Bioenergetic alterations correlated with growth, fecundity and body burden of cadmium for mysids (<i>Mysidopsis bahia</i>)

Carr, R. Scott; Williams, John W.; Saksa, Frank I.; Buhl, Rosanna L.; Neff, Jerry M.

doi:10.1002/etc.5620040207

Cited by 19 publications

(2 citation statements)

References 20 publications

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“…G. salinus exposed to oil and oil/dispersant exhibited increased ammonia excretion and respiration rates, as well as decreased 0 : N ratios compared to controls. We interpret these results as an indication of increased protein catabolism, relative to lipid and carbohydrate catabolism; if prolonged, this response is likely to result in decreased growth (Carr et al, 1984). These responses tended to be less pronounced for the oil/dispersant amphipods which were either less affected or recovering more rapidly than the oil-only individuals.…”

Section: Discussionmentioning

confidence: 80%

“…The 0 : N ratio for the community decreased at low oil concentrations (98 to 133 ppb) but increased at higher concentrations. Recently, a concentration-dependent alteration in the 0 : N ratio of the opossum shrimp Mysidopsis bahia was correlated with reduced growth and reproductive suppression during a life cycle exposure to cadmium (Carr et al, 1984). The direction of change of 0 : N ratios for Mytilus edulis during stress depends on the season.…”

Section: Discussionmentioning

confidence: 99%

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Bioenergetic responses of Gammarus salinus and Mytilus edulis to oil and oil dispersants in a model ecosystem

Carr¹,

Lindén²

1984

Mar. Ecol. Prog. Ser.

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As part of a multifaceted study to assess the impact of oil and oil dispersants on a model littoral ecosystem in the Baltic Sea, bioenergetic (0 : N ratio) measurements were made for 2 of the predominant species, the mussel Mytilus edulis and the amphipod Gammarus salinus. In addition, ammonia excretion and respiration rate measurements for G. salinus and byssal thread production rates and spawning frequency observations for M. edulis were made. Four days after the start of the exposure, significant effects on byssal thread production rates and spawning frequency were observed for the oil/dispersant treatment. After 12 d the oilldispersant group apparently had recovered whereas the oil-only group was exhibiting abnormal spawning behavlor No effects on ammonia excretion rates, respiration rates or 0 : N rates were observed after 1 d for G. salinus. After 10 d, however, h~g h l y significant differences were recorded between experimental groups and controls for all 3 parameters. While both oil and oil/dispersant treatments produced subtle physiological alterations in the animals investigated, the use of a chemical dispersant apparently resulted in a more rapid recovery of the species investigated than would have occurred if the oil had not been chemically dispersed.

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Section: Discussionmentioning

confidence: 80%

Section: Discussionmentioning

confidence: 99%

Bioenergetic responses of Gammarus salinus and Mytilus edulis to oil and oil dispersants in a model ecosystem

Carr¹,

Lindén²

1984

Mar. Ecol. Prog. Ser.

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Evaluation of the archiannelid Dinophilus gyrociliatus for use in short‐term life‐cycle toxicity tests

Carr

Curran

Mazurkiewicz

1986

Enviro Toxic and Chemistry

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The use of the archiannelid Dinophilus gyrociliatus O. Schmidt in short‐term (7 to 10 d) life‐cycle tests with reference toxicants and industrial effluents was evaluated. Culture techniques and test protocols were developed and evaluated. The life history of this archiannelid was also studied and is described. Because this species has a very short life cycle (10 d from juvenile to juvenile at 20°C and 30%+ salinity), reproductive information can be obtained during a short‐term test. The results of tests with industrial effluents and reference toxicants indicate that this species is suitable for toxicity testing and appears to be quite sensitive to the industrial effluents tested in this study. The animals are easily cultured and the testing procedure requires very little time for setup and maintenance (1 to 2 h/d). It has been determined that reproductive information can be obtained during a 7‐d test that starts with newly emerged juveniles.

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Changes in cellular energy budget as a measure of whole effluent toxicity in zebrafish (Danio rerio)

Smolders

Boeck

Blust

2003

Enviro Toxic and Chemistry

113

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Organisms exposed to suboptimal conditions face an a priori cost of combating stress in terms of metabolic resources. The energy available for maintenance, growth, and reproduction, based on the biochemical analysis of the energy budget rather than on the direct measurement of those endpoints, may therefore provide a sensitive measure of stress in an organism. The aim of this study was to validate changes in energy budget as an ecologically relevant sublethal parameter by comparing these responses with physiological, growth, and reproductive endpoints. A toxicity test with zebrafish (Danio rerio) was conducted where fish were exposed to a control and 50, 75, and 100% effluent for 28 d under flow-through conditions. Effects of effluent exposure were measured as changes in glycogen, lipid, and protein budgets. Furthermore, the observed effects were linked to different processes like growth, condition, respiration, and reproduction within the same populations. Our results indicate that changes in lipid budgets in exposed fish were the most sensitive endpoint. Excellent relations were found between cellular energy budgets, relative condition factor, and respiration (r2 = 0.795, p < 0.001; and r2 = 0.735, p < 0.001, respectively), but relations were poorer for reproductive output (r2 = 0.410, p < 0.034). As a whole, especially changes in lipid energy budgets provide a sensitive and fast indicator of altered condition in zebrafish under the given exposure regime and allow linking cellular effects to other endpoints within the same exposed populations.

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Bioenergetic alterations correlated with growth, fecundity and body burden of cadmium for mysids (Mysidopsis bahia)

Cited by 19 publications

References 20 publications

Bioenergetic responses of Gammarus salinus and Mytilus edulis to oil and oil dispersants in a model ecosystem

Bioenergetic responses of Gammarus salinus and Mytilus edulis to oil and oil dispersants in a model ecosystem

Evaluation of the archiannelid Dinophilus gyrociliatus for use in short‐term life‐cycle toxicity tests

Changes in cellular energy budget as a measure of whole effluent toxicity in zebrafish (Danio rerio)

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