Your search keyword '"Atlantic salmon -- Growth -- Environmental aspects"' showing total 2 results

1. Seasonal shift in the effects of predators on juvenile Atlantic salmon (Salmo salar) energetics

Author

Ward, Darren M., Nislow, Keith H., and Folt, Carol L.

Subjects

Atlantic salmon -- Growth -- Environmental aspects, Predation (Biology) -- Research, Fish populations -- Measurement -- Environmental aspects, Mercury -- Health aspects, Company growth, Earth sciences

Abstract

Predator effects on prey populations are determined by the number of prey consumed and effects on the traits of surviving prey. Yet the effects of predators on prey traits are rarely evaluated in field studies. We measured the effects of predators on energetic traits (consumption and growth rates) of juvenile Atlantic salmon (Salmo salar) in a large-scale field study. Salmon fry were released at 18 sites that encompassed a wide range of predatory slimy sculpin (Cottus cognatus) abundance. We sampled salmon after 21 and 140 days to measure salmon growth and estimate consumption using a massbalance model of methylmercury accumulation. Salmon population density was reduced fivefold at sites with abundant sculpin. Over the early season, salmon consumed less where sculpin were abundant, suggesting that reduced foraging under predation risk contributed to predator-caused mortality. In contrast, over the late season, salmon grew more where sculpin were abundant, suggesting that compensatory growth at reduced salmon population density moderated predator-caused mortality. Predator effects on prey energetics can drive variation in survival and growth, with important consequences for population dynamics. Les effets des predateurs sur les populations de proies sont determines par le nombre de proies consommees et les effets sur les traits des proies survivantes. On evalue, neanmoins, rarement les effets des predateurs sur les traits des proies dans les etudes sur le terrain. Nous mesurons les effets des predateurs sur les traits energetiques (taux de consommation et de croissance) de jeunes saumons atlantiques (Salmo salar) dans une etude de terrain a grande echelle. Nous avons libere des alevins de saumons dans 18 sites qui couvrent une grande etendue d'abondances de predateurs, des chabots visqueux (Cottus cognatus). Nous avons echantillonne les saumons apres 21 et 140 jours afin de mesurer la croissance des saumons et d'estimer leur consommation a l'aide d'un modele de bilan massique d'accumulation de methylmercure. La densite des saumons a ete reduite par un facteur de cinq aux sites ou les chabots sont abondants. Durant le debut de la saison, les saumons consomment moins la ou les chabots sont nombreux, ce qui laisse croire que la recherche reduite de nourriture a cause du risque de predation contribue a la mortalite due aux predateurs. En revanche, durant la fin de la saison, les saumons croissent plus lorsque les chabots sont abondants, ce qui indique qu'une croissance compensatoire aux densites reduites de saumons tempere la mortalite due aux predateurs. Les effets des predateurs sur l'energetique des proies peuvent expliquer les variations de la survie et de la croissance, qui ont des consequences importantes sur la dynamique de la population. [Traduit par la Redaction], Introduction Heavy predation on small, juvenile size classes directly reduces recruitment of fish cohorts (Hixon and Beets 1993; Walters and Juanes 1993). In addition to direct losses to predators, predation [...]

Published

2011

2. Phenotypic plasticity in physiological status at emergence from nests as a response to temperature in Atlantic salmon (Salmo salar)

Author

Skoglund, Helge, Einum, Sigurd, Forseth, Torbjorn, and Barlaup, Bjorn Torgeir

Subjects

Atlantic salmon -- Growth -- Environmental aspects, Embryonic development -- Environmental aspects, Company growth, Earth sciences

Abstract

Successful transitions from relying on yolk to exogenous feeding may be strongly influenced by temperature conditions experienced both during embryonic development, through effects on juvenile phenotype, and during initiation of feeding. Here we simultaneously assess these two effects of temperature treatments (2, 5, 8, and 12°C) in Atlantic salmon (Salmo salar). Fry emerging from low incubation temperatures were smaller and had metabolized more energy prior to emergence, but had larger yolk sacs and higher mass specific energy levels, than those experiencing higher temperatures. After emergence, activity, feeding, and growth increased significantly with increasing temperature, but fry were able to initiate feeding and maintain positive growth at all four temperatures. Larger energy stores may provide an advantage when emerging at cold temperatures with a low potential for feeding activity, whereas having a large body size, which is primarily of importance in competitive interactions, may be less important owing to cryptic feeding and sheltering at low temperatures. However, the adaptive significance of the observed phenotypic response to incubation temperature remains untested. Le passage avec succes de la dependance du vitellus a l'alimentation exogene peut etre fortement influence par les conditions de temperature subies durant le developpement embryonnaire, a travers leurs effets sur le phenotype juvenile, ainsi que durant l'initiation de l'alimentation. Nous evaluons simultanement ici ces deux effets des traitements thermiques (2, 5, 8 et 12°C) chez le saumon atlantique (Salmo salar). Les alevins qui emergent de temperatures d'incubation basses sont plus petits et ont metabolise plus d'energie avant l'emergence, mais ils possedent des sacs vitellins plus gros et des niveau x d' energie specifiques a la masse plus grands que ceux qui ont connu des temperatures plus elevees. Apres l'emergence, l'activite, l'alimentation et la croissance augmentent significativement en fonction de la temperature croissante; cependant, les al evins sont capables de commencer a s' alimenter et de maintenir une croissance positive aux quatre temperatures. Les reserves plus importantes d'energie peuvent representer un avantage lors d'une emergence a basse temperature lorsque le potentiel d' acti vite alimentaire est faible; en revanche, une forte taille corporelle, qui est de premiere importance dans les interactions de competition, peut etre moins avantageuse pour l'alimentation cryptique et la mise a l'abri aux temperatures basses. Cependant, la valeur adaptative de la reponse phenotypique observee a la temperature d'incubation reste a tester. [Traduit par la Redaction], Introduction The transition from relying on parentally provided resources to independent exogenous feeding represents a critical period of the life cycle in many organisms. Typically, a considerable amount of the [...]

Published

2011