Mitochondrial DNA evidence for a genetic distinction of the native red deer of Mesola, northern Italy, from the Alpine populations and the Sardinian subspecies

Abstract

Native red deer of Mesola Wood, northern Italy, were compared with the Sardinian subspecies and with some populations from the Italian Alps and Austria using the analysis of restriction fragment length polymorphism (RELP) of mitochondrial (mt) DNA segments. The results highlight the existence of four main genetic lineages, and provide evidence for a structuring of populations according to their geographic occurrence. Two mitochondrial lineages, although highly distantly related, are shared between the populations from the centre-eastern Alps of Italy and Austria, while the other two lineages characterize the Sardinian and Mesola red deer, respectively. The exclusive haplotype found in the Mesola population appears as being an offshot of one of the two main Alpine lineages, suggesting a presumed origin of these deer from a panmictic population which dwelt in mid-southern Europe, prior to the fragmentation of populations caused by human activities and manipulations. Considering their distinctiveness in morphologic and genetic traits, as well as their historical background and biogeographical value, these native deer should be regarded as a national conservation priority. The Sardinian red deer is highly divergent from both Mesola and Alpine populations. However, the controversial question of the phylogeographic origin of this subspecies remains unresolved. The utility of RELP analyses of mtDNA segments as a tool to discriminate among red deer populations as well as to develop effective strategies for their conservation and management.