Mads Andersen

Publications

• Physiological correlates of chill susceptibility in Lepidoptera
• Plasticity in Na+/K+-ATPase thermal kinetics drives variation in the critical thermal minimum of adult Drosophila melanogaster
• Tropical butterflies lose central nervous system function in the cold from a spreading depolarization event
• Elemental stoichiometry and insect chill tolerance: Evolved and plastic changes in organismal Na+ and K+ content in Drosophila
• Dietary potassium and cold acclimation additively increase cold tolerance inDrosophila melanogaster
• Osmoregulatory capacity at low temperature is critical for insect cold tolerance
• Plasticity in Na+/K+-ATPase thermal kinetics drives variation in the temperature of cold-induced neural shutdown of adult Drosophila melanogaster
• A cold and quiet brain
• Thermal acclimation alters Na+/K+-ATPase activity in a tissue-specific manner in Drosophila melanogaster
• ECR Spotlight – Mads Kuhlmann Andersen
• Dietary potassium and cold acclimation additively increase cold tolerance in Drosophila melanogaster
• A neurophysiological limit and its biogeographic correlations: cold-induced spreading depolarization in tropical butterflies
• Cold tolerance of Drosophila species is tightly linked to epithelial K+ transport capacity of the Malpighian tubules and rectal pads
• Cold-acclimation improves chill tolerance in the migratory locust through preservation of ion balance and membrane potential
• Central nervous shutdown underlies acute cold tolerance in tropical and temperate Drosophila species
• Fluctuating thermal regime preserves physiological homeostasis and reproductive capacity in Drosophila suzukii
• Paralytic hypo-energetic state facilitates anoxia tolerance despite ionic imbalance in adultDrosophila melanogaster
• Cold exposure causes cell death by depolarization-mediated Ca2+ overload in a chill-susceptible insect
• Ambient CO2, fish behaviour and altered GABAergic neurotransmission: exploring the mechanism of CO2-altered behaviour by taking a hypercapnia dweller down to low CO2levels
• The central nervous system and muscular system play different roles for chill coma onset and recovery in insects
• Inter- and intraspecific differences in Drosophila cold tolerance are linked to hindgut reabsorption capacity
• Maintenance of hindgut reabsorption during cold exposure is a key adaptation for Drosophila cold tolerance
• Hyperkalemia, not apoptosis, accurately predicts chilling injury in individual locusts
• Hyperkalaemia, not apoptosis, accurately predicts insect chilling injury
• The freeze-avoiding mountain pine beetle (Dendroctonus ponderosae) survives prolonged exposure to stressful cold by mitigating ionoregulatory collapse
• Mechanisms of insect chill tolerance
• Can air-breathing fish be adapted to higher than present temperatures?
• The freeze-avoiding mountain pine beetle (Dendroctonus ponderosae) survives prolonged exposure to stressful cold by mitigating ionoregulatory collapse
• Thermal acclimation of spreading depolarization in the CNS ofDrosophila melanogaster
• Glial voltage-gated K+channels modulate the neural abiotic stress tolerance ofDrosophila melanogaster
• Thermal acclimation alters the roles of Na+/K+-ATPase activity in a tissue-specific manner inDrosophila melanogaster
• Elemental stoichiometry and insect chill tolerance: evolved and plastic changes in organismal Na+ and K+ content in Drosophila
• Physiological correlates of chill susceptibility in Lepidoptera
• Acclimation, duration and intensity of cold exposure determine the rate of cold stress accumulation and mortality in Drosophila suzukii