Your search keyword '"Heidi C. Hauffe"' showing total 3 results

1. Raciation and speciation in house mice from the Alps: the role of chromosomes

Author

Jeremy B. Searle, Jaroslav Piálek, Heidi C. Hauffe, and Kathryn M. Rodríguez-Clark

Subjects

Genetics, Meiosis, Nondisjunction, Genetic algorithm, Allopatric speciation, Karyotype, House mice, Biology, Parapatric speciation, Ecology, Evolution, Behavior and Systematics, Hybrid

Abstract

There are at least 24 different karyotypic races of house mouse in the central Alps, each characterized by a different complement of ancestral acrocentric and derived metacentric chromosomes; altogether 55 different metacentric chromosomes have been described from the region. We argue that this chromosome variation largely arose in situ. If these races were to make contact, in most cases they would produce F1 hybrids with substantial infertility (sometimes complete sterility), due to nondisjunction and germ cell death associated with the formation of long-chain and/or ring configurations at meiosis. We present fertility estimates to confirm this for two particular hybrid types, one of which demonstrates male-limited sterility (in accordance with Haldane's Rule). As well as a model for speciation in allopatry, the Alpine mouse populations are of interest with regards speciation in parapatry: we discuss a possible reinforcement event. Raciation of house mice appears to have happened on numerous occasions within the central Alps. To investigate one possible source of new karyotypic races, we use a two-dimensional stepping stone model to examine the generation of recombinant races within chromosomal hybrid zones. Using field-derived ecological data and laboratory-derived fertility estimates, we show that hybrid karyotypic races can be generated at a reasonable frequency in simulations. Our model complements others developed for flowering plants that also emphasize the potential of chromosomal hybrid zones in generating new stable karyotypic forms.

Published

2008

2. Geographical distance and physical barriers shape the genetic structure of Eurasian red squirrels (Sciurus vulgaris) in the Italian Alps

Author

Erik Matthysen, Peter Galbusera, Heidi C. Hauffe, Luc A. Wauters, I. Trizio, B. Crestanello, and Guido Tosi

Subjects

Genetic diversity, Habitat, biology, Ecology, Geographical distance, Genetic variation, Genetic structure, Genetics, Genetic variability, biology.organism_classification, Ecology, Evolution, Behavior and Systematics, Sciurus, Isolation by distance

Abstract

Red squirrels (Sciurus vulgaris) are widely distributed throughout Eurasia, occurring in many types of coniferous and mixed-deciduous forests. In fragmented landscapes, small and partly isolated populations with low immigration rates show reduced genetic diversity, but reforestation can increase gene flow and restore levels of genetic variation in a few decades. No studies have so far investigated the genetic structure of red squirrel in large, continuous forests. The Italian Alps are presently characterized by almost continuous, recently reconnected forest habitats, that were affected by deep landscape changes during last glaciations but remained mostly unchanged between 10 000 and 200 years bp, when forest cover was heavily reduced. In this study we analyse patterns of genetic variability of red squirrels in and between seven sites distributed over 250 km of Alpine habitat, using mitochondrial DNA (mtDNA) and microsatellites. We use isolation-by-distance (IBD) models to investigate the relative importance that past (Pleistocene glaciations) and recent (fragmentation, bottlenecks) events had on the present genetic situation. Both nuclear and mtDNA data indicate a significant differentiation among study sites and a significant correlation between genetic and geographical distance only over a large scale. No recent bottlenecks are recorded through microsatellites and demographic models strongly support equilibrium between gene flow and drift; however, mtDNA suggests that there may have been local demographic crashes, probably in correspondence with the 19th-century forest fragmentation. These findings indicate that local landscape factors other than geographical distance per se, such as barriers of unsuitable habitat, affect gene flow and determine differentiation.

Published

2005

3. The genetic impact of demographic decline and reintroduction in the wild boar (Sus scrofa): A microsatellite analysis

Author

Cristiano Vernesi, David Caramelli, Elena Pecchioli, B. Crestanello, D. Tartari, Giorgio Bertorelle, and Heidi C. Hauffe

Subjects

Male, Conservation of Natural Resources, Genotype, Range (biology), Population Dynamics, Sus scrofa, Population, Introgression, Subspecies, Wild boar, Polymerase Chain Reaction, biology.animal, Genetic variation, Genetics, Animals, Microsatellites, education, Hybridization, Alleles, Ecology, Evolution, Behavior and Systematics, Hungary, education.field_of_study, biology, Reintroduction, Ecology, DNA, Sequence Analysis, DNA, Settore AGR/20 - ZOOCOLTURE, Genetics, Population, Italy, Multivariate Analysis, Microsatellite, Gene pool, Microsatellite Repeats

Abstract

The reintroduction of wild boar from central Europe after World War II has contributed substantially to the range expansion of this species in Italy, where indiscriminate hunting in earlier times resulted in extreme demographic reduction. However, the genetic impact of such processes is not well-understood. In this study, 105 individuals from Italian and Hungarian wild boar populations were characterized for nine autosomal microsatellite loci. The Hungarian samples, and two central Italian samples from protected areas (parks) where reintroduction is not documented, were assumed to be representative of the genetic composition of the source and the target populations in the reintroduction process, respectively. Animals hunted in the wild in the Florence area of Tuscany (Italy) were then studied to identify the effects of reintroduction. The results we obtained can be summarized as follows: (i) none of the populations analysed shows genetic evidence of demographic decline; (ii) the three parental populations from Italy and Hungary are genetically distinct; however, the low level of divergence appears in conflict with the naming of the Italian and the European subspecies (Sus scrofa majori and Sus scrofa scrofa, respectively); in addition, the Italian groups appear to be as divergent from each other as they are from the Hungarian population; (iii) most of the individuals hunted near Florence are genetically intermediate between the parental groups, suggesting that hybridization has occurred in this area, the average introgression of Hungarian genotypes is 13%, but approximately 45% of the genetic pool of these individuals can not be directly attributed to any of the parental populations we analysed; (iv) analysis of microsatellite loci, though in a limited number, is an important tool for estimating the genetic effect of reintroduction in the wild boar, and therefore for the development of conservation and management strategies for this species.

Published

2003