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Publication DateAutonomic Neuroscience: Basic and Clinical, ISSN 1566-0702, 2016, Volume 196, pp. 63 - 74
Abstract Cold exposure in humans causes specific acute and chronic physiological responses. This paper will review both the acute and long-term physiological...
Medical Education | Advanced Basic Science | Shivering | Insulative acclimatization | Temperature regulation | Habituation, hypothermia | Vasoconstriction | AGED HUMAN SKIN | PHYSICAL-FITNESS | INDUCED CUTANEOUS VASOCONSTRICTION | BROWN ADIPOSE-TISSUE | BODY-TEMPERATURE | BLOOD-FLOW | NEUROSCIENCES | BASAL METABOLIC-RATES | WATER IMMERSION | HUMAN THERMOREGULATORY RESPONSES | KOREAN WOMEN DIVERS | Vasoconstriction - physiology | Cold Temperature | Animals | Body Temperature Regulation - physiology | Humans | Adaptation, Physiological - physiology | Fatigue - physiopathology | Acclimatization - physiology | Physiological aspects | Fatigue | Skin | Hypothermia
Medical Education | Advanced Basic Science | Shivering | Insulative acclimatization | Temperature regulation | Habituation, hypothermia | Vasoconstriction | AGED HUMAN SKIN | PHYSICAL-FITNESS | INDUCED CUTANEOUS VASOCONSTRICTION | BROWN ADIPOSE-TISSUE | BODY-TEMPERATURE | BLOOD-FLOW | NEUROSCIENCES | BASAL METABOLIC-RATES | WATER IMMERSION | HUMAN THERMOREGULATORY RESPONSES | KOREAN WOMEN DIVERS | Vasoconstriction - physiology | Cold Temperature | Animals | Body Temperature Regulation - physiology | Humans | Adaptation, Physiological - physiology | Fatigue - physiopathology | Acclimatization - physiology | Physiological aspects | Fatigue | Skin | Hypothermia
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Loading RightsEcology Letters, ISSN 1461-023X, 11/2016, Volume 19, Issue 11, pp. 1372 - 1385
Thermal performance curves (TPCs), which quantify how an ectotherm's body temperature (Tb) affects its performance or fitness, are often used in an attempt to...
thermal variability | thermal performance | Body temperature | fitness | climate change | SOCKEYE-SALMON | THERMOREGULATORY BEHAVIOR | ONCORHYNCHUS-NERKA | EXTREME TEMPERATURES | PHYSIOLOGICAL PERFORMANCE | JENSENS INEQUALITY | HABITAT SELECTION | FITNESS CONSEQUENCES | ECOLOGY | REACTION NORMS | TERRESTRIAL ECTOTHERMS | Adaptation, Physiological | Animals | Climate Change | Time Factors | Models, Biological | Body Temperature Regulation | Environment | Environmental aspects | Global temperature changes | Climate change | Temperature | Physiology | Ecology
thermal variability | thermal performance | Body temperature | fitness | climate change | SOCKEYE-SALMON | THERMOREGULATORY BEHAVIOR | ONCORHYNCHUS-NERKA | EXTREME TEMPERATURES | PHYSIOLOGICAL PERFORMANCE | JENSENS INEQUALITY | HABITAT SELECTION | FITNESS CONSEQUENCES | ECOLOGY | REACTION NORMS | TERRESTRIAL ECTOTHERMS | Adaptation, Physiological | Animals | Climate Change | Time Factors | Models, Biological | Body Temperature Regulation | Environment | Environmental aspects | Global temperature changes | Climate change | Temperature | Physiology | Ecology
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Loading RightsBrain Research, ISSN 0006-8993, 05/2019, Volume 1710, pp. 136 - 145
Normal glucose homeostasis depends on the capacity of pancreatic β-cells to adjust insulin secretion in response to a change of tissue insulin sensitivity. In...
Glucose tolerance | Thermoregulation | Hypothalamic preoptic area | Insulin sensitivity | Insulin secretion | BROWN ADIPOSE-TISSUE | NEUROSCIENCES | THERMOGENESIS | NOREPINEPHRINE TURNOVER | COLD-EXPOSURE | PARAVENTRICULAR NUCLEUS | DIET | CENTRAL EFFERENT PATHWAYS | GLUCOSE-TOLERANCE | THERMOREGULATORY RESPONSES | Type 2 diabetes | Brain | Pancreatic beta cells | Neurons | ACTH | Glucose | Glucose tolerance tests | Insulin | Dextrose | Ethylenediaminetetraacetic acid | Corticotropin releasing hormone | Blood sugar monitoring | Thyrotropin | hypothalamic preoptic area | insulin sensitivity | insulin secretion | glucose tolerance | thermoregulation
Glucose tolerance | Thermoregulation | Hypothalamic preoptic area | Insulin sensitivity | Insulin secretion | BROWN ADIPOSE-TISSUE | NEUROSCIENCES | THERMOGENESIS | NOREPINEPHRINE TURNOVER | COLD-EXPOSURE | PARAVENTRICULAR NUCLEUS | DIET | CENTRAL EFFERENT PATHWAYS | GLUCOSE-TOLERANCE | THERMOREGULATORY RESPONSES | Type 2 diabetes | Brain | Pancreatic beta cells | Neurons | ACTH | Glucose | Glucose tolerance tests | Insulin | Dextrose | Ethylenediaminetetraacetic acid | Corticotropin releasing hormone | Blood sugar monitoring | Thyrotropin | hypothalamic preoptic area | insulin sensitivity | insulin secretion | glucose tolerance | thermoregulation
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Loading RightsActa Physiologica, ISSN 1748-1708, 02/2016, Volume 216, Issue 2, pp. 163 - 185
Light is essential for vision and plays an important role in non‐visual responses, thus affecting alertness, mood and circadian rhythms. Furthermore, light...
physiology | indoor environment | light | thermal comfort | thermoregulation | circadian rhythm | Thermoregulation | Thermal comfort | Physiology | Circadian rhythm | Indoor environment | Light | RHYTHM DISRUPTION | SUBJECTIVE ALERTNESS | EVENING DRESSING BEHAVIOR | INSULIN SENSITIVITY | SUPRACHIASMATIC NUCLEUS | CORE BODY-TEMPERATURE | CIRCADIAN ENERGY-METABOLISM | BRIGHT-LIGHT | HEART-RATE | THERMOREGULATORY RESPONSES | Circadian Rhythm - physiology | Body Temperature Regulation - physiology | Humans | Lighting | Temperature
physiology | indoor environment | light | thermal comfort | thermoregulation | circadian rhythm | Thermoregulation | Thermal comfort | Physiology | Circadian rhythm | Indoor environment | Light | RHYTHM DISRUPTION | SUBJECTIVE ALERTNESS | EVENING DRESSING BEHAVIOR | INSULIN SENSITIVITY | SUPRACHIASMATIC NUCLEUS | CORE BODY-TEMPERATURE | CIRCADIAN ENERGY-METABOLISM | BRIGHT-LIGHT | HEART-RATE | THERMOREGULATORY RESPONSES | Circadian Rhythm - physiology | Body Temperature Regulation - physiology | Humans | Lighting | Temperature
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Loading RightsIntegrative and Comparative Biology, ISSN 1540-7063, 11/2011, Volume 51, Issue 5, pp. 719 - 732
Many organisms have complex life cycles with distinct life stages that experience different environmental conditions. How does the complexity of life cycles...
Climate change | Insect larvae | A Synthetic Approach to the Response of Organisms to Climate Change: The Role of Thermal Adaptation | Ambient temperature | Ecological competition | Evolution | Climate models | High temperature | Climate change adaptation | Eggs | Butterflies | MANDUCA-SEXTA | ZOOLOGY | COLIAS-PHILODICE-ERIPHYLE | THERMOREGULATORY STRATEGIES | FITNESS CONSEQUENCES | WESTERN WHITE BUTTERFLIES | THERMAL SENSITIVITY | POPULATION-STRUCTURE | PIERID BUTTERFLIES | PIGMENT POLYMORPHISMS | ADAPTIVE SIGNIFICANCE | Temperature | Body Temperature Regulation | Stress, Physiological | Acclimatization | Microclimate | Biological Evolution | Animals | Climate Change | Manduca - growth & development | Tropical Climate | Zygote | Butterflies - physiology | Ecosystem | Butterflies - growth & development | Female | Manduca - physiology | Altitude | Life Cycle Stages - physiology | Climatic changes | Research | Life cycles (Biology) | Insects
Climate change | Insect larvae | A Synthetic Approach to the Response of Organisms to Climate Change: The Role of Thermal Adaptation | Ambient temperature | Ecological competition | Evolution | Climate models | High temperature | Climate change adaptation | Eggs | Butterflies | MANDUCA-SEXTA | ZOOLOGY | COLIAS-PHILODICE-ERIPHYLE | THERMOREGULATORY STRATEGIES | FITNESS CONSEQUENCES | WESTERN WHITE BUTTERFLIES | THERMAL SENSITIVITY | POPULATION-STRUCTURE | PIERID BUTTERFLIES | PIGMENT POLYMORPHISMS | ADAPTIVE SIGNIFICANCE | Temperature | Body Temperature Regulation | Stress, Physiological | Acclimatization | Microclimate | Biological Evolution | Animals | Climate Change | Manduca - growth & development | Tropical Climate | Zygote | Butterflies - physiology | Ecosystem | Butterflies - growth & development | Female | Manduca - physiology | Altitude | Life Cycle Stages - physiology | Climatic changes | Research | Life cycles (Biology) | Insects
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Loading RightsPLoS ONE, ISSN 1932-6203, 04/2014, Volume 9, Issue 4, p. e94698
The time course of physiological and psychological markers during cold acclimation (CA) was explored. The experiment included 17 controlled (i.e., until the...
SKELETAL-MUSCLE | WOMEN | NONSHIVERING THERMOGENESIS | TEMPERATURE | WATER IMMERSION | MULTIDISCIPLINARY SCIENCES | ADAPTATION | MEN | HUMAN THERMOREGULATORY RESPONSES | BROWN ADIPOSE-TISSUE | STRESS | Stress, Physiological - physiology | Young Adult | Cold Temperature | Time Factors | Humans | Heart Rate - physiology | Male | Body Temperature - physiology | Oxygen Consumption - physiology | Acclimatization - physiology | Stress, Psychological - physiopathology | Psychological aspects | Physiological aspects | Acclimatization | Research | Temperature | Thermoregulation | Shivering | Immunity | Cold acclimation | Body mass index | Non-shivering | Sport science | Physiology | Swimming | Adaptation | Immune system | Stress concentration | Medical research | Cold | Water immersion | Markers | Metabolism | Acclimation | Studies | Heat | Hypotheses | Thermogenesis | Body mass | Body size | Biomarkers
SKELETAL-MUSCLE | WOMEN | NONSHIVERING THERMOGENESIS | TEMPERATURE | WATER IMMERSION | MULTIDISCIPLINARY SCIENCES | ADAPTATION | MEN | HUMAN THERMOREGULATORY RESPONSES | BROWN ADIPOSE-TISSUE | STRESS | Stress, Physiological - physiology | Young Adult | Cold Temperature | Time Factors | Humans | Heart Rate - physiology | Male | Body Temperature - physiology | Oxygen Consumption - physiology | Acclimatization - physiology | Stress, Psychological - physiopathology | Psychological aspects | Physiological aspects | Acclimatization | Research | Temperature | Thermoregulation | Shivering | Immunity | Cold acclimation | Body mass index | Non-shivering | Sport science | Physiology | Swimming | Adaptation | Immune system | Stress concentration | Medical research | Cold | Water immersion | Markers | Metabolism | Acclimation | Studies | Heat | Hypotheses | Thermogenesis | Body mass | Body size | Biomarkers
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Evolution of plasticity and adaptive responses to climate change along climate gradients
Proceedings of the Royal Society B: Biological Sciences, ISSN 0962-8452, 08/2017, Volume 284, Issue 1860, pp. 20170386 - 20170386
The relative contributions of phenotypic plasticity and adaptive evolution to the responses of species to recent and future climate change are poorly...
Phenotypic plasticity | Climate change | Seasonal adaptation | Evolutionary responses | THERMOREGULATORY STRATEGIES | ENVIRONMENT | phenotypic plasticity | EVOLUTIONARY BIOLOGY | evolutionary responses | COLIAS-PHILODICE-ERIPHYLE | BEHAVIORAL-IMPLICATIONS | MECHANISTIC ECOLOGY | seasonal adaptation | ADAPTATION | BIOLOGY | POPULATION-STRUCTURE | ECOLOGY | PIERID BUTTERFLIES | PIGMENT POLYMORPHISMS | climate change | Biological Evolution | Phenotype | Animals | Climate Change | Models, Biological | Butterflies - genetics | Butterflies - physiology | Acclimatization - genetics | Seasons | Microclimate | Altitude | Adaptive systems | Biological evolution | Phenotypic variations | Climate models | Absorptivity | Butterflies | Seasonal variations | Demographics | Elevation | Plasticity | Evolution | Heat balance | Plastic properties | Adults | Evolution & development | 1001
Phenotypic plasticity | Climate change | Seasonal adaptation | Evolutionary responses | THERMOREGULATORY STRATEGIES | ENVIRONMENT | phenotypic plasticity | EVOLUTIONARY BIOLOGY | evolutionary responses | COLIAS-PHILODICE-ERIPHYLE | BEHAVIORAL-IMPLICATIONS | MECHANISTIC ECOLOGY | seasonal adaptation | ADAPTATION | BIOLOGY | POPULATION-STRUCTURE | ECOLOGY | PIERID BUTTERFLIES | PIGMENT POLYMORPHISMS | climate change | Biological Evolution | Phenotype | Animals | Climate Change | Models, Biological | Butterflies - genetics | Butterflies - physiology | Acclimatization - genetics | Seasons | Microclimate | Altitude | Adaptive systems | Biological evolution | Phenotypic variations | Climate models | Absorptivity | Butterflies | Seasonal variations | Demographics | Elevation | Plasticity | Evolution | Heat balance | Plastic properties | Adults | Evolution & development | 1001
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Loading RightsJournal of Strength and Conditioning Research, ISSN 1064-8011, 06/2015, Volume 29, Issue 6, pp. 1729 - 1736
ABSTRACTBrown, JS and Connolly, DA. Selected human physiological responses during extreme heatThe Badwater Ultramarathon. J Strength Cond Res 29(6)1729–1736,...
rate of thermal sensation | ultraendurance | rate of perceived intensity | skin temperature | Core body temperature | CORE TEMPERATURE | SPORT SCIENCES | PERFORMANCE | IRONMAN TRIATHLON | EXERCISE | MARATHON | HYDRATION STATUS | ULTRARUNNERS | WEIGHT | BODY | THERMOREGULATORY RESPONSES | core body temperature | Blood Pressure | Heart Rate | Respiratory Rate | Physical Exertion - physiology | Humans | Middle Aged | Body Temperature Regulation | Male | Body Temperature | Running - physiology | Extreme Heat | Adult | Skin Temperature | Athletic Performance - physiology | Marathon running | Health aspects | Runners (Sports) | Extreme environments | Heart rate | Body mass index | Athletes | Body temperature
rate of thermal sensation | ultraendurance | rate of perceived intensity | skin temperature | Core body temperature | CORE TEMPERATURE | SPORT SCIENCES | PERFORMANCE | IRONMAN TRIATHLON | EXERCISE | MARATHON | HYDRATION STATUS | ULTRARUNNERS | WEIGHT | BODY | THERMOREGULATORY RESPONSES | core body temperature | Blood Pressure | Heart Rate | Respiratory Rate | Physical Exertion - physiology | Humans | Middle Aged | Body Temperature Regulation | Male | Body Temperature | Running - physiology | Extreme Heat | Adult | Skin Temperature | Athletic Performance - physiology | Marathon running | Health aspects | Runners (Sports) | Extreme environments | Heart rate | Body mass index | Athletes | Body temperature
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Loading RightsJournal of Animal Ecology, ISSN 0021-8790, 07/2018, Volume 87, Issue 4, pp. 956 - 973
The accuracy of predictive models (also known as mechanistic or causal models) of animal responses to climate change depends on properly incorporating the...
thermal tolerance | thermoneutral zone | heat exchange | homeothermy | evaporative heat loss | body temperature | acclimatization | ENERGY-EXCHANGE | THERMOREGULATORY BEHAVIOR | INFRARED THERMOGRAPHY | BODY-TEMPERATURE | GLOBAL CHANGE | BASAL METABOLIC-RATE | ZOOLOGY | STANDARD OPERATIVE TEMPERATURE | ACTIVITY PATTERNS | CONVECTIVE HEAT-TRANSFER | ECOLOGY | IMPACTS | Acclimatization | Animals | Climate Change | Body Temperature Regulation | Mammals - physiology | Physiological aspects | Environmental aspects | Global temperature changes | Analysis | Thermal stress | Dry heat | Energy metabolism | Temperature | Animal models | Cooling | Body temperature | Phenotypic plasticity | Thermoregulation | Evaporative cooling | Climate models | Mammals | Model accuracy | Climate change | Body mass | Prediction models | Heat exchange | Temperature effects | Sustainability | Skin temperature | Skin | Physiology | Critical temperature | Heat transfer
thermal tolerance | thermoneutral zone | heat exchange | homeothermy | evaporative heat loss | body temperature | acclimatization | ENERGY-EXCHANGE | THERMOREGULATORY BEHAVIOR | INFRARED THERMOGRAPHY | BODY-TEMPERATURE | GLOBAL CHANGE | BASAL METABOLIC-RATE | ZOOLOGY | STANDARD OPERATIVE TEMPERATURE | ACTIVITY PATTERNS | CONVECTIVE HEAT-TRANSFER | ECOLOGY | IMPACTS | Acclimatization | Animals | Climate Change | Body Temperature Regulation | Mammals - physiology | Physiological aspects | Environmental aspects | Global temperature changes | Analysis | Thermal stress | Dry heat | Energy metabolism | Temperature | Animal models | Cooling | Body temperature | Phenotypic plasticity | Thermoregulation | Evaporative cooling | Climate models | Mammals | Model accuracy | Climate change | Body mass | Prediction models | Heat exchange | Temperature effects | Sustainability | Skin temperature | Skin | Physiology | Critical temperature | Heat transfer
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