Metabolism and chemical composition of small teleost fishes from tropical inshore waters

Ikeda Tsutomu; McKinnon A. D.; Doherty P. J.

Title	en Metabolism and chemical composition of small teleost fishes from tropical inshore waters
Creator	en Ikeda, Tsutomu NRID 1000080281799 en McKinnon, A. D. en Doherty, P. J.
Accessrights	open access
Subject	Other en Teleost fish Other en Oxygen consumption Other en Ammonia excretion Other en O:N ratio Other en Chemical composition Other en C:N ratio Other en Daily metabolic loss NDC 660
Description	Abstract en Rates of oxygen consumption (R) and ammonia excretion (E) of 29 species of small teleost fishes, which weighed between 1 and 400 mg dry mass (DM), from inshore waters of the Great Barrier Reef were determined at in situ temperatures (25 to 30°C). Regression analyses revealed that R (6.7 to 1296 µl O2 ind.–1 h–1) and E (0.28 to 64.2 µg NH4-N ind.–1 h–1) were correlated with body mass, but the ratio of R to E ( oxygen to nitrogen ratio; 17 to 104 by atoms), was not. Water content of fish bodies ranged from 66.0 to 81.4% of wet mass (WM), and ash content from 11.9 to 28.6% of DM. Total carbon (C) and total nitrogen (N) composition varied from 36.2 to 44.4% and from 8.3 to 12.8% of DM, respectively, resulting in C:N ratios of 3.1 to 4.7. Fractions of inorganic C and N were small (0.04 to 0.33% and 0.01 to 0.15% of DM, respectively). Combining R and E data with those of body C and N composition, daily metabolic losses were estimated to be 4.3 to 18.6% for body C and 0.8 to 9.1% for body N. The present R–body mass relationships were compared with the 3 published predictive models for fishes to explore the best fit model. On a body mass basis expressed by N, values for R were consistent with the model for epipelagic zooplankton, but values for E were 30% lower, suggesting somewhat reduced E relative to R in fishes as compared with zooplankton. Three out of the 29 fishes exhibited markedly high metabolic O:N ratios together with high body C:N ratios, which was interpreted as an adaptation to N-limited detritus nutrition.
Publisher	en Inter-Research
Date	Issued2011-08
Language	eng
Resource Type	journal article
Version Type	AM
Identifier	HDL http://hdl.handle.net/2115/59737
Relation	isVersionOf DOI https://doi.org/10.3354/meps09230
Journal	PISSN 0171-8630 EISSN 1616-1599 en Marine Ecology Progress Series Volume Number435 Page Start197 Page End207
File	fulltext HUSCUP-Fish.pdf 221.36 KB (application/pdf) Issued2011-08
Oaidate	2023-07-26