As part of his studies on Ecology, Jörgen I. Johnsson frequently links adjacent subjects like Juvenile. Fish <Actinopterygii> is closely attributed to Aquaculture in his study. He incorporates Aquaculture and Oncorhynchus in his studies. He integrates Oncorhynchus and Salmonidae in his studies. Jörgen I. Johnsson regularly links together related areas like Rainbow trout in his Salmonidae studies. His Rainbow trout study frequently draws connections between adjacent fields such as Fish <Actinopterygii>. His studies link Forage fish with Fishery. His study ties his expertise on Fishery together with the subject of Forage fish. His work in Brown trout is not limited to one particular discipline; it also encompasses Salmo.
His work on Trout expands to the thematically related Fishery. Jörgen I. Johnsson combines Trout and Salmo in his research. His work on Salmo is being expanded to include thematically relevant topics such as Brown trout. His Brown trout study frequently links to adjacent areas such as Fishery. Fish <Actinopterygii> is closely attributed to Hatchery in his research. The study of Hatchery is intertwined with the study of Fish <Actinopterygii> in a number of ways. His study connects Domestication and Ecology. Jörgen I. Johnsson connects Zoology with Animal science in his study. Jörgen I. Johnsson conducted interdisciplinary study in his works that combined Animal science and Zoology.
Fish <Actinopterygii> is closely attributed to Hatchery in his work. He merges Hatchery with Fishery in his research. His Fishery study frequently draws connections to other fields, such as Fish <Actinopterygii>. He performs multidisciplinary study on Zoology and Ecology in his works. His work blends Ecology and Zoology studies together. Jörgen I. Johnsson regularly links together related areas like Thermodynamics in his Plasticity studies. Thermodynamics is closely attributed to Plasticity in his work. His study ties his expertise on Endocrinology together with the subject of Ontogeny. Endocrinology is closely attributed to Ontogeny in his study.
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Domestication and growth hormone alter antipredator behaviour and growth patterns in juvenile brown trout, Salmo trutta
J I Johnsson;E Petersson;E Jönsson;B T Björnsson.
Canadian Journal of Fisheries and Aquatic Sciences (1996)
Effects of domestication on growth physiology and endocrinology of Atlantic salmon (Salmo salar)
Ian A Fleming;Thorleifur Agustsson;Bengt Finstad;Jörgen I Johnsson.
Canadian Journal of Fisheries and Aquatic Sciences (2002)
Hatchery selection promotes boldness in newly hatched brown trout (Salmo trutta): implications for dominance
L. Fredrik Sundström;Erik Petersson;Johan Höjesjö;Jörgen I. Johnsson.
Behavioral Ecology (2004)
Behavioural and heart rate responses to predation risk in wild and domesticated Atlantic salmon
Jörgen I Johnsson;Johan Höjesjö;Ian A Fleming.
Canadian Journal of Fisheries and Aquatic Sciences (2001)
Growth hormone increases growth rate, appetite and dominance in juvenile rainbow trout, Oncorhynchus mykiss
Jörgen I. Johnsson;Björn Th. Björnsson.
Animal Behaviour (1994)
Density‐dependent growth in brown trout: effects of introducing wild and hatchery fish
T. Bohlin;L. F. Sundström;J. I. Johnsson;J. Höjesjö.
Journal of Animal Ecology (2002)
Interbreeding with Domestic Strain Increases Foraging under Threat of Predation in Juvenile Steelhead Trout (Oncorhynchus mykiss): An Experimental Study
Jörgen I. Johnsson;Mark V. Abrahams.
Canadian Journal of Fisheries and Aquatic Sciences (1991)
Environmental enrichment for fish in captive environments: effects of physical structures and substrates
Joacim Näslund;Jörgen I Johnsson.
Fish and Fisheries (2016)
The importance of being familiar: individual recognition and social behavior in sea trout (Salmo trutta)
Johan Höjesjö;Jörgen I. Johnsson;Erik Petersson;Torbjörn Järvi.
Behavioral Ecology (1998)
Shy trout grow faster: exploring links between personality and fitness-related traits in the wild
Bart Adriaenssens;Jörgen I. Johnsson.
Behavioral Ecology (2011)
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