Maximal heat dissipation capacity and hyperthermia risk: neglected key factors in the ecology of endotherms.
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Vultures of the seas: hyperacidic stomachs in wandering albatrosses as an adaptation to dispersed food resources, including fishery wastesDaily torpor and hibernation in birds and mammalsClimate change and human disturbance can lead to local extinction of Alpine rock ptarmigan: new insight from the western Italian Alps.Aging and the Mammalian regulatory triumvirateTrapped in the darkness of the night: thermal and energetic constraints of daylight flight in batsSumming the strokes: energy economy in northern elephant seals during large-scale foraging migrations.Warmer ambient temperatures depress liver function in a mammalian herbivore.Effect of season and high ambient temperature on activity levels and patterns of grizzly bears (Ursus arctos).Large diurnal temperature range increases bird sensitivity to climate changeModeling behavioral thermoregulation in a climate change sentinel.Energy Homeostasis in Monotremes.Sex matters: The effects of biological sex on adipose tissue biology and energy metabolismThe costs of locomotor activity? Maximum body temperatures and the use of torpor during the active season in edible dormiceNo evidence for a trade-off between reproductive investment and immunity in a rodentBiologging, remotely-sensed oceanography and the continuous plankton recorder reveal the environmental determinants of a seabird wintering hotspotHeat loss may explain bill size differences between birds occupying different habitatsEnergetic benefits of sociality offset the costs of parasitism in a cooperative mammalClimate, ecological release and bill dimorphism in an island songbirdMale weasels decrease activity and energy expenditure in response to high ambient temperatures.Body Temperature Regulation in Hot EnvironmentsMetabolic Cost of the Activation of Immune Response in the Fish-Eating Myotis (Myotis vivesi): The Effects of Inflammation and the Acute Phase ResponseSeasonal adaptations in energy budgeting in the primate Lepilemur leucopus.High levels of isotope elimination improve precision and allow individual-based measurements of metabolic rates in animals using the doubly labeled water methodOxidative costs of reproduction: Oxidative stress in mice fed standard and low antioxidant diets.Lactation Affects Isolated Mitochondria and Its Fatty Acid Composition but Has No Effect on Tissue Protein Oxidation, Lipid Peroxidation or DNA-Damage in Laboratory Mice.A guide to analysis of mouse energy metabolism.Limits to sustained energy intake XXIV: impact of suckling behaviour on the body temperatures of lactating female mice.Chronic Heat Stress Induces Immune Response, Oxidative Stress Response, and Apoptosis of Finishing Pig Liver: A Proteomic Approach.Limits to sustained energy intake XXV: milk energy output and thermogenesis in Swiss mice lactating at thermoneutrality.Why fly the extra mile? Latitudinal trend in migratory fuel deposition rate as driver of trans-equatorial long-distance migration.The relationship between body mass and field metabolic rate among individual birds and mammals.Oxidative costs of reproduction in mouse strains selected for different levels of food intake and which differ in reproductive performance.Ambient temperature affects postnatal litter size reduction in golden hamstersANIMAL PHYSIOLOGY. Exceptionally low daily energy expenditure in the bamboo-eating giant panda.Low protein feeding and energy transduction in rats.Cranking up the heat: relationships between energetically costly song features and the increase in thorax temperature in male crickets and katydids.Energy expenditure in professional flat jockeys using doubly labelled water during the racing season: Implications for body weight management.On the thermodynamic origin of metabolic scaling.Thermal conductance and basal metabolic rate are part of a coordinated system for heat transfer regulation.Global variation in thermal tolerances and vulnerability of endotherms to climate change.
P2860
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P2860
Maximal heat dissipation capacity and hyperthermia risk: neglected key factors in the ecology of endotherms.
description
2010 nî lūn-bûn
@nan
2010年の論文
@ja
2010年学术文章
@wuu
2010年学术文章
@zh
2010年学术文章
@zh-cn
2010年学术文章
@zh-hans
2010年学术文章
@zh-my
2010年学术文章
@zh-sg
2010年學術文章
@yue
2010年學術文章
@zh-hant
name
Maximal heat dissipation capac ...... in the ecology of endotherms.
@en
Maximal heat dissipation capac ...... in the ecology of endotherms.
@nl
type
label
Maximal heat dissipation capac ...... in the ecology of endotherms.
@en
Maximal heat dissipation capac ...... in the ecology of endotherms.
@nl
prefLabel
Maximal heat dissipation capac ...... in the ecology of endotherms.
@en
Maximal heat dissipation capac ...... in the ecology of endotherms.
@nl
P2860
P1476
Maximal heat dissipation capac ...... in the ecology of endotherms.
@en
P2093
Elzbieta Król
John R Speakman
P2860
P304
P356
10.1111/J.1365-2656.2010.01689.X
P577
2010-04-28T00:00:00Z