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- Nord, Andreas, et al.
(författare)
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Reduced immune responsiveness contributes to winter energy conservation in an Arctic bird
- 2020
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Ingår i: Journal of Experimental Biology. - : The Company of Biologists. - 1477-9145 .- 0022-0949. ; 223:8
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Tidskriftsartikel (refereegranskat)abstract
- Animals in seasonal environments must prudently manage energyexpenditure to survive the winter. This may be achieved throughreductions in the allocation of energy for various purposes (e.g.thermoregulation, locomotion, etc.). We studied whether such tradeoffsalso include suppression of the innate immune response, bysubjecting captive male Svalbard ptarmigan (Lagopus mutahyperborea) to bacterial lipopolysaccharide (LPS) during exposureto either mild temperature (0°C) or cold snaps (acute exposure to−20°C), in constant winter darkness when birds were in energyconservingmode, and in constant daylight in spring. The innateimmune response was mostly unaffected by temperature. However,energy expenditure was below baseline when birds were immunechallenged in winter, but significantly above baseline in spring. Thissuggests that the energetic component of the innate immuneresponse was reduced in winter, possibly contributing to energyconservation. Immunological parameters decreased (agglutination,lysis, bacteriostatic capacity) or did not change (haptoglobin/PIT54)after the challenge, and behavioural modifications (anorexia, massloss) were lengthy (9 days). While we did not study the mechanismsexplaining these weak, or slow, responses, it is tempting to speculatethey may reflect the consequences of having evolved in anenvironment where pathogen transmission rate is presumably lowfor most of the year. This is an important consideration if climatechange and increased exploitation of the Arctic would alter pathogencommunities at a pace outwith counter-adaption in wildlife.
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| 2. |
- Nord, Andreas, et al.
(författare)
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Seasonal changes in plumage density, plumage mass, and feather morphology in the world’s northernmost land bird, the Svalbard Rock Ptarmigan (Lagopus muta hyperborea)
- 2023
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Ingår i: Polar Biology. - : Springer Science and Business Media LLC. - 1432-2056 .- 0722-4060. ; 46:4, s. 277-290
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Tidskriftsartikel (refereegranskat)abstract
- The Svalbard Rock Ptarmigan, Lagopus muta hyperborea, is the only year-round resident terrestrial bird in the high Arctic. Many of the physiological and morphological adaptations permitting its winter endurance in this harsh environment are well understood. However, it remains unknown how the conspicuous moult from a greyish brown summer to a white winter plumage, and any underlying changes in plumage structure and feather morphology, contribute to seasonal acclimatisation. We used standard morphometric techniques to describe the seasonal change in plumage and feather characteristics in six body regions. Then, we investigated whether winter plumage traits differed between first-winter and adult (second winter, or older) birds, because a difference in coat insulation has been suggested as an explanation for why first-winter Svalbard Ptarmigan loose more heat than adults. Plumage feather density (i.e., feathers × cm−2) and mass density (i.e., mg feathers × cm−2) were higher in winter, particularly on the head and feet where individual feathers were also heavier, longer, and downier. Seasonal changes in other regions (back, tarsi) indicated acclimatisation primarily to resist physical wear and wind. First-winter and adult birds had similar feather densities. However, mass density in first-winter birds was significantly lower than in adults in all but one body region (back) because individual feathers weighed less. This can explain previous observations of higher heat loss rates in first-winter birds. Our study suggests that plumage acclimatisation contributes to optimising the winter phenotype of Svalbard Rock Ptarmigan, both through higher insulative capacity and by improved resistance to harsh weather. The extent of these adaptations may be determined by the time or energy available for feather growth, exemplified here by inferior insulation in first-winter birds.
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