Selective predation favouring cryptic individuals of marine snails (Littorina)

Many gastropods have inherited conspicuous shell colour polymorphisms. A challenging question is, are colour frequencies under selection or is polymorphism owing to random evolutionary processes? The intertidal species Littorina saxatilis (a rock‐dweller) and L. obtusata (confined to macroalgae) both have genetically determined shell colour variation. In Iceland, Littorina obtusata are mostly cryptic on brown macroalgae by having brown or yellow shells (~95% of the snails), while Littorina saxatilis often appears conspicuous to the background of dark rocks owing to non‐cryptic colours (15–20%). This difference may be due to selective elimination of conspicuously coloured L. obtusata by visual predators, while L. saxatilis, largely living in another habitat, is not under a similarly intense colour selection. To test this hypothesis we increased the frequencies of conspicuous L. saxatilis in experimental populations (from <12 to 55%) and placed these in the seaweed zone, the main habitat of L. obtusata. Fifteen populations were released on isolated spots of seaweed and three of these were covered by net cages to exclude bird predators. One month later, yellow snails had increased in frequency within the patches, and to our surprise the result did not differ between bare and caged patches. This suggests selection favouring a colour that matches the background of fucoid seaweeds by visual predators able to enter the cages. Birds acted as important predators by picking 16% of the experimental snails in the uncaged spots, but were unable to enter the caged spots. However, the bird predation was non‐selective with respect to snail colour. For various reasons the most likely predators able to enter the cages were intertidal fish, these were thus responsible for the selection of non‐cryptic snails. © 2002 The Linnean Society of London, Biological Journal of the Linnean Society, 2002, 76 , 137–144.     

Complete lack of mitochondrial divergence between two species of NE Atlantic marine intertidal gastropods

Some mitochondrial introgression is common between closely related species, but distinct species rarely show substantial introgression in their entire distribution range. In this study, however, we report a complete lack of mitochondrial divergence between two sympatric species of flat periwinkles (Littorina fabalis and Littorina obtusata) which, based on previous allozyme studies, diverged approximately 1 Ma. We re‐examined their species status using both morphology (morphometric analysis) and neutral genetic markers (microsatellites) and our results confirmed that these species are well separated. Despite this, the two species shared all common cytochrome‐b haplotypes throughout their NE Atlantic distribution and no deep split between typical L. fabalis and L. obtusata haplotypes could be found. We suggest that incomplete lineage sorting explains most of the lack of mitochondrial divergence between these species. However, coalescent‐based analyses and the sympatric sharing of unique haplotypes suggest that introgressive hybridization also has occurred.     

Habitat related allozyme variation on a microgeographic scale in the marine snail Littorina mariae (Prosobranchia: Littorinacea)

The marine snail Littorina mariae Sacchi & Rastelli occurs in high numbers in the littoral zone on fucoid macro-algae. The eggs are laid on the seaweed and d e velopment to miniature snails takes place without any pelagic larval stage. We have mapped the genetic variation of 30 enzyme loci in populations from eight small islands within 15 km of each other on th swedish west coast. The original intention was to investigate the magnitude of gene flow within and between islands. However, we soon realized that our basic assumption of neutral genetic variation was forcefully violated in at least one locus, arginine kinase ( Ask ). Allele frequencies of Ark were strongly associated with type of habitat. Therefore the main part of this study focused on allele frequency distribution in different habitats. Eight of the 30 loci screened were polymmorphic but we mainly considered the four most polymorphic ones (total heterozygosity between 0.32 and 0.57). All four showed significant heterogeneity between subpopulations, Ask especially so; 42% of the total variation of Ark was explained by differentiation between samples, and 90% of this variation was attributed to differences between different types of habitats (more or less exposed to wave action). In contrast, peptidase ( Pep-1 ) and phosphoglucomutase ( Pgm-2 ) varied in a way predicted by neutral theory; between sample variation being mainly attributed to differentiation bvetween islands. The variation in phosphoglucose isomerase ( Pgi ) was less consistent. In some islands there w as an obvious difference between different habitats, but on other islands we found no significant difference.Not taking into account the extreme, presumably sclected, variation in Ark , we concluded that the metapopulation of Littoriana mariae that we studied was divided into semi-isolated populations, between which the average rate of migration was in the range of a fe w individuals per generation.     

Island isolation and habitat heterogeneity correlate with DNA variation in a marine snail (Littorina saxatilis)

The null assumption of molecular variation is that most of it is neutral to natural selection. This is in contrast to variation in morphological traits that we generally assume is maintained by selection, and therefore often by selection coupled to environmental heterogeneity in time and space. Examples of molecular variation that vary over habitat-shifts, particularly in allozymes, show that the relative impact of non-neutral variation as compared to neutral variation might be substantial in some systems. To assess the importance of habitat-generated variation in relation to variation generated by random processes in nuclear DNA markers at small spatial scales, we compared the effects of island isolation and habitat heterogeneity on genetic substructuring in a rocky shore snail ( Littorina saxatilis ). This species has a restricted migration among islands owing to the lack of free-floating larvae. Earlier studies show that allozymes vary extensively as a consequence of isolation by water barriers among islands, but also as a consequence of divergent selection among different microhabitats within islands. In the DNA markers we observed genetic differentiation owing to island isolation at three of nine loci. In addition, variation at three loci correlated with habitat type, but the correlation for two of the loci was weak. Overall, isolation contributed slightly more to the genetic variation among populations than did habitat-related factors but the difference was small. It is concluded that both island isolation, which interrupts gene flow, and a heterogeneous habitat cause genetic substructuring at the DNA level in L. saxatilis in the studied area, and thus in this species we need to be somewhat concerned about habitat heterogeneity also at DNA loci.  © 2004 The Linnean Society of London, Biological Journal of the Linnean Society , 2004, 82 , 377–384.     

Phylogenetic and biological species diversity within the Neurospora tetrasperma complex

The objective of this study was to explore the evolutionary history of the morphologically recognized filamentous ascomycete Neurospora tetrasperma, and to reveal the genetic and reproductive relationships among its individuals and populations. We applied both phylogenetic and biological species recognition to a collection of strains representing the geographic and genetic diversity of N. tetrasperma. First, we were able to confirm a monophyletic origin of N. tetrasperma. Furthermore, we found nine phylogenetic species within the morphospecies. When using the traditional broad biological species recognition all investigated strains of N. tetrasperma constituted a single biological species. In contrast, when using a quantitative measurement of the reproductive success, incorporating characters such as viability and fertility of offspring, we found a high congruence between the phylogenetic and biological species recognition. Taken together, phylogenetically and biologically defined groups of individuals exist in N. tetrasperma, and these should be taken into account in future studies of its life history traits.     

Genetic differentiation on multiple spatial scales in an ecotype-forming marine snail with limited dispersal: Littorina saxatilis

The population genetic structure of marine species lacking free-swimming larvae is expected to be strongly affected by random genetic drift among populations, resulting in genetic isolation by geographical distance. At the same time, ecological separation over microhabitats followed by direct selection on those parts of the genome that affect adaptation might also be strong. Here, we address the question of how the relative importance of stochastic vs. selective structuring forces varies at different geographical scales. We use microsatellite DNA and allozyme data from samples of the marine rocky shore snail Littorina saxatilis over distance scales ranging from metres to 1000 km, and we show that genetic drift is the most important structuring evolutionary force at distances > 1 km. On smaller geographical scales (< 1 km), divergent selection between contrasting habitats affects population genetic structure by impeding gene flow over microhabitat borders (microsatellite structure), or by directly favouring specific alleles of selected loci (allozyme structure). The results suggest that evolutionary drivers of population genetic structure cannot a priori be assumed to be equally important at different geographical scales. © 2008 The Linnean Society of London, Biological Journal of the Linnean Society , 2008, 94 , 31–40.     

Micro- and macrogeographic allozyme variation in Littorina fabalis; do sheltered and exposed forms hybridize?

Earlier studies of Swedish populations of the marine snail Littorina fabalis show that snails from different microhabitats (with a greater and lesser exposure to wave action) have almost diagnostic differences in one allozyme locus (arginine kinase, Ark ), and differ in adult size. Snails with 'sheltered' and 'exposed' Ark genotypes occur in sympatry in intermediary exposed sites and here adult sizes remain distinct. Approaching the microgeographic differentiation we studied the parts of two populations where the frequency of Ark changes dramatically over zones 50–120 m wide. The aim was to test if the transitional zones are best described as areas of mixing of two genetically separate populations, or if hybridization between the exposed and sheltered groups occurs. Heterozygotes were in deficiency along both clines but were still roughly twice as common as expected from a pure mixing of 'sheltered' and 'exposed' groups suggesting hybridization. Hybridization was also supported by the observation that snails homozygous for sheltered and exposed alleles mated at random with each other in both populations. On the macrogeographic scale, we found populations from exposed and sheltered sites in France and Wales being fixed for the same exposed and sheltered Ark alleles as found in Sweden. However, variation in three other highly polymorphic loci indicated geographic affinity rather than habitat similarity being the main factor of genetic coherence. These observations support a hypothesis of gene flow between exposed and sheltered populations of L. fabalis . Two Spanish populations were remarkably different with unique alleles at high frequencies in three of four strongly polymorphic loci.     

Habitat-related genetic substructuring in a marine snail (Littorina fabalis) involving a tight link between an allozyme and a DNA locus

Metapopulation structure and genetic differentiation among subpopulations will be tightly related to patterns and processes of local adaptation and microevolution. Understanding the mechanisms behind genetic substructuring will aid in the interpretation of species' ecological performances and strategies. The marine gastropod Littorina fabalis occurs in two size morphs – a small and a large – found in microhabitats of different wave exposure, but overlapping in distribution where wave exposure is intermediate. Earlier studies have found substantial genetic differentiation linked to morph in one allozyme locus (arginine kinase), while 29 other allozyme loci reveal no or minute differences between morphs. Here we add new results showing DNA variation in a RAPD marker being tightly linked to the allozyme variation. Indeed, 97% of the snails homozygotic for one of the Ark alleles had a unique DNA band, while 89% of the snails homozygotic for the other Ark allele lacked the marker. We discuss alternative hypotheses explaining the genetic substructure and suggest that the linkage of size, allozyme and DNA traits might be due to a paracentric chromosomal inversion involving loci coding for these traits. A genetic linkage of traits might promote microhabitat specialization of this species, and such a chromosomal transformation may therefore be adaptive.  © 2004 The Linnean Society of London, Biological Journal of the Linnean Society , 2004, 81 , 301–306.     

HYBRID FITNESS SEEMS NOT TO BE AN EXPLANATION FOR THE PARTIAL REPRODUCTIVE ISOLATION BETWEEN ECOTYPES OF GALICIAN LITTORINA SAXATILIS

Partial reproductive isolation between closely related groupsof organisms is suggested to be of central importance duringspeciation. Galician populations of Littorina saxatilis arephenotypically differentiated into an upper-shore and a lower-shoremorph. These mate assortatively in the mid-shore zone of overlap,and genetic assessment shows an impeded gene flow between theparental morphs. The traditional explanation as to why assortativemating occurs is that reproductive isolation is reinforced dueto hybrid unfitness. Earlier studies have, however, not foundhybrids to be less viable. Likewise, growth and migratory behavioursare merely intermediate between those of the parental morphs.In the present study we compared male and female fertilitycomponents of the parental morphs and the hybrids to test hypothesesof decreased hybrid fertility. The results showed that hybridmales were as fertile as other males, and hybrid females didnot produce fewer embryos, nor aborted embryos at a higher rate,than the parental morphs. ^* To whom correspondence should be addressed. (Received 19 March 1999; accepted 7 July 1999)     

Genetic variability and large scale differentiation in two species of littorinid gastropods with planktotrophic development, Littorina littorea (L.) and Melarhaphe (Littorina) neritoides (L.) (Prosobranchia: Littorinacea), with notes on a mass occurrence of M. neritoides in Sweden

A planktotrophic larval development suggests a relatively high gene flow over long distances. Both Littorina littorea and Melarhaphe neritoides have an egg capsule and planktotrophic larvae which taken together are pelagic over a period of 4–8 weeks. In the absence of differential selection one would expect low levels of genetic differentiation over large distances in these two species. In this study of allozyme variation, low levels of differentiation were found over thousands of kilometres (Norway to Spain for L. littorea and Sweden to Greece for M. neritoides). This supports the hypothesis of two species with a high dispersal potential. A second expectation from neutral theory is that effective population size is positively correlated with average levels of genetic variation within species. In light of the generally high densities of local populations of these species and the high interpopulation migration rate, both L. littorea and M. neritoides may be considered as having high N_e s. Contrary to neutral expectation, L. littorea revealed very low levels of heterozygosity over its whole European range (mean H_exp= 0.015, 15 loci), while average heterozygosity of M. neritoides (H_exp= 0.084, 11 loci) was no more than in other littorinid species. This paper also reports the occurrence of M. neritoides on the Swedish west coast in 1988, 89 and 90, and two factors which may have promoted this unusually large invasion are discussed.