Oxygen consumption of the semi-terrestrial crab <Emphasis Type="Italic">Pachygrapsus marmoratus</Emphasis> in relation to body mass and temperature: an information theory approach |
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Authors: | Stelios Katsanevakis John Xanthopoulos Nikos Protopapas George Verriopoulos |
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Institution: | (1) Department of Zoology-Marine Biology, School of Biology, University of Athens, Panepistimioupolis, 15784 Athens, Greece |
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Abstract: | Pachygrapsus marmoratus is a semi-terrestrial crab and the most common grapsid crab in the intertidal belt of rocky shores throughout the Mediterranean
Sea, Black Sea and northeastern Atlantic. In this study, the combined effects of temperature (T), body mass (M), and sex (S) on the routine oxygen consumption rate (R) in P. marmoratus were quantified. The blotted wet body mass of the specimens ranged between 43 mg and 18.0 g, and five test temperatures were
used between 13.5 and 28.0°C. Six candidate models that reflected different assumptions regarding the dependence of R on S and T were compared. Model selection was based on Kullback–Leibler’s information theory and Akaike’s information criterion (AIC).
The model
had the highest support by the data (E is the activation energy, B = 8.618 × 10−5 eV K−1 is Boltzmann’s constant, T
a is the absolute temperature in Kelvin, and b the allometric scaling exponent); for P. marmoratus it was found that No sex dependence of R was supported by the data. Following a multi-model inference (MMI) approach, the mean (± SE) allometric exponent was 0.750 (± 0.013) having a 95% (bootstrap) confidence interval of 0.726–0.774. Thus, it was established that P. marmoratus follows Kleiber’s 3/4 law, as seems to be generally true for intertidal crabs. The allometric exponent was independent of
temperature as has also been reported for many other marine invertebrates (at normal temperatures). Q
10 values were relatively low, indicating wide thermal tolerance of the species. Model selection based on information theory
is recommended for respiration studies, as an effective method in finding a parsimonious approximating model. MMI by model
averaging, based on Akaike weights, is an effective way to make robust parameter estimations and deal with model selection
uncertainty. |
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