BACKGROUND: Polar bears (Ursus maritimus) are among those species most susceptible to the rapidly changing arctic climate, and their survival is of global concern. Despite this, little is known about polar bear species history. Future conservation strategies would significantly benefit from an understanding of basic evolutionary information, such as the timing and conditions of their initial divergence from brown bears (U. arctos) or their response to previous environmental change. RESULTS: We used a spatially explicit phylogeographic model to estimate the dynamics of 242 brown bear and polar bear matrilines sampled throughout the last 120,000 years and across their present and past geographic ranges. Our results show that the present distribution of these matrilines was shaped by a combination of regional stability and rapid, long-distance dispersal from ice-age refugia. In addition, hybridization between polar bears and brown bears may have occurred multiple times throughout the Late Pleistocene. CONCLUSIONS: The reconstructed matrilineal history of brown and polar bears has two striking features. First, it is punctuated by dramatic and discrete climate-driven dispersal events. Second, opportunistic mating between these two species as their ranges overlapped has left a strong genetic imprint. In particular, a likely genetic exchange with extinct Irish brown bears forms the origin of the modern polar bear matriline. This suggests that interspecific hybridization not only may be more common than previously considered but may be a mechanism by which species deal with marginal habitats during periods of environmental deterioration.
BACKGROUND: Polar bears (Ursus maritimus) are among those species most susceptible to the rapidly changing arctic climate, and their survival is of global concern. Despite this, little is known about polar bear species history. Future conservation strategies would significantly benefit from an understanding of basic evolutionary information, such as the timing and conditions of their initial divergence from brown bears (U. arctos) or their response to previous environmental change. RESULTS: We used a spatially explicit phylogeographic model to estimate the dynamics of 242 brown bear and polar bear matrilines sampled throughout the last 120,000 years and across their present and past geographic ranges. Our results show that the present distribution of these matrilines was shaped by a combination of regional stability and rapid, long-distance dispersal from ice-age refugia. In addition, hybridization between polar bears and brown bears may have occurred multiple times throughout the Late Pleistocene. CONCLUSIONS: The reconstructed matrilineal history of brown and polar bears has two striking features. First, it is punctuated by dramatic and discrete climate-driven dispersal events. Second, opportunistic mating between these two species as their ranges overlapped has left a strong genetic imprint. In particular, a likely genetic exchange with extinct Irish brown bears forms the origin of the modern polar bear matriline. This suggests that interspecific hybridization not only may be more common than previously considered but may be a mechanism by which species deal with marginal habitats during periods of environmental deterioration.
Authors: Grant D Zazula; Duane G Froese; Charles E Schweger; Rolf W Mathewes; Alwynne B Beaudoin; Alice M Telka; C Richard Harington; John A Westgate Journal: Nature Date: 2003-06-05 Impact factor: 49.962
Authors: Beth Shapiro; Simon Y W Ho; Alexei J Drummond; Marc A Suchard; Oliver G Pybus; Andrew Rambaut Journal: Mol Biol Evol Date: 2010-10-01 Impact factor: 16.240
Authors: Cristina E Valdiosera; Nuria García; Cecilia Anderung; Love Dalén; Evelyne Crégut-Bonnoure; Ralf-Dietrich Kahlke; Mathias Stiller; Mikael Brandström; Mark G Thomas; Juan Luis Arsuaga; Anders Götherström; Ian Barnes Journal: Mol Ecol Date: 2007-11-21 Impact factor: 6.185
Authors: Rebecca R Ackermann; Michael L Arnold; Marcella D Baiz; James A Cahill; Liliana Cortés-Ortiz; Ben J Evans; B Rosemary Grant; Peter R Grant; Benedikt Hallgrimsson; Robyn A Humphreys; Clifford J Jolly; Joanna Malukiewicz; Christopher J Percival; Terrence B Ritzman; Christian Roos; Charles C Roseman; Lauren Schroeder; Fred H Smith; Kerryn A Warren; Robert K Wayne; Dietmar Zinner Journal: Evol Anthropol Date: 2019-06-20
Authors: Peter D Heintzman; Duane Froese; John W Ives; André E R Soares; Grant D Zazula; Brandon Letts; Thomas D Andrews; Jonathan C Driver; Elizabeth Hall; P Gregory Hare; Christopher N Jass; Glen MacKay; John R Southon; Mathias Stiller; Robin Woywitka; Marc A Suchard; Beth Shapiro Journal: Proc Natl Acad Sci U S A Date: 2016-06-06 Impact factor: 11.205
Authors: Huaiyu Tian; Sen Zhou; Lu Dong; Thomas P Van Boeckel; Yujun Cui; Scott H Newman; John Y Takekawa; Diann J Prosser; Xiangming Xiao; Yarong Wu; Bernard Cazelles; Shanqian Huang; Ruifu Yang; Bryan T Grenfell; Bing Xu Journal: Proc Natl Acad Sci U S A Date: 2014-12-22 Impact factor: 11.205
Authors: Nuno R Faria; Marc A Suchard; Ana Abecasis; João D Sousa; Nicaise Ndembi; Idalina Bonfim; Ricardo J Camacho; Anne-Mieke Vandamme; Philippe Lemey Journal: Infect Genet Evol Date: 2011-05-04 Impact factor: 3.342