Origin of invasive Florida frogs traced to Cuba

Two of the earliest examples of successful invasive amphibians are the greenhouse frog (Eleutherodactylus planirostris) and the Cuban treefrog (Osteopilus septentrionalis) in Florida. Although both are generally assumed to be recent introductions, they are widespread on Caribbean islands and also have been proposed as natural colonizers. We obtained nucleotide sequence data for both species and their closest relatives in their native and introduced ranges. Phylogenetic analyses trace the origin of E. planirostris to a small area in western Cuba, while O. septentrionalis is derived from at least two Cuban sources, one probably a remote peninsula in western Cuba. The tropical-to-temperate invasion began with colonization of the Florida Keys followed by human-mediated dispersal within peninsular Florida. The subtropical Keys may have served as an adaptive stepping stone for the successful invasion of the North American continent.     

Predicting community structure in snakes on Eastern Nearctic islands using ecological neutral theory and phylogenetic methods

Predicting species presence and richness on islands is important for understanding the origins of communities and how likely it is that species will disperse and resist extinction. The equilibrium theory of island biogeography (ETIB) and, as a simple model of sampling abundances, the unified neutral theory of biodiversity (UNTB), predict that in situations where mainland to island migration is high, species-abundance relationships explain the presence of taxa on islands. Thus, more abundant mainland species should have a higher probability of occurring on adjacent islands. In contrast to UNTB, if certain groups have traits that permit them to disperse to islands better than other taxa, then phylogeny may be more predictive of which taxa will occur on islands. Taking surveys of 54 island snake communities in the Eastern Nearctic along with mainland communities that have abundance data for each species, we use phylogenetic assembly methods and UNTB estimates to predict island communities. Species richness is predicted by island area, whereas turnover from the mainland to island communities is random with respect to phylogeny. Community structure appears to be ecologically neutral and abundance on the mainland is the best predictor of presence on islands. With regard to young and proximate islands, where allopatric or cladogenetic speciation is not a factor, we find that simple neutral models following UNTB and ETIB predict the structure of island communities.     

New Caledonia: a very old Darwinian island?

New Caledonia has generally been considered a continental island, the biota of which largely dates back to Gondwanan times owing to its geological origin and the presence of phylogenetic relicts. This view is contradicted by geological evidence indicating long Palaeocene and Eocene submersions and by recent biogeographic and phylogenetic studies, with molecular or geophysical dating placing the biota no older than the Oligocene. Phylogenetic relicts do not provide conclusive information in this respect, as their presence cannot be explained by simple hypotheses but requires assumption of many ad hoc extinction events. The implication of this new scenario is that all the New Caledonian biota colonized the island since 37 Ma Local richness can be explained by local radiation and adaptation after colonization but also by many dispersal events, often repeated within the same groups of organisms. Local microendemism is another remarkable feature of the biota. It seems to be related to recent speciation mediated by climate, orography, soil type and perhaps unbalanced biotic interactions created by colonization disharmonies. New Caledonia must be considered as a very old Darwinian island, a concept that offers many more fascinating opportunities of study.     

Identifying Y-chromosomal diversity by long-template PCR

Comparing Y-chromosomal and mitochondrial haplotype variation is a promising approach to independently investigate paternal and maternal evolutionary histories in wild mammal populations. However, the difficulty of developing male-specific genetic markers, because of its distinctive genetic architecture and the general low level of polymorphisms observed on the Y chromosome, hampers usually an effective application of this approach. Here, we present a further method of the established Y chromosome conserved anchored tagged sequences strategy to develop Y-chromosomal markers by screening introns of male-specific region (MSY) genes for sequence polymorphisms. By applying long-template PCR using target species-specific primers, adequate sequence information of several kb in size can be obtained. We applied this method in the snow vole (Chionomys nivalis) and obtained 12.4 kb of male-specific sequence data for nine males representing four populations in the Swiss Alps. A total of 28 single nucleotide polymorphisms, four indels (> 1 bp) and one polymorphic microsatellite were identified in introns of the SMCY and DBY genes. Based on this information, we developed a Y-chromosomal genotyping assay and identified four different paternal lineages within one local snow vole population. The method we present is straightforward and as such will probably be suitable to detect adequate Y-chromosomal diversity in a wide range of mammalian species.     

Geographic patterns in fruit colour diversity: do leaves constrain the colour of fleshy fruits?

We tested for geographic patterns in fruit colour diversity. Fruit colours are thought to promote detection by seed dispersers. Because seed dispersers differ in their spectral sensitivities, we predicted that fruit colour diversity would be higher in regions with higher seed disperser diversity (i.e. the tropics). We collected reflectance data on 232 fruiting plant species and their natural backgrounds in seven localities in Europe, North and South America, and analysed fruit colour diversity according to the visual system of birds—the primary consumer types of these fruits. We found no evidence that fruit colours are either more conspicuous or more diverse in tropical areas characterised by higher seed disperser diversity. Instead, fruit colour diversity was lowest in central Brazil, suggesting that fruit colours may be more diverse in temperate regions. Although we found little evidence for geographic variation in fruit hues, the spectral properties of fruits were positively associated with the spectral properties of backgrounds. This result implies that fruit colours may be influenced by selection on the reflectance properties of leaves, thus constraining the evolution of fruit colour. Overall, the results suggest that fruit colours in the tropics are neither more diverse nor more conspicuous than temperate fruits, and that fruit colours may be influenced by correlated selection on leaf reflectance properties. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Ecology of the fruit-colour polymorphism in Rubus spectabilis

Although some studies have focused on the colour polymorphisms of flowers and fruits, little is known of their ecological and evolutionary significance. We investigated the potential contribution of several factors to the maintenance of fruit-colour polymorphism in Rubus spectabilis, a common shrub in the temperate rainforests of southeast Alaska. Fruits occur in two colours (red and orange), whose frequencies vary geographically. The two colour morphs have similar size, weight, seed load and nutrient composition. Colour preferences of avian frugivores, in the aviary and in the field, varied among individuals, but the majority favoured red fruits. Seed predators (mostly rodents) did not discriminate between seeds from different morphs. The effect of seed passage through the digestive tract of frugivores (birds and bears) on germination was similar for both morphs, although there were significant differences among frugivores. The type of soil on which the seeds are deposited influenced their germination behaviour, suggesting that some soils could favour one morph over the other. Such differences may contribute to the regional differences in frequencies of the two morphs. This study emphasizes the need to investigate fruit and seed characteristics that correlate with fruit colour; the colour preferences of consumers is only one of several selection pressures that determine the frequency distribution of fruit colours. This revised version was published online in July 2006 with corrections to the Cover Date.     

Phylogenetic relationships between isolated populations of the limestone‐dwelling microsnail Gyliotrachela hungerfordiana (Gastropoda: Vertiginidae)

The vertiginid species Gyliotrachela hungerfordiana, an obligate limestone‐dwelling microsnail, is relatively widespread and is found on a large number of isolated limestone hills in Peninsular Malaysia. To elucidate the pattern of colonization of these hills, we conducted a molecular phylogenetic analysis on G. hungerfordiana subpopulations from 15 separate limestone outcrops. As outgroups, we also included five related Peninsular Malaysian Vertiginidae (Gyliotrachela frequens, Gyliotrachela transitans, Gyliotrachela salpinx, Gyliotrachela depressispira and Paraboysidia tarutao), one population each. A combined analysis of nuclear (internal transcribed spacer 1) and mitochondrial (cytochrome c oxidase 1) sequences showed that (1) G. hungerfordiana is monophyletic; (2) there is a clear geographical pattern in the phylogenetic relationships between G. hungerfordiana populations, with genetic distances increasing with geographic distance; (3) this pattern is disturbed by a few long‐distance (north‐west to south‐east and north to south) colonizations.