Abstract
The plastic regulation of internal energy reserves is acknowledged as the main adaptive response to winter conditions of resident small birds in northern latitudes, a strategy that may be altered whenever human‐supplemented food is available. We investigated the effects of supplementary feeding on the energy management strategy of two wild passerine species, the Willow Tit Poecile montanus and Blue Tit Cyanistes caeruleus, wintering in boreal conditions by measuring body mass and the energy cost of living, i.e. basal metabolic rate. Individuals of both species were heavier, larger and exhibited a higher energy cost of living when captured at the feeders than were individuals captured away from feeders. Fed Willow Tits expended more energy in maintenance, although this difference disappeared once mass was accounted for. Conversely, Blue Tits at feeders had higher mass‐adjusted energy cost of living, but only at low ambient temperatures. The results indicate that winter feeding has species‐specific effects on overall energy management strategy and modifies the response to environmental conditions of wintering passerines.
Highlights
Endotherms wintering at high latitudes struggle to survive as environmental conditions deteriorate at the same time as food availability diminishes
Body mass (Mb) fluctuations resulting from daily increase and overnight depletion of internal reserves constitute the core of the ‘optimal body mass’ (OBM) theory of energy management in wintering small birds (Moiron et al 2018)
The Blue Tit Cyanistes caeruleus and the Willow Tit Poecile montanus are two similar small-sized (~ 10 g) species of the family Paridae that are widespread across Europe
Summary
Endotherms wintering at high latitudes struggle to survive as environmental conditions deteriorate at the same time as food availability diminishes Small birds survive this situation through seasonal acclimatization based on an increased metabolic output to meet thermogenic. Body mass (Mb) fluctuations resulting from daily increase and overnight depletion of internal reserves constitute the core of the ‘optimal body mass’ (OBM) theory of energy management in wintering small birds (Moiron et al 2018). This daily Mb cycle is predicted to widen as temperatures and food predictability decrease (i.e. higher evening Mb and lower morning Mb) (Pravosudov & Grubb 1997). Individuals remain all year round within their territory, where they hoard scattered food-caches for winter survival (Lahti et al 1998)
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