High interstage variability in body length and mass, reproductive state, and metabolic activity is characteristic of copepod populations from the Barents Sea and coastal waters in Sweden and Norway. The dry weight of a given copepodite stage, sampled at a given time from a homogeneous water mass, may vary by a factor of 4-5 between extreme individuals, protein and particularly lipid content being even more variable. Similarly, high variability in gut fullness and grazing rate within defined copepodite stages typically occurs at all times of the year, both when measured as in situ rate or experimentally determined rate, using homogeneous food suspensions. In accordance with this, maturation state (measured as length of gonads) and spawning (measured as rate of egg production over 24 h) are highly variable factors at the individual level. Since all these factors also influence the metabolic rate of the animals the respiratory rate (measured as ETS activity) of comparable individuals may vary by a factor of 5 or more. The results indicate that high individual variability in size and activity parameters is universal. This can not be explained by existing models of feeding behaviour, growth and development, and calls for new models, in which the nutritional history of the individual may play an important role.
The cydippid ctenophore Mertensia ovum occurs throughout the Norwegian arctic regions at least from the ice edge to the Arctic Circle. Using new data from the Barents and Greenland Seas, a simple model is constructed in which the upper boundary conditions for the trophic impact of Mertensia on populations of Calanus in this area are explored. Based on abundance data from MOCNES S and vertical net samples, experimental data on feeding and a range of typical values for the abundance of the principal copepod species, the range of probable predation pressure on copepods is calculated. Using typical abundances of the copepods and ctenophores in the Barents Sea, M. ovum appears to be capable of consuming a maximum of ca 1-5% d-' of the copepods in the water where it occurs. Vertical and horizontal spatial coupling probably plays a significant role in determining the extent of predation for this predator. Predation by other ctenophores may be a significant factor in its own biology.
Compiled data from published and unpublished sources on copepod grazing of the large-sized copepods in the Barents Sea give wide ranges in grazing rates. Approximate average values indicate daily rations of 7-18% for copepodite stages V and VI and considerably higher values for the earliest copepodite stages. It is demonstrated that individual variability in gut fullness of copepods from a given locality is typically very high and not closely related to variable food abundance or depth of occurrence. There is no die1 feeding rhythm during the summer. and even when relating copepod grazing to a number of biotic and abiotic factors through stepwise linear regression analysis, much of the variability remains unexplained. It is suggested that feeding behaviour, food quality and feeding history of the copepods all play important roles as factors which regulate copepod grazing. Model simulations on the phytoplankton succession, using literature data on laboratory-determined growth characteristics for solitary cells and colonies of the prymnesiophyte Phaeocystis pouchetii and large diatoms, indicate that the extent of the mixed layer and selective grazing by zooplankton are important factors that may explain the occurrence of dense blooms of P. pouchetii colonies, frequently observed during the spring.
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