Add to ORKGOsmoregulation in teleost fishes, whether they live in fresh water or in the sea, is a physiological activity very closely related to their survival. Yet in spite of the im-portance of osmoregulation surprisingly little is known about how fish deal with the physiological problem inherent in living in hypoosmotic and hyperosmotic environ
Teleost fishes occupy virtually every aquatic habitat on earth and as a group face a wide range of e...
Natural exposure to hypersaline environments occurs in many fish species (e.g. in tidal pools, lakes...
Three experiments were performed using rainbow trout (Salmo gairdneri), to determine; (1)the feasibi...
Teleost fishes regulate the osmotic concentration of their body fluids at about 30–40% of the level ...
When organisms including fish experience environmental disturbances, the effects may be dramatic whe...
The relationship between osmoregulatory stress and locomotor performance has been investigated in ju...
The marine teleosts have a blood concentration much lower than that of the sur-rounding sea water an...
The fish gill is subject to an osmorespiratory compromise in physiologically demanding situations wh...
The fish gill is subject to an osmorespiratory compromise in physiologically demanding situations wh...
Changes in survival, body-water content, body electrolyte concentration and Na+ turnover rates were ...
The fish gill is a multipurpose organ that plays a central role in gas exchange, ion regulation, aci...
The fish gill is a multipurpose organ that plays a central role in gas exchange, ion regulation, aci...
eel much work has been done on osmoregulatory problems in teleosts, and the funda-mental principles ...
The purpose of the investigation was to elucidate the mechanisms enabling the survival of euryhaline...
A matter which is of interest in fisheries both from the industrial and kientific points of view is...
Teleost fishes occupy virtually every aquatic habitat on earth and as a group face a wide range of e...
Natural exposure to hypersaline environments occurs in many fish species (e.g. in tidal pools, lakes...
Three experiments were performed using rainbow trout (Salmo gairdneri), to determine; (1)the feasibi...
Teleost fishes regulate the osmotic concentration of their body fluids at about 30–40% of the level ...
When organisms including fish experience environmental disturbances, the effects may be dramatic whe...
The relationship between osmoregulatory stress and locomotor performance has been investigated in ju...
The marine teleosts have a blood concentration much lower than that of the sur-rounding sea water an...
The fish gill is subject to an osmorespiratory compromise in physiologically demanding situations wh...
The fish gill is subject to an osmorespiratory compromise in physiologically demanding situations wh...
Changes in survival, body-water content, body electrolyte concentration and Na+ turnover rates were ...
The fish gill is a multipurpose organ that plays a central role in gas exchange, ion regulation, aci...
The fish gill is a multipurpose organ that plays a central role in gas exchange, ion regulation, aci...
eel much work has been done on osmoregulatory problems in teleosts, and the funda-mental principles ...
The purpose of the investigation was to elucidate the mechanisms enabling the survival of euryhaline...
A matter which is of interest in fisheries both from the industrial and kientific points of view is...
Teleost fishes occupy virtually every aquatic habitat on earth and as a group face a wide range of e...
Natural exposure to hypersaline environments occurs in many fish species (e.g. in tidal pools, lakes...
Three experiments were performed using rainbow trout (Salmo gairdneri), to determine; (1)the feasibi...