Metabolic costs incurred by crayfish ( Procambarus acutus) in a trace element-polluted habitat: further evidence of similar responses among diverse taxonomic groups

Recent studies of several vertebrates and an invertebrate have shown elevated standard metabolic rate (SMR) following chronic exposure to a mixture of trace elements in a contaminated habitat. In this study, we examined whether another invertebrate, a crayfish ( Procambarus acutus), also experienced...

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Published in:Comparative biochemistry and physiology. Toxicology & pharmacology 2001-07, Vol.129 (3), p.275-283
Main Authors: Rowe, Christopher L, Hopkins, William A, Zehnder, Caralyn, Congdon, Justin D
Format: Article
Language:English
Subjects:
Animals
Anura - metabolism
Astacoidea - chemistry
Astacoidea - metabolism
Coal ash
Contaminants
Decapoda (Crustacea) - metabolism
Energy budget
Energy Metabolism - drug effects
Environment
Environmental Pollutants - analysis
Environmental Pollutants - pharmacokinetics
Freshwater
Growth
Heavy metals
Metabolic rate
Oxygen Consumption - drug effects
Procambarus acutus
Respiration
Snakes - metabolism
Sublethal stress
Trace elements
Trace Elements - analysis
Trace Elements - pharmacokinetics
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Summary:Recent studies of several vertebrates and an invertebrate have shown elevated standard metabolic rate (SMR) following chronic exposure to a mixture of trace elements in a contaminated habitat. In this study, we examined whether another invertebrate, a crayfish ( Procambarus acutus), also experienced elevated SMR in response to the same contaminants. We compared SMR of individuals inhabiting the contaminated site with SMR of individuals from uncontaminated reference sites. We also examined SMR of individuals collected from the reference areas and exposed in the laboratory for 50 days to sediment and food derived from the contaminated site. Individuals collected from the contaminated site had elevated SMR compared to individuals collected from the unpolluted areas (25.1 vs. 19.2 J g −1 day −1). Individuals exposed to contaminated sediment and food in the laboratory experienced elevations in SMR compared to controls after 27 days of exposure (35.2 vs. 29.4 J g −1 day −1), but after 50 days of exposure, metabolic rate no longer differed between treatments. Growth of contaminant-exposed individuals was lower than growth of reference animals throughout the laboratory study. Elevated SMR associated with contaminant exposure may reflect energy-demanding mechanisms required to combat deleterious effects of contaminants. Our results support the prediction that increases in energy expenditure in the contaminated habitat would negatively influence production processes, such as growth. Results from this study in conjunction with observations from other species suggest that increased SMR is a common response among several taxa to the mixture of contaminants in the study site.
ISSN:1532-0456
1878-1659
DOI:10.1016/S1532-0456(01)00204-6