Genetic structure of the brown bears ( Ursus arctos ) in Northern Europe

Abstract Wild populations of large carnivores in Europe were almost wiped out during the last centuries. Nowadays, the number of brown bears in North and Eastern Europe has increased, and the current situation suggests that these populations have recovered or are in the process of recovery. Knowledg...

Full description

Bibliographic Details
Main Author: Kopatz, A. (Alexander)
Other Authors: Aspi, J. (Jouni), Eiken, H. (Hans Geir), Kojola, I. (Ilpo), Hagen, S. (Snorre B.)
Format: Doctoral or Postdoctoral Thesis
Language:English
Published: Oulun yliopisto 2014
Subjects:
gene flow
genetic diversity
non-invasive genetic sampling
population recovery
population structure
wildlife monitoring
ei-invasiivinen geneettinen näytteenotto
geenivirta
geneettinen monimuotoisuus
populaation elpyminen
populaatiorakenne
riistaeläinten seuranta
Norway
Northern Finland
Northern Norway
Ursus arctos
Online Access:http://urn.fi/urn:isbn:9789526204307
Description
Summary:Abstract Wild populations of large carnivores in Europe were almost wiped out during the last centuries. Nowadays, the number of brown bears in North and Eastern Europe has increased, and the current situation suggests that these populations have recovered or are in the process of recovery. Knowledge of the population genetic consequences of demographic recovery in large carnivores, especially across national borders and on broader geographical scales, is still limited. In this study, we collected 3,757 fecal and hair samples as well as 881 tissue samples from brown bears across Northern Europe, with a focus on the Finnish population and neighboring areas, to investigate the population structure, connectivity, and genetic diversity on a spatial as well as a temporal scale. Bayesian clustering analysis of the population structure suggested the division of brown bears in Northern Europe into several genetic clusters, and the subdivision of the Finnish population into a northern and southern subpopulation. The estimation of gene flow pointed to better connectivity of the bears between Southern Finland and Western Russia, while migration between Scandinavia and Northern Finland as well as between Scandinavia and Southern Finland/Western Russia appeared to be restricted. Genetic clusters identified in Finland, Russia and Northern Norway displayed high genetic diversity, which was among the highest reported in wild brown bears. Recovery of the Finnish population has been accompanied by a detected range expansion towards the north, while genetic differentiation between clusters has decreased and genetic diversity has increased in the southern population, suggesting expansion from the south. Our results demonstrated that the immigration of bears from Russia still plays a major role in the Finnish bear population; however, connectivity between the Finnish-Russian population and Scandinavian bears appears to be restricted and should be improved, as well as regularly monitored. Tiivistelmä Suurpetojen luonnonpopulaatiot ...

Similar Items