0000000000266949

AUTHOR

Peter Vilhelm Skov

showing 2 related works from this author

Bigger is not better: cortisol-induced cardiac growth and dysfunction in salmonids

2015

This is a Published Manuscript of an article published by Company of Biologists in Journal of Experimental Biology, available online: http://www.biologists.com/ Stress and elevated cortisol levels are associated with pathological heart growth and cardiovascular disease in humans and other mammals. We recently established a link between heritable variation in post-stress cortisol production and cardiac growth also in salmonid fish. A conserved stimulatory effect of the otherwise catabolic steroid hormone cortisol is likely implied, but has to date not been established experimentally. Furthermore, whereas cardiac growth is associated with failure of the mammalian heart, pathological cardiac h…

Male0301 basic medicinemedicine.medical_specialtyendocrine systemHydrocortisonePhysiologyGene ExpressionHeart failureCardiac performance030204 cardiovascular system & hematologyAquatic ScienceBiologyBioinformatics03 medical and health sciences0302 clinical medicineSDG 3 - Good Health and Well-beingInternal medicinemedicineAnimalsChronic stressCardiac OutputMolecular BiologySwimmingEcology Evolution Behavior and SystematicsVentricular RemodelingHeartStroke VolumeHypertrophyMyocardial hypertrophymedicine.diseasePeer reviewRainbow trout030104 developmental biologyEndocrinologyOncorhynchus mykissInsect ScienceHeart failureMyocardial hypertrophy/dk/atira/pure/sustainabledevelopmentgoals/good_health_and_well_beingExperimental biologyChronic stressFemaleAnimal Science and ZoologyRainbow trout
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Improved growth performance in rainbow trout Oncorhynchus mykiss reared at high densities is linked to increased energy retention

2015

Abstract Behaviour has been suggested as an underlying factor influencing how rearing density affects growth performance in Salmonid fishes. At low densities there is an elevated intensity of aggressive interactions and the formation of dominance hierarchies. As density increases, it is commonly assumed that aggression decreases, as the cost and effort required to establish and maintain dominance hierarchies increase. The increased energy expenditure associated with aggressive interactions has been identified as one mechanism causing a reduced efficiency in feed utilisation and therefore decreased growth performance. Manipulating aggressive behaviour through density may have advantages from…

Energy retentionDominance hierarchyAnimal scienceEnergy expenditureBioenergeticsEcologyEnergeticsFish <Actinopterygii>Rainbow troutAquatic ScienceBiologyDecreased growthAquaculture
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