My research aims to understand how brain processes sensory information and generate behavior, and how this process is modulated by exposure to environmental conditions (light, stress etc.), experience and learning. To address this, I use ethologically relevant species (salmon and spiny dogfish) and genetic model zebrafish, and employ a combination of molecular genetics, transgenesis, histology, microscopy, animal behavior studies, data visualization and analyses methods. In addition, by exploiting our understanding on brain function and animal physiology, my research also aims to develop method/tools towards sustainable environment (conservation, aquaculture).
Prosjekter
Publikasjoner
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Vitenskapelig artikkelFood anticipatory behaviour on European seabass in sea cages: activity-, positioning-, and density-based approaches– Frontiers in Marine Science 2023
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KonferanseforedragPåvirkning og tiltak for å unngå påvirkning av pigghå i akvakulturanlegg– Havbruk 2022
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Vitenskapelig oversiktsartikkelIntegrated Behavioral, Genetic and Brain Circuit Visualization Methods to Unravel Functional Anatomy of Zebrafish Amygdala– Frontiers in Neuroanatomy 2022
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Vitenskapelig artikkelInterhemispheric connections between olfactory bulbs improve odor detection– PLoS Biology 2020
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Vitenskapelig artikkelIdentification of a neuronal population in the telencephalon essential for fear conditioning in zebrafish– BMC Biology 2018
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Vitenskapelig artikkelActivation of the hypothalamic feeding centre upon visual prey detection– Nature Communications 2017
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Vitenskapelig artikkelMotile-cilia-mediated flow improves sensitivity and temporal resolution of olfactory computations– Current Biology 2017