Genetic detection of sex-biased and age-biased dispersal in a population of wild carnivore, the red fox, Vulpes vulpes.

Field studies conducted on rural red fox (Vulpes vulpes) populations suggest that the majority of males tend to disperse while the majority of females tend to be philopatric, that males disperse farther than females, and that most of the foxes disperse during their first year of life. However, the quantification of dispersal parameters is poorly documented in the red fox, because this carnivore is notoriously difficult to follow from birth to maturity. The aim of this study was to test hypotheses from field data with the help of a molecular analysis using six random amplified polymorphic DNA (RAPD) markers. The study was conducted on samples collected from 85 foxes in a French rural population. Genetic and geographical distances between pairs of individuals were calculated for the 3570 potential pairs originating from this population to determine whether the foxes had dispersed. High genetic diversity and an absence of genetic clusters among studied individuals support the occurrence of intense and constant gene flow in the study population, probably induced by dispersion. At least 16.2% of the potential pairs we studied were subject to dispersal. Sex-biased dispersion was not observed, apart from a sex bias in favor of females towards long-distance dispersal. A predominance of males that ultimately dispersed a long distance could not thus be confirmed. Furthermore, it seems that dispersal did not occur primarily in the subadult age class in our rural study area, but that some pairs of juveniles may also have been involved in dispersal.

Spatial heterogeneity as a genetic mixing mechanism in highly philopatric colonial seabirds.

How genetic diversity is maintained in philopatric colonial systems remains unclear, and understanding the dynamic balance of philopatry and dispersal at all spatial scales is essential to the study of the evolution of coloniality. In the King penguin, Aptenodytes patagonicus, return rates of post-fledging chicks to their natal sub-colony are remarkably high. Empirical studies have shown that adults return year after year to their previous breeding territories within a radius of a few meters. Yet, little reliable data are available on intra- and inter-colonial dispersal in this species. Here, we present the first fine-scale study of the genetic structure in a king penguin colony in the Crozet Archipelago. Samples were collected from individual chicks and analysed at 8 microsatellite loci. Precise geolocation data of hatching sites and selective pressures associated with habitat features were recorded for all sampling locations. We found that despite strong natal and breeding site fidelity, king penguins retain a high degree of panmixia and genetic diversity. Yet, genetic structure appears markedly heterogeneous across the colony, with higher-than-expected inbreeding levels, and local inbreeding and relatedness hotspots that overlap predicted higher-quality nesting locations. This points towards heterogeneous population structure at the sub-colony level, in which fine-scale environmental features drive local philopatric behaviour, while lower-quality patches may act as genetic mixing mechanisms at the colony level. These findings show how a lack of global genetic structuring can emerge from small-scale heterogeneity in ecological parameters, as opposed to the classical model of homogeneous dispersal. Our results also emphasize the importance of sampling design for estimation of population parameters in colonial seabirds, as at high spatial resolution, basic genetic features are shown to be location-dependent. Finally, this study stresses the importance of understanding intra-colonial dispersal and genetic mixing mechanisms in order to better estimate species-wide gene flows and population dynamics.

Inter-Annual Variability of Fledgling Sex Ratio in King Penguins.

As the number of breeding pairs depends on the adult sex ratio in a monogamous species with biparental care, investigating sex-ratio variability in natural populations is essential to understand population dynamics. Using 10 years of data (2000-2009) in a seasonally monogamous seabird, the king penguin (Aptenodytes patagonicus), we investigated the annual sex ratio at fledging, and the potential environmental causes for its variation. Over more than 4000 birds, the annual sex ratio at fledging was highly variable (ranging from 44.4% to 58.3% of males), and on average slightly biased towards males (51.6%). Yearly variation in sex-ratio bias was neither related to density within the colony, nor to global or local oceanographic conditions known to affect both the productivity and accessibility of penguin foraging areas. However, rising sea surface temperature coincided with an increase in fledging sex-ratio variability. Fledging sex ratio was also correlated with difference in body condition between male and female fledglings. When more males were produced in a given year, their body condition was higher (and reciprocally), suggesting that parents might adopt a sex-biased allocation strategy depending on yearly environmental conditions and/or that the effect of environmental parameters on chick condition and survival may be sex-dependent. The initial bias in sex ratio observed at the juvenile stage tended to return to 1∶1 equilibrium upon first breeding attempts, as would be expected from Fisher's classic theory of offspring sex-ratio variation.

Differential functional variability of serotonin transporter and monoamine oxidase a genes in macaque species displaying contrasting levels of aggression-related behavior.

Functional allelic variation in the transcriptional control region of the serotonin transporter and monoamine oxidase A genes has been associated with anxiety- and aggression-related behavior in humans and, more recently, in nonhuman primates. Here, we have genotyped these polymorphic regions in seven species of the genus Macaca. Macaques exhibit exceptional inter-species variation in aggression-related social behavior as illustrated by recent studies showing overlapping patterns of aggression-based social organization grades and macaque phylogeny. We cloned and sequenced two new alleles of the serotonin transporter gene-linked polymorphic region in Barbary and Tibetan macaques. In addition, we observed that species displaying tolerant societies, with relaxed dominance and high levels of conciliatory tendency, were monomorphic for both the serotonin transporter gene and, with the exception of Tonkean macaques, the monoamine oxidase A gene. In contrast, those species known to exhibit intolerant, hierarchical and nepotistic societies were polymorphic at one or more of these loci. Rhesus (M. mulatta), the most intolerant and hierarchical species of macaques, showed the greatest degree of allelic variation in both genes. Additional investigation of a polymorphic repeat in exon III of the dopamine receptor D4 as well as a repeat/single nucleotide polymorphism in the 3' untranslated region of the dopamine transporter which have both been implicated in the modulation of complex behavior failed to reveal a relationship between allelic variability and social organization grade. Taken together, these findings suggest that genetic variation of serotonergic neurotransmission may play an important role in determining inter-species differences in aggression related behavior in macaques.

Natural TWIST protein variants in a panel of eleven non-human primates: possible implications of TWIST gene-tree for primate species tree.

The twist gene is implied in head morphogenesis, as human patients heterozygous at TWIST and heterozygous M-twist mutant mice present similar cranial-facial abnormalities. M-twist and TWIST are respectively unique genes, coding for a B-HLH transcription factor. We identified twist coding sequences from 11 species representing 7 families of primates, report their conservation and genus-specific amino acid substitutions, and present a tentative gene-tree of these sequences. Amino acid changes result in natural Twist variants, which might contribute to generating distinct head morphologies in species. These data suggest twist as a molecular marker, which could be used to refine controversial classification.