Abstract
We examined the impact of five silver carp biomass levels (0, 8, 16, 20, and 32 g m−3) on plankton communities and water quality of Villerest eutrophic reservoir (France). We realized the experiments using outdoor mesocosms. The presence of silver carp led to changes in zooplankton and phytoplankton assemblages. High fish biomass strongly reduced cladoceran abundance (through predation). Silver carp inefficiently grazed down particles < 20 μm. More importantly, however, the suppression of herbivorous cladocerans resulted in the increase of small size algae which were relieved from grazing and benefit from high nutrient concentrations.
In contrast, in mesocosms without fish, the dominance of cladocerans (mainly Daphnia) controlled small size algae and probably also larger size algae (colonial chlorophytes, cyanobacteria). Thus, the Secchi disc transparency increased markedly. Through cascade effects, the modification of grazers communities led to changes in the utilization patterns of the added nutrients by phytoplankton communities. In high fish biomass treatments, nutrients were more efficiently accumulated into particulate fractions compared with no-fish and low-fish biomass treatments that were characterized by higher dissolved nutrients concentrations. Zooplankton was an essential source of food for silver carp. The productivity of zooplankton sustained a moderate silver carp biomass (up to 16 g m−3). In the presence of the highest fish biomass, the productivity of zooplankton was not large enough and silver carps fed on additional phytoplankton. Although mesocosms with high fish biomass were characterized by a slight cyanobacteria development compared with other fish mesocosms, silver carp was not effective in reducing cyanobacteria dominance.
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References
Aleya L, Desmolles F, Michard M, Bonnet MP and Devaux J (1994) The deterministic factors of the Microcystis aeruginosa blooms over a biyearly survey in the hypereutrophic reservoir of Villerest (Roanne, France). Arch Hydrobiol 4: 489–515
American Public Health Association (APHA) (1992) In: Greenberg A, Clesceri L and Eaton A (eds), Standard Methods for examination of water and wastewater. 18th edition.
Arcifa MS, Northcote TG and Froehlich O (1986) Fish-zooplankton interactions and their effects on water quality of a tropical brazilian reservoir. Hydrobiologia 139: 49–58.
Barthelmes D (1989) Evidence for system dependent interactions of zooplankton-eating fish with phytoplankton. Arch Hydrobiol Beih Ergebn Limnol 33: 579–586
Bays JS and Crisman TL (1983) Zooplankton and trophic state relationships in Florida lakes. Can J Fish Aquat Sci 40: 1813–1819
Benndorf J, Kneschke H, Kossatz K and Penz E (1984) Manipulation of pelagic food web by stocking with predacious fishes. Int Rev Ges Hydrobiol 69: 407–428
Benndorf J (1990) Conditions for effective biomanipulation; conclusions derived from whole experiments in Europe. Hydrobiologia 200/201: 187–203
Bitterlich G and Gnaiger E (1984) Phytoplanktivorous or omnivorous fish? Digestibility of zooplankton by silver carp, Hypophthalmichthys molitrix, val. J Fish Biol 29: 605–612
Briand E and McCauley F (1979) Cybernetic mechanisms in lake plankton systems: how to control undesirable algae. Nature 273: 228–230
Brooks JL and Dodson SI (1965) Predation, body size and composition of plankton. Science 150: 28–35
Burke JS, Bayne DR and Rea H (1986) Impact of silver and bighead carps on plankton communities of channel catfish ponds. Aquaculture 55: 59–68
Carpenter SR, Kitchell JF and Hodgson JR (1985) Cascading trophic interactions and lake productivity. Bioscience 35: 634–639
Christoffersen K, Riemann B, Klysner A and Søndergaard M (1993) Potential role of fish predation and natural populations of zooplanktonin structuring a plankton community in eutrophic lake water. Limnol Oceanogr 38: 561–573
Cremer MC and Smitherman RO (1990) Are blue green algae suitable food for zooplankton? An overview. Hydrobiologia 200/201: 29–41
De Bernardi R and Giussani G (1990) Are blue-green algae a suitable food for zooplankton? A review. Hybiologia 200/201: 29–41
De Bernardi R and Giussani G (1978) The effect of mass fish mortality on zooplankton structure and dynamics in small italian lake (Lago di Annone). Verh Int Ver Limnol 20: 1045–1048
De Bernardi R, Giussani G and Lasso Pedretti E (1982) Selective feeding of zooplankton with special reference to blue-green algae in enclosure experiment. Paper presented at: ‘Plankton Ecology Group Annual meeting’ Trondheim (Norway), pp. 23–28.
Desmolles F (1997) Etude du peuplement piscicole d'une retenue eutrophe (Villerest, Loire). Influence d'un bloom à Cyanobactéries et du marnage sur la répartition spatiotemporelle et les paramètres démographiques des principales espèces de poissons. Thèse Dr. 3e Cycle, Université Clermont II, France, 184 p.
Domaizon I (1999) Impacts de la carpe argentée, Hypophthalmichthys molitrix, sur l'organisation des communautés planctoniques et la qualité de l'eau, expériences en mésocosmes. Thèse Dr. 3e Cycle, Université Clermont II, France, 252 p.
Downing JA and McCauley E (1992) The nitrogen: phosphorus relationships in lakes. Limnol Oceanogr 37: 936–945
Drenner RW and Hambright KD (1987) Experimental study of size-selective phytoplankton grazing by a filter-feeding cichlid and cichlids effects on plankton community structure. Limnol Oceanogr 32: 1138–1144
Drenner RW and McComas SR (1980) The roles of zooplankton escape ability and fish size selectivity in the selective feeding and impact of planktivorous fish. In: Kerfoot WC (ed), Evolution and ecology of zooplankton comunities. University Press of New England, Hanover, NH London: pp. 587–593
Drenner RW, Threlkeld ST and McCraken MD (1986) Experimental analysis of the direct and indirect effects of an omnivorous filter-feeding Clupeid on plankton community structure. Can J Fish Aquat Sci 43: 1935–1945
Giraud JP, Sevrin-Reyssac J and Billart R (1996) La carpe argentée, Hypophthalmichthys molitrix. La pisciculture Française d'eau vive et d'étang saumâtre et marine 126: 15–26
Gliwicz ZM (1990) Why do cladocerans fail to control algal blooms? Hydrobiologia 200/201: 83–97
Gliwicz ZM (1977). Food size selection, and seasonal succession of filter feeding zooplankton in an eutrophic lake. Ekol Pol 25: 179–225
Gophen M (1990) Biomanipulation: retrospective and future development. Hydrobiologia 200/201: 1–12
Hampl A, Jirasek J and Sirotek D, (1983) Growth morphology of the filtering apparatus of silver carp. II. Microscopic anatomy. Aquaculture 31: 153–158
Haney JF and Hall DJ (1973) Sugar coated Daphnia: a preservation technique for Cladocera. Limnol Oceanogr 18: 331–333
Hein M, Pedersen MF and Sand-Jensen K (1995) Size-dependent nitrogen uptake in micro-and macro-algae. 118: 247–253
Holm NP, Ganf GG and Shapiro J (1983). Feeding and assimilation rates of Daphnia pulex fed Aphanizomenon flos-aquae. Limnol Oceanogr 29: 1137–1140
Humphries SE and Widjaja F (1979) A simple method for separating cells of Microcystis aeruginosa for counting. Br Phycol J 14: 313–316
Itawa K (1977) Morphological and physiological studies on the phytoplankton feeders of cyprinid. II. Developmental changes of assimilation efficiency in terms of carbon, estimated by using 14C-labeled green algae in Carassius auratus cuvieri, Hypophthalmichthys molitrix and C. auratus grandoculis. Jpn J Limnol 38: 19–32.
Jürgens K (1994) Impact of Daphnia on planktonic microbial food webs. A review. Mar. Microbiol. Food Webs 8: 295–324
Kajak Z, Spodniewska I and Wisniewski RJ (1977) Studies on food selectivity of silver carp, Hypophthalmichthys molitrix. Ekol Pol 25: 227–239
Lampert W (1977) Studies on the carbon balance of Daphnia pulex De Geer as related to environmental conditions. II. The dependence of carbon assimilation on animal size, temperature, food concentration and diet species. Arch Hydrobiol 66: 285–298
Lampert W (1981) Inhibitory and toxic effects of blue-green algae on Daphnia. Int Rev Ges Hydrobiol 66: 285–298
Lathrop RC, Carpenter SR and Rudstam LG (1996) Water clarity in lake Mendota since 1900: responses to differing levels of nutrients and herbivory. Can J Fish Aquat Sci 53: 2250–2261
Laws EA and Weisburd RSJ (1990) Use of silver carp to control algal biomass in aquaculture ponds. Prog Fish Cult 52: 1–8
Lazzaro X (1992) Planktivores and plankton dynamics: effects of fish biomass and planktivore type. Can J Fish Aquat Sci 49: 1466–1473
Leventer H and Teltsch B (1990) The contribution of silver carp (H. molitrix) to the biological control of Netofa reservoirs. Hydrobiologia 191: 47–55
Lieberman MD (1996) Use of silver carp (Hypophthalmivhthys molitrix) and bighead carp (Aristichthys nobilis) for algae control in a small pond: changes in water quality. J Fresh Ecol 11: 391–397
Lorenzen CJ (1967) Determination of chlorophyll and pheopigments: spectrophotometric equations. Limnol Oceanogr 12, 343–346
McQueen DJ and Post JR (1988) Cascading trophic interactions: uncoupling at zooplankton-phytoplankton link. Hydrobiologia 159: 277–296
Mazumder A, Lean DJ and Lean DRS (1994) Consumer-dependent responses of lake ecosystems to nutrient loading. J Plankton Res 16(11): 1567–1580
Mazumder A, McQueen DJ, Taylor WD and Lean DRS (1988) Effects of fertilisation and planktivirous fish (yellow perch) predation on size distribution of particulate phosphorus and assimilated phosphate: large enclosure experiments. Limnol Oceanogr 33: 421–430
Milstein A, Hepher B and Teltch B (1988) The effect of fish species combination in fish ponds on plankton composition. Aquat Fish Manag 19: 127–137
Miura T (1990) The effects of planktivorous fishes on the plankton community in a eutrophic lake. Hydrobiologia 200/201: 567–579
Nilssen JP (1984) Tropical lakes-functional ecology and future development: the need for a process-oriented future approach. Hydrobiologia 113: 231–242
Opuszynski K (1981). Comparison of the usefulness of the silver carp and the bighead carp as additional fish in carp ponds. Aquaculture 25: 223–233
Opuszynski K (1979) Silver carp, Hypophthalmichthys molitrix in carp ponds. III. Influence on ecosystem. Ekol Pol 27: 117–133
Prepas E (1978) Sugar frosted Daphnia: an improved fixation technique for Cladocera. Limnol Oceanogr 23: 557–559
Sarnelle O (1992) Nutrient enrichment and grazer effects on phytoplankton in lakes. Ecology 73: 551–560
Schindler DW (1977) Evolution of phosphorus limitation in lakes. Science 179: 260–262
Schoenberg SA and Carlson RE (1984) Direct and indirect effects of zooplankton grazing on phytoplankton in a eutrophic lake. Oikos 42: 291–302
Sherr EB, Sherr BF, Berman T and McCarthy JJ (1982) Differences in nitrate and ammonia uptake among components of a phytoplankton population. J Plankton Res 4: 961–964
Shapiro J and Wright DI (1984) Lake restoration by biomanipulation: round lake, Minnesota, the first two years. Freshwater Biol 14: 371–383
Smith DW (1989) The feeding selectivity of silver carp, Hypophthalmichthys molitrix., J Fish Biol 34: 819–828
Smith DW (1985) Biological control of excessive phytoplankton growth and the enhancement of aquacultural production. Can J Fish Aquat Sci 42: 1940–1945
Spataru P (1977) Gut contents of silver car, Hypophthalmichthys molitrix (Val.) and some trophic relations to other fish species in a polyculture system. Aquaculture 11: 137–146
Spataru P and Gophen M (1985) Feeding behaviour of silver carp Hypophthalmichthys molitrix Val. And its impact on the food web in lake Kinneret, Israel. Hydrobiologia 120: 53–61
Starling F (1993) Control of eutrophication by silver carp (Hypophthalmichthys molitrix) in the tropical Paranóa reservoir (Brasilia, Brazil): a mesocosm experiment. Hydrobiologia 257: 143–152.
Starling F and Rocha AJA (1990) Experimental study of the impacts of planktivorous fishes on plankton community and eutrophication of a tropical Brazilian reservoir. Hydrobiologia 200/201: 581–591
Starling F, Beveridge M, Lazzaro X and Baird D (1998) Silver carp biomass effects on the plankton communituy in Paranóa reservoir (Brasilia,Brazil) and assessment of its potential for improving water quality in lacustrine environments. Revus Ges Hydrobiol (in press).
Thomson JM, Ferguson AJD and Reynolds CS (1982) Natural filtration rates of zooplankton in a closed system: the derivation of a community grazing index. J Plankton Res 4: 545–560
Utermöhl H. (1958). Zur Vervolkommung der quantitative phytoplankton. Methodik Mitt Internat Verein Limnol 9: 1–38
Van Donk E, Gulati RD and Grimm MP (1990) Restoration by biomanipulation in a small hypertrophic lake: first-year results. Hydrobiologia 191: 285–295
Vanni MJ and Layne CD (1997) Nutrient recycling and herbivory as mechanisms in the ‘top down’ effect of fish on algae in lakes. Ecology 78: 21–40
Vöros L, Oldal I, Presing M and Balogh KV (1997) Size-selective filtration and taxon-specific digestion of plankton algae by silver carp (Hypophthalmichthys molitrix). Hydroiologia 342/343: 223–228
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Domaizon, I., Devaux, J. Experimental study of the impacts of silver carp on plankton communities of eutrophic Villerest reservoir (France). Aquatic Ecology 33, 193–204 (1999). https://doi.org/10.1023/A:1009984713183
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DOI: https://doi.org/10.1023/A:1009984713183