Abstract
During the austral midsummers of 1989/1990 and 1990/1991, seven grazing experiments were undertaken near South Georgia. The copepods spanned 3 orders of magnitude in body mass, from young copepodids of small pseudocalanids to adult females of Rhincalanus gigas. Incubations were in natural sea-water and feeding rates were determined by microscope counts of food items (size range 7–1200 μm). Daily rations of the smallest copepods were up to 120% body carbon per day. These high rations contrast with values of less than 10% for large copepods (older copepodids of Calanoides acutus and R. gigas). All sizes of copepods could ingest the full size spectrum of measured particles. However, maximum filtration rates of small copepods were on cells <100 μm whereas the large grazers cleared the largest cells (usually long diatoms) at maximum rates. Motile, non-diatom taxa (mainly heterotrophic, aloricate dinoflagellates and ciliates) did not appear to have been eaten in preference to diatoms of similar size, but their abundance and high calorific value meant that they comprised a median of 43% of carbon intake across the experiments. These motile, mainly <50 μm cells were of a suitable size for ingestion by small copepods and consequently featured more prominently in their diets. The ability of small copepods to feed heavily on cells <50 μm, before, during or after blooms, may be important in their life cycles, leading to reduced competition with their larger relatives.
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References
Atkinson A, Peck JM (1988) A summer-winter comparison of zooplankton in the oceanic area around South Georgia. Polar Biol 8:463–473
Atkinson A, Ward P, Williams R, Poulet SA (1992) Feeding rates and diel vertical migration of copepods near South Georgia: a comparison of shelf and oceanic sites. Mar Biol 114:49–56
Berggreen U, Hansen B, Kiorboe T (1988) Food size spectra, ingestion and growth of the copepod Acartia tonsa during development: implications for the determination of copepod production. Mar Biol 99:341–352
Boyd CM (1976) Selection of particle sizes by filter feeding marine copepods: a plea for reason. Limnol Oceanogr 21:175–179
Dagg MJ, Wyman KD (1983) Natural ingestion rates of the copepods Neocalanus plumchrus and Neocalanus cristatus calculated from gut contents. Mar Ecol Prog Ser 13:37–46
Donaghay PL (1980). Grazing interactions in the marine environment. Am Soc Limnol Oceanogr Spec Symp 3:234–240
Drits AV, Pasternak AF, Kosobokova KN (1993) Feeding, metabolism and body composition of the Antarctic copepod Calanus propinquus Brady with special reference to its life cycle. Polar Biol 13:13–21
Eppley RW, Reid FMH, Strickland JDH (1970) Estimates of phytoplankton crop size, growth rate, and primary production. In: Strickland JDH (ed) The ecology of the phytoplankton off La Jolla, California, in the period April through September, 1967. Part III. Bull Scripps Inst Oceanogr 17:33–42
Frost BW (1972) Effects of size and concentration of food particles on the feeding behaviour of the marine planktonic copepod Calanus pacificus. Limnol Oceanogr 17:805–815
Garrison DL (1991) An overview of the abundance and role of protozooplankton in Antarctic waters. J Mar Syst 2:317–331
Gifford DJ, Dagg MJ (1988) Feeding of the estuarine copepod Acartia tonsa Dana: carnivory vs herbivory in natural microplankton assemblages. Bull Mar Sci 43:458–468
Gifford DJ, Dagg MJ (1991) The microplankton-mesoplankton link: consumption of planktonic protozoa by the calanoid copepods Acartia tonsa Dana and Neocalanus plumchrus Murukawa. Marine Microbial Food Webs 5:161–177
Graneli E, Graneli W, Rabbani MM, Daugbjerg N, Fransz G, Cuzin-Roudy J, Alder VA (1993) The influence of copepod and krill grazing on the species composition of phytoplankton communities from the Scotia-Weddell sea. Polar Biol 13:201–213
Hopkins TL, Torres JJ (1989) Midwater food web in the vicinity of a marginal ice zone in the western Weddell Sea. Deep-Sea Res 36:543–560
Hopkins TL, Lancraft TM, Torres JJ, Donnelly J (1993) Community structure and trophic ecology in the Scotia Sea marginal ice zone in winter (1988) Deep-Sea Res 40:81–105
Huntley ME, Escritor F (1991) Dynamics of Calanoides acutus (Copepoda: Calanoida) in Antarctic coastal waters. Deep-Sea Res 36:1145–1167
Huntley ME, Escritor F (1992) Ecology of Metridia gerlachei Giesbrecht in the western Bransfield Strait, Antarctica. Deep-Sea Res 39:1027–1055
Kleppel GS (1993) On the diets of calanoid copepods. Mar Ecol Prog Ser 99:183–195
Kleppel GS, Frazel D, Pieper RE, Holliday DV (1988) Natural diets of Zooplankton off southern California. Mar Ecol Prog Ser 49:231–241
Morales CE, Bedo A, Harris RP, Tranter PRG (1991) Grazing of copepod asemblages in the north-east Atlantic: the importance of the small size fraction. J Plankton Res 13:455–472
Nival P, Nival S (1976) Particle retention efficiencies of a herbivorous copepod, Acartia clausii (adult and copepodite stages): effects on grazing. Limnol Oceanogr 21:24–39
Øresland V, Ward P (1993) Summer and winter diet of a carnivorous copepod species at South Georgia. Mar Ecol Prog Ser 98:73–78
Paffenhöfer GA (1971) Grazing and ingestion rates of nauplii, copepodids and adults of the marine copepod Calanus helgolandicus. Mar Biol 11:286–298
Paffenhöfer GA (1984) Food ingestion by the marine planktonic copepod Paracalanus in relation to abundance and size distribution of food. Mar Biol 80:323–333
Perissinotto R (1992) Mesozooplankton size selectivity and grazing impact on the phytoplankton community of the Prince Edward Island Archipeligo (Southern Ocean). Mar Ecol Prog Ser 79:243–258
Price HJ (1988) Feeding mechanisms in marine and freshwater Zooplankton. Bull Mar Sci 43:327–343
Priddle J, Leakey RJG, Symon CJ, Whitehouse MJ, Robins D, Cripps G, Murphey E, Owens NJP. Dynamics of Antarctic microplankton nutrient cycling in relation to environmental conditions. Mar Ecol Progr Ser (in press)
Roman MR, Rublee PA (1980) Containment effects in copepod grazing experiments: a plea to end the black box approach. Limnol Oceanogr 25:982–990
Schnack SB (1985) Feeding by Euphausia superba and copepod species in response to varying concentrations of phytoplankton. In: Siegfried WR, Condy PR, Laws RM (eds) Antarctic nutrient cycles and food webs. Springer, Berlin Heidelberg New York, pp 311–323
Schnack SB, Smetacek V, von Bodungen B, Stegmann P (1985) Utilization of phytoplankton by copepods in Antarctic waters during spring. In: Gray JS, Christiansen ME (eds) Marine biology of polar regions and effects of stress on marine organisms. Wiley, New York pp. 65–81
Smetacek V, Scharek R, Nothig EM (1990) Seasonal and regional development in the pelagial and its relationship to the life history of krill. In: Kerry KR, Hempel G (eds). Antarctic ecosystems. Ecological change and conservation. Springer, Berlin Heidelberg New York pp 103–114
Stoecker DK, Capuzzo JM (1990) Predation on protozoa: its importance to Zooplankton. J Plankton Res 12:891–908
Stoecker DK, Egloff DA (1987) Predation by Acartia tonsa Dana on planktonic ciliates and rotifers. J Exp Mar Biol Ecol 110:53–68
Turner JT (1991) Zooplankton feeding ecology: do co-occurring copepods compete for the same food? Rev Aquat Sci 5:101–195
Turner JT, Graneli E (1992) Zooplankton feeding ecology: grazing during enclosure studies of phytoplankton blooms from the west coast of Sweden. J Exp Mar Biol Ecol 157:19–31
Turner JT, Tester PA (1989) Zooplankton feeding ecology: nonselective grazing by the copepods Acartia tonsa Dana, Centropages velificatus De Oliveira, and Eucalanus pileatus Giesbrecht in the plume of the Mississippi River. J Exp Mar Biol Ecol 126:21–43
Vanderploeg HA, Paffenhöfer GA, Liebig JR (1988) Diaptomous vs net phytoplankton: effects of algal size and morphology on selectivity of a behaviourally flexible, omnivorous copepod. Bull Mar Sci 43:377–394
Voronina NM, Sukhanova IN (1977) Composition of food of massive species of herbivorous Antarctic copepods. Oceanology 16:614–616
Ward P (1989) The distribution of Zooplankton in an Antarctic fjord at South Georgia during summer and winter. Antarct Sci 1:141–150
Weber LH, El-Sayed SZ (1987) Contributions of the net, nano-and picoplankton standing crop and primary productivity in the Southern Ocean J Plankton Res 9:973–994
White JR, Roman MR (1992) Egg production by the calanoid copepod Acartia tonsa in the mesohaline Chesapeake Bay: the importance of food resources and temperature. Mar Ecol Prog Ser 86:239–249
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Atkinson, A. Diets and feeding selectivity among the epipelagic copepod community near South Georgia in summer. Polar Biol 14, 551–560 (1994). https://doi.org/10.1007/BF00238225
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DOI: https://doi.org/10.1007/BF00238225