Katarzyna Baliga‐Klimczyk scite author profile

In a laboratory colony of a wild rodent, the bank vole Myodes (=Clethrionomys) glareolus, a multiway artificial selection experiment was applied to mimic evolution toward high aerobic metabolism achieved during locomotor activity, predatory behavior, and ability to cope with herbivorous diet. Four lines for each of the selection directions and four unselected control lines have been maintained. After three generations of within-family selection, the maximum rate of oxygen consumption achieved during swimming was 15% higher in the selected than in the control lines (least square means, adjusted for body mass: 252.0 vs. 218.6 mL O(2)/h, P = 0.0001). When fed a low-quality diet made of dried grass, voles from the lines selected for ability to cope with herbivorous diet lost about 0.7 g less mass than voles from the control lines (-2.44 vs. -3.16 g/4 d, P = 0.008). In lines selected for predatory behavior toward crickets, proportion of "predatory" individuals was higher than in the control lines (43.6% vs. 24.9%; P = 0.045), but "time to capture" calculated for the successful trials did not differ between the lines. The experiment continues, and the selected lines of voles will provide a unique model for testing hypotheses concerning correlated evolution of complex traits.

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Evolution of basal metabolic rate in bank voles from a multidirectional selection experiment

Sadowska

Stawski

Rudolf

et al. 2015

Proc. R. Soc. B.

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A major theme in evolutionary and ecological physiology of terrestrial vertebrates encompasses the factors underlying the evolution of endothermy in birds and mammals and interspecific variation of basal metabolic rate (BMR). Here, we applied the experimental evolution approach and compared BMR in lines of a wild rodent, the bank vole (Myodes glareolus), selected for 11 generations for: high swim-induced aerobic metabolism (A), ability to maintain body mass on a low-quality herbivorous diet (H) and intensity of predatory behaviour towards crickets (P). Four replicate lines were maintained for each of the selection directions and an unselected control (C). In comparison to C lines, A lines achieved a 49% higher maximum rate of oxygen consumption during swimming, H lines lost 1.3 g less mass in the test with low-quality diet and P lines attacked crickets five times more frequently. BMR was significantly higher in A lines than in C or H lines (60.8, 56.6 and 54.4 ml O 2 h 21 , respectively), and the values were intermediate in P lines (59.0 ml O 2 h 21 ). Results of the selection experiment provide support for the hypothesis of a positive association between BMR and aerobic exercise performance, but not for the association of adaptation to herbivorous diet with either a high or low BMR.

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Genetic Correlations in a Wild Rodent: Grass-Eaters and Fast-Growers Evolve High Basal Metabolic Rates

Sadowska

Baliga‐Klimczyk

Labocha

et al. 2009

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Basal metabolic rate (BMR), commonly used as a measure of the cost of living, is highly variable among species, and sources of the variation are subject to an enduring debate among comparative biologists. One of the hypotheses links the variation in BMR with diversity of food habits and life-history traits. We test this hypothesis by asking how BMR of a particular species, the bank vole The rate of energy metabolism varies at all possible levels of comparison: across large taxa, among species, individuals within a species, and also within individuals (McNab 2002). Explaining the sources of this variation remains one of the central issues in the ecological and evolutionary physiology of animals (e.g., Mueller and Diamond

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Laboratory model of adaptive radiation: Activity and metabolic rates in bank voles from a multidirectional artificial selection experiment

Koteja

Baliga‐Klimczyk

Chrząścik

et al. 2009

Comparative Biochemistry and Physiology Part A: Molecular &

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4.P2. Basal metabolic rate and life history in the bank vole, Myodes glareolus

Sadowska

Baliga‐Klimczyk

Labocha

et al. 2007

Comparative Biochemistry and Physiology Part A: Molecular &

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