Population structure in the barn swallow,Hirundo rustica: a comparison between neutral DNA markers and quantitative traits

Local adaptation to variable environments can generate clinal variation in morphological traits. Alternatively, similar patterns of clinal variation may be generated simply as a result of genetic drift/migration balance. Teasing apart these different processes is a continuing focus in evolutionary ecology. We compare genetic differentiation at molecular loci and quantitative traits to analyse the effect of these different processes in a morphological latitudinal cline of the barn swallow, Hirundo rustica, breeding across Europe. The results obtained show no structuring at neutral microsatellite loci, which contrasts with positive structuring at five quantitative morphometric traits. This supports the hypothesis that the observed morphometric cline in barn swallows is the result of selection acting in a spatially heterogeneous environment. © 2010 The Linnean Society of London, Biological Journal of the Linnean Society, 2010, 99 , 306–314.     

Life History Consequences of Bioenergetic and Biomechanical Constraints on Migration

In this paper I test the hypothesis that bioenergetic and biomechanicalconstraints to migration play a pivotal role in shaping thelife history characteristics of migrants. Firstly, I examinebioenergetic constraints on the ability to migrate by activetransport and how they shape the life histories of insects andfish, and, secondly, the consequences of biomechanical constraintsto the migration by passive transport in insects and spiders. In both insects and fish the mass-specific energetic costs ofactive transport (flight and swimming, respectively) decreasewith body size, and hence selection should favor large sizein migrant species. Because their habitats are ephemeral, migrantinsects must grow rapidly. In fish, migrant species are ableto exploit resources unavailable to more sedentary species andhence should also show an enhanced rate of growth. These predictionsare supported by comparisons within populations, between populations,and among species in both groups. In contrast to the above, biomechanical factors limit the uppersize at which insects and spiders can migrate by passive transport.Theory predicts that ballooning will be most likely in spidersconsiderably less than 6 mm in length. Therefore, species thatmigrate as adults are predicted to be smaller than those thatdo not. This prediction is supported by a comparison of migratoryand non-migratory spider species from the United Kingdom. Theaverage length of species that migrate as adults, and of migratingyoung of spiders too large to balloon as adults, is about 2mm. Further, within this geographic species assemblage, thesize distribution of adult spiders is markedly peaked in the2 mm region, suggesting that biomechanical constraints on ballooningmay have a major influence on the evolution of body size inspiders.     

Wing Dimorphisms and the Evolution of Migratory Polymorphisms among the Insecta

Many species of insects exhibit wing dimorphism, one morph havingfully developed wings and the other morph having reduced wingsand being incapable of flight. These wing dimorphisms providevisible manifestations of migratory polymorphisms. Since wingedindividuals do not, in principle, have to fly, the existenceof forms with reduced wings suggests that there is a tradeoffbetween flight capability and other fitness components. Comparisonsof the life histories of the fully winged and wing reduced morphsdemonstrate that this tradeoff is most commonly expressed asa decrease in the age of first reproduction and increased fecundityin the morph with reduced wings. Given these tradeoffs, theevolution of wing dimorphism will depend upon its genetic basis,including correlations with other life history components. Areview of the recent literature suggests that the heritabilityof wing morphology is high, and we suggest that this high heritabilitycould be maintained, in part, by antagonistic pleiotropy. In dimorphic species, the winged morph is generally consideredto be the migrant form. However, there are significant correlations,both within and among species, between the proportion of wingedindividuals, the proportion of winged individuals with functionalflight muscles, and the flight propensity of those individuals.This suggests that the proportion of winged individuals andthe propensity of the winged morph to migrate are intimatelyconnected at both the physiological and population level. Therefore,the study of the evolution of wing dimorphism is important notonly in its own right but also as a model of how migratory propensityevolves in monomorphically winged species.     

Forceps size and immune function in the earwig Forficula auricularia L.

Females of many species select their mates on the basis of the size or intensity of sexual ornaments, and it has been suggested that these provide reliable signals of a male's ability to resist parasites and pathogens. European earwigs, Forficula auricularia , are sexually dimorphic in forceps shape and length. Male forceps are used as weapons in male contests for access to females, but recent findings suggest that females also choose males on the basis of their forceps length. In the present study, we tested the hypotheses that in the European earwig, F. auricularia , the size of forceps is correlated with immune function and that immune function differs between the sexes. We found that encapsulation rate was not correlated with the length of forceps in either sex, but was negatively correlated with body size. By contrast, lytic activity of the haemolymph increased with overall body size in both sexes but, in females, lytic activity increased with relative forceps length whereas, in males, it decreased with relative forceps length. After accounting for effects of body size, there was no remaining significant correlation in females but the negative correlation in males remained. Furthermore, we found that males had higher encapsulation rate and higher lytic activity than females, suggesting that males have stronger immune defence. The results of the study indicate that the size of forceps in male earwigs does not reliably reflect male immune defence.  © 2007 The Linnean Society of London, Biological Journal of the Linnean Society , 2007, 90 , 509–516.     

Use of ATP and carbon: nitrogen ratio as indicators of food quality of stream detritus

SUMMARY. 1. Differences in food quality of suspended and benthic organic detritus, as measured by ATP content and C/N ratio, were assessed along three contrasting headwater streams in southern Ontario.
2. Large differences in ATP content of sediments between cooler upstream reaches and warmer downstream reaches were detected. Sediment ATP content was highly correlated with stream temperature, presumably as a result of faster microbial growth, and with stream gradient. C/N ratios of sediments showed much the same pattern of differences as ATP, but were less variable.
3. By contrast, the ATP content (or BIOC/POM ratio) and C/N ratios of suspended organic matter showed no systematic variation between upstream and downstream or between warmer open and cooler shaded areas, probably due to the very short residence time of suspended particles.     

Life history of Xenodexia ctenolepis: implications for life history evolution in the family Poeciliidae

Xenodexia ctenolepis (Hubbs, 1950) is a uniquely asymmetrical species in the fish family Poeciliidae that is endemic to a remote region of Guatemala. In the present study, we describe its life history based on the dissection of 65 adult females from three different collections. We show that it is a livebearer, has superfetation, or the ability to carry multiple litters of young in different stages of development, and has matrotrophy, or placentation, which results in the dry mass of young at birth being three- to four-fold greater than the egg at fertilization. The size distribution of males is non-normal in a fashion that suggests a genetic polymorphism for age and size at maturity. Most phylogenies place Tomeurus gracilis as the sister taxon to the remaining members of the family Poeciliidae. Because Tomeurus is the sole egg-layer in the family, egg-laying is thought to represent the life history of the common ancestor. Because Xenodexia possesses three supposed derived traits (livebearing, superfetation and matrotrophy), this phylogenetic hypothesis suggests that Xenodexia has a highly derived life history with respect to other members of the family. By contrast, the most recent DNA-based phylogeny suggests Xenodexia is the sister taxon to the remainder of the family. If this proves to be true, it suggests that some or all of these life history traits may have been characteristic of the common ancestor to the family, then lost and re-evolved multiple times within the family.  © 2007 The Linnean Society of London, Biological Journal of the Linnean Society , 2007, 92 , 77–85.