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MEPS
Marine Ecology Progress Series

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MEPS 285:129-135 (2005)  -  doi:10.3354/meps285129

Temperature affects respiration rate of Oithona similis

Claudia Castellani1,2,3,*, Carol Robinson2, Tania Smith2, Richard S. Lampitt1

1Southampton Oceanography Centre, European Way, Southampton SO14 3ZH, UK 2Plymouth Marine Laboratory, Prospect Place, Plymouth PL1 3DH, UK 3Present address: British Oceanographic Data Centre (BODC), Proudman Oceanographic Laboratory, 6 Brownlow Street, Liverpool L3 5DA, UK

ABSTRACT: Oithona spp. is considered the most abundant and ubiquitous copepod genus in the marine environment, often outnumbering calanoid copepods throughout the year. Previous studies have argued that one of the reasons for such success is that the respiration rate of Oithona spp. is insensitive to temperature changes and lower than in calanoids. However, comprehensive data on the thermal biology of this important copepod genus is lacking. In this study, the respiration rate of adult female O. similis from the English Channel, was measured over the temperature range 4 to 25°C. The respiration rate of O. similis changed exponentially with temperature (ln O2-rate = -3.59 + 0.114 T, df = 35, r2 = 0.85, p < 0.001, Q10 = 3.1) similar to that of other poikilotherms. Over the temperature range examined, O. similis basic metabolic cost varied from a minimum of ~1.4% body-C d-1 at 4°C to a maximum of 23% body-C d-1 at 25°C, corresponding to an energy demand of ~3% and 32% body-C d-1 respectively. The respiration rate of O. similis, from the present study, is ~8 times lower than that of a calanoid copepod of equivalent body weight estimated from published empirical metabolism-temperature data. We suggest that these differences in metabolic rates may account for the year-round persistence and higher abundances of Oithona spp. over calanoid copepods, particularly in oceanic and oligotrophic environments where food resources may be limiting for calanoid copepods.


KEY WORDS: Oithona similis · Respiration rate · Temperature · Cyclopoid · Calanoid · Energy demand


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