2012
DOI: 10.2989/1814232x.2012.689620
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Thermal constraints on the respiration and excretion rates of krill, Euphausia hanseni and Nematoscelis megalops, in the northern Benguela upwelling system off Namibia

Abstract: Rates of respiration and ammonia excretion of Euphausia hanseni and Nematoscelis megalops were determined experimentally at four temperatures representative of conditions encountered by these euphausiid species in the northern Benguela upwelling environment. The respiration rate increased from 7.7 μmol O 2 h -1 g ww -1 at 5 °C to 18.1 μmol O 2 h -1 g ww -1 at 20 °C in E. hanseni and from 7.0 μmol O 2 h -1 g ww -1 (5 °C) to 23.4 μmol O 2 h -1 g ww -1 (20 °C) in N. megalops. The impact of temperature on oxygen u… Show more

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Cited by 16 publications
(10 citation statements)
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“…However, an intermediate conversion factor of F ¼ 70 was used for diatoms which dominated between Walvis Bay and Kunene River (N. Wasmund, IOW Warnemünde, personal communication). Temperature-dependent oxygen consumption rates of E. hanseni and N. megalops given by Werner et al (Werner et al, 2012) were used to calculate the oxygen consumption at a depth-specific temperature. It was assumed that during migration, euphausiids had a 2.7 times higher respiration rate than at rest (non-migrating) (Torres and Childress, 1983).…”
Section: E T H O Dmentioning
confidence: 99%
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“…However, an intermediate conversion factor of F ¼ 70 was used for diatoms which dominated between Walvis Bay and Kunene River (N. Wasmund, IOW Warnemünde, personal communication). Temperature-dependent oxygen consumption rates of E. hanseni and N. megalops given by Werner et al (Werner et al, 2012) were used to calculate the oxygen consumption at a depth-specific temperature. It was assumed that during migration, euphausiids had a 2.7 times higher respiration rate than at rest (non-migrating) (Torres and Childress, 1983).…”
Section: E T H O Dmentioning
confidence: 99%
“…We developed a conceptual model to investigate the effect of temperature and food availability on the migration behaviour of E. hanseni and N. megalops, accordingly. Temperature has a strong impact on metabolic rates and thus influences the DVM behaviour of krill species (Lampert, 1989), due to different thermal adaptations of species, different energy expenditures (Werner et al, 2012), e.g. swimming costs, and a variety of other physiological processes, e.g.…”
Section: E T H O Dmentioning
confidence: 99%
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“…After acclimation, the specimens were individually incubated in closed tubular respiration chambers (Perspex; 20 ml) specially designed for measuring routine rates in krill (Huenerlage and Buchholz 2013;Werner et al 2012). The chambers were filled with filtered seawater at the experimental temperature and stored in a water bath in a temperaturecontrolled refrigerator.…”
Section: Respiration Measurementsmentioning
confidence: 99%
“…Specially designed small tube-shaped chambers (volume 20 mL) were used as respiration chambers optimized for krill (cf. Werner et al, 2012). As E. hanseni is a strong diel vertical migrator (Barange, 1990;Werner and Buchholz, 2013) respiration measurements were conducted in a temperature-controlled water bath at three different temperatures (5, 10 and 15°C) reflecting the water temperatures around Walvis Bay (23°S) between 50, 300 and deep water layers and around 700 m respectively.…”
Section: Metabolic Measurementsmentioning
confidence: 99%