Abstract
Respiration and nitrogen-excretion studies were carried out on several species of zooplankton (Meganyctiphanes norvegica, Phronima sedentaria, Acartia clausi and Sagitta setosa) under starvation. Although all the species were mainly ammonotelic, apparently a significant amount of organic nitrogen was excreted; the validity of the measurements and their significance are discussed. The effect of duration of starvation showed for M. norvegica and A. clausi two different patterns of behaviour, which were chiefly a function of the rate of biomass turnover of the species studied. The rates of metabolism, chemical composition, and reaction to starvation varied with season in M. norvegica. The physiological balance of the experimental animals was examined by calculating the protein carbon equivalent to respiratory and excretory catabolism, and by use of atomic O:N ratios. Starved individuals catabolized more protein carbon than can be accounted for by the amount of respiratory oxygen utilized. A hypothesis, which suggests that there are three levels of resistance to starvation, is proposed to explain this paradox, and its metabolic basis is discussed.
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Communicated by T. R. Parsons, Vancouver
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Mayzaud, P. Respiration and nitrogen excretion of zooplankton. II. Studies of the metabolic characteristics of starved animals. Marine Biology 21, 19–28 (1973). https://doi.org/10.1007/BF00351188
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DOI: https://doi.org/10.1007/BF00351188