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Effects of late quaternary climate change on P alearctic shrews
Author(s) -
Prost Stefan,
Klietmann Johannes,
Kolfschoten Thijs,
Guralnick Robert P.,
Waltari Eric,
Vrieling Klaas,
Stiller Mathias,
Nagel Doris,
Rabeder Gernot,
Hofreiter Michael,
Sommer Robert S.
Publication year - 2013
Publication title -
global change biology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 4.146
H-Index - 255
eISSN - 1365-2486
pISSN - 1354-1013
DOI - 10.1111/gcb.12153
Subject(s) - shrew , extinction (optical mineralogy) , ecology , climate change , biology , tundra , fauna , environmental change , zoology , ecosystem , paleontology
The L ate Q uaternary was a time of rapid climatic oscillations and drastic environmental changes. In general, species can respond to such changes by behavioral accommodation, distributional shifts, ecophenotypic modifications (nongenetic), evolution (genetic) or ultimately face local extinction. How those responses manifested in the past is essential for properly predicting future ones especially as the current warm phase is further intensified by rising levels of atmospheric carbon dioxide. Here, we use ancient DNA ( aDNA ) and morphological features in combination with ecological niche modeling ( ENM ) to investigate genetic and nongenetic responses of C entral E uropean P alearctic shrews to past climatic change. We show that a giant form of shrew, previously described as an extinct P leistocene S orex species, represents a large ecomorph of the common shrew ( S orex araneus ), which was replaced by populations from a different gene‐pool and with different morphology after the P leistocene H olocene transition. We also report the presence of the cold‐adapted tundra shrew ( S . tundrensis ) in C entral E urope. This species is currently restricted to S iberia and was hitherto unknown as an element of the P leistocene fauna of E urope. Finally, we show that there is no clear correlation between climatic oscillations within the last 50 000 years and body size in shrews and conclude that a special nonanalogous situation with regard to biodiversity and food supply in the L ate G lacial may have caused the observed large body size.