Molecular studies highlighted a strong genetic affinity between the remnant and isolated population of the Apennine brown bear and other southern European populations. Despite this genetic closeness a recent morphometric study revealed a marked phenotypic distinctiveness of the Apennine population, supporting the reinstatement of a distinct taxon (Ursus arctos marsicanus). By building upon previous morphological analyses, we adopted geometric morphometrics to better investigate the skull morphology of the Apennine brown bear with reference to the other, closely related southern European populations. Both skull shape and size differences confirmed the strong divergence of U. arctos marsicanus. In particular, the Apennine bears are characterized by an enlargement of the supraorbital apophysis and a larger distance across the zygomatic arches. Furthermore, our analyses highlighted significant shape differences of the first upper molar in the Apennine bears. Our results suggest that the Apennine bears underwent a rapid morphological change, possibly driven by genetic drift and local selective pressures. Because the greatest morphological differentiation is likely to be related to the muscles involved in mastication, we hypothesize that local selective pressures might be related to a shift in food habits, with highly reduced depredation and feeding on large carcasses in favour of vegetation and hard mast (beech nuts and acorns). These results suggest an adaptive distinctiveness of the Apennine bears, which should be carefully considered in any management and conservation action addressed to this highly endangered population. Although more in-depth molecular studies are required to better assess the taxonomic and genetic status of the Apennine brown bear population, our study emphasizes the importance of morphological analyses as a complementary tool for a more thorough characterization of variation and divergence in endangered taxa. (c) 2012 The Linnean Society of London, Biological Journal of the Linnean Society, 2012, 107, 15-26.
Cranial distinctiveness in the Apennine brown bear: genetic drift effect or ecophenotypic adaptation? / Colangelo, Paolo; Loy, Anna; Djuro, Huber; Tomislav, Gomercic; VIGNA TAGLIANTI, Augusto; Ciucci, Paolo. - In: BIOLOGICAL JOURNAL OF THE LINNEAN SOCIETY. - ISSN 0024-4066. - STAMPA. - 107:1(2012), pp. 15-26. [10.1111/j.1095-8312.2012.01926.x]
Cranial distinctiveness in the Apennine brown bear: genetic drift effect or ecophenotypic adaptation?
COLANGELO, PAOLO;LOY, anna;VIGNA TAGLIANTI, Augusto;CIUCCI, Paolo
2012
Abstract
Molecular studies highlighted a strong genetic affinity between the remnant and isolated population of the Apennine brown bear and other southern European populations. Despite this genetic closeness a recent morphometric study revealed a marked phenotypic distinctiveness of the Apennine population, supporting the reinstatement of a distinct taxon (Ursus arctos marsicanus). By building upon previous morphological analyses, we adopted geometric morphometrics to better investigate the skull morphology of the Apennine brown bear with reference to the other, closely related southern European populations. Both skull shape and size differences confirmed the strong divergence of U. arctos marsicanus. In particular, the Apennine bears are characterized by an enlargement of the supraorbital apophysis and a larger distance across the zygomatic arches. Furthermore, our analyses highlighted significant shape differences of the first upper molar in the Apennine bears. Our results suggest that the Apennine bears underwent a rapid morphological change, possibly driven by genetic drift and local selective pressures. Because the greatest morphological differentiation is likely to be related to the muscles involved in mastication, we hypothesize that local selective pressures might be related to a shift in food habits, with highly reduced depredation and feeding on large carcasses in favour of vegetation and hard mast (beech nuts and acorns). These results suggest an adaptive distinctiveness of the Apennine bears, which should be carefully considered in any management and conservation action addressed to this highly endangered population. Although more in-depth molecular studies are required to better assess the taxonomic and genetic status of the Apennine brown bear population, our study emphasizes the importance of morphological analyses as a complementary tool for a more thorough characterization of variation and divergence in endangered taxa. (c) 2012 The Linnean Society of London, Biological Journal of the Linnean Society, 2012, 107, 15-26.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.