Performance and allocation can simultaneously shape behaviour in fire-disturbed populations of root vole

Metabolic physiology and animal personality are often considered linked to each other, shaping ecological and evolutionary strategies along a life-history continuum. The energy allocation model predicts a negative while the performance model predicts a positive correlation between the rate of metabolic processes and behaviours, such as activity level. The models might operate simultaneously but depending on the context one can predominate over the other, determining expression of alternative pro- and reactive behavioural strategies. Large-scale fires, such as the one that burnt wetlands of Biebrza National Park (NE Poland), degrade natural habitats, affect amount of food and shelters and modify predatory-prey interactions. Fires pose also direct threat to survival of local populations, such as the wetland specialist root vole ( Microtus oeconomus ). We hypothesized that fire disturbance, by changing environmental context and selective regimes, determines mechanisms linking physiology and behaviour. Positive relation found among most studies, predicted by the performance model, would revert to negative relation, predicted by the allocation model, affecting animals ecological strategy in disturbed habitat. We repeatedly measured maintenance and exercise metabolic rates and activity behaviour on voles from post-fire and unburnt populations. Repeatable maintenance metabolism and activity level were positively correlated, but more labile exercise metabolism did not explain behaviour. The correlations were not strongly affected by fire disturbance, but voles from post-fire habitat had higher maintenance but not maximum metabolism and moved shorter distances than individuals from unburnt area. The results suggest that performance model predominates, while habitat disturbance might reveal some allocation constraints on physiology-personality linkage.