiles. We described patterns of microhabitat selection in several species of Lacertid lizards, and analyzed whether the modification of the original vegetation affected distribution and population densities of lizards. The species of lacertid lizards found in oak forests (Psammodromus algirus, Lacerta lepida and Podarcis hispanica) were different to those of in pine plantations (Podarcis muralis and Podarcis hispanica). Lizards did not use habitat at random and this could explain differences in species found in both forests, which differed in some microhabitat structure characteristics. Most lizards selected microhabitats with rocky outcrops, with low cover of trees, and close to refuges. These microhabitat preferences also explained abundance of lizards in transects. From the perspective of conservation and management of lizards, pine plantations seem not to contribute too much to the diversity of lizard species because species typical from oak forests were lost. This study has implications for pine reforestation management, because allowing the recolonization by understory␣oaks, and leaving some open areas, without trees but with dense shrubs and rocks inside reforestations would contributed to maintain lizard populations.     

密点麻蜥的两性异形和雌性繁殖

蜥蜴繁殖成功率与其形态特征有密切的关系。作者在内蒙古乌拉特后旗采集密点麻蜥(Eremias multio-cellata) ,定量研究该种形态特征的两性异形和雌体繁殖特征,检验与成体形态特征相关的两性繁殖成功率差异是否能促进两性异形的进化。密点麻蜥成体个体大小无显著的两性差异,但头部大小两性差异显著;雄性个体的头长和头宽均大于体长相同的雌性成体。繁殖雌体于五、六月份排卵;在实验室条件下,雌体在六月下旬至七月下旬之间产仔。该种雌体年产单窝仔,每窝2 -4仔。窝仔重与雌体体长呈正相关,但雌体体长仅能解释很少一部分(约19 %)窝仔重的变异。窝仔数和幼仔重均与雌体体长无关。幼仔重与相对生育力(相对于雌体体长的窝仔数)呈显著的负相关,表明该种蜥蜴存在后代数量-大小之间的权衡。密点麻蜥雄体和雌体向较大体型方向进化的选择压力均相对较弱,与成体头部大小相关的两性繁殖成功率的差异是导致该种蜥蜴头部大小两性异形进化的主要原因[动物学报52 (2) : 250 -255 , 2006]。