Trophic dynamics in turbid and clearwater lakes with special emphasis on the role of zooplankton for water clarity

[1]  Stephen R. Carpenter,et al.  Complex Interactions in Lake Communities , 2011, Springer New York.

[2]  E. Jeppesen,et al.  Internal phosphorus loading in shallow Danish lakes , 1999, Hydrobiologia.

[3]  M. Scheffer,et al.  Biomanipulation in shallow lakes in The Netherlands: an evaluation of 18 case studies , 1999, Hydrobiologia.

[4]  R. Bachmann A guide to the restoration of nutrient‐enriched shallow lakes , 1999 .

[5]  Erik Jeppesen,et al.  Biomanipulation as an Application of Food-Chain Theory: Constraints, Synthesis, and Recommendations for Temperate Lakes , 1998, Ecosystems.

[6]  M. Scheffer Ecology of Shallow Lakes , 1997, Population and Community Biology Series.

[7]  E. Jeppesen,et al.  The importance of macrophyte bed size for cladoceran composition and horizontal migration in a shallow lake , 1996 .

[8]  G. Phillips,et al.  Progressive restoration of a shallow lake : a 12-year experiment in isolation, sediment removal and biomanipulation , 1996 .

[9]  I. Jasser The influence of macrophytes on a phytoplankton community in experimental conditions , 1995, Hydrobiologia.

[10]  M. Meijer,et al.  Development of fish communities in lakes after biomanipulation , 1995, Netherland Journal of Aquatic Ecology.

[11]  H. Buiteveld,et al.  A model for calculation of diffuse light attenuation (PAR) and Secchi depth , 1995, Netherland Journal of Aquatic Ecology.

[12]  E. Jeppesen,et al.  Impact of submerged macrophytes on fish-zooplankton-phytoplankton interactions : large-scale enclosure experiments in a shallow eutrophic lake , 1995 .

[13]  Steward T. A. Pickett,et al.  Forest Reorganization: A Case Study in an Old‐Growth Forest Catastrophic Blowdown , 1995 .

[14]  M. Scheffer,et al.  Long-term responses to fish-stock reduction in small shallow lakes: interpretation of five-year results of four biomanipulation cases in The Netherlands and Denmark , 1994, Hydrobiologia.

[15]  B. Moss,et al.  Trophic interactions in a shallow lake following a reduction in nutrient loading: a long-term study , 1994, Hydrobiologia.

[16]  M. Hammershøj,et al.  Does the impact of nutrients on the biological structure and function of brackish and freshwater lakes differ? , 1994, Hydrobiologia.

[17]  E. Jeppesen,et al.  Colonization and succession of submerged macrophytes in shallow Lake Væng during the first five years following fish manipulation , 1994, Hydrobiologia.

[18]  M. Scheffer,et al.  Alternative equilibria in shallow lakes. , 1993, Trends in ecology & evolution.

[19]  K. Kirk INORGANIC PARTICLES ALTER COMPETITION IN GRAZING PLANKTON: THE ROLE OF SELECTIVE FEEDING' , 1991 .

[20]  L. Persson Behavioral response to predators reverses the outcome of competition between prey species , 1991, Behavioral Ecology and Sociobiology.

[21]  C. D. Dieter The Importance of Emergent Vegetation in Reducing Sediment Resuspension in Wetlands , 1990 .

[22]  J. Magnuson,et al.  Seasonal regulation of Daphnia populations by planktivorous fish: Implications for the spring clear‐water phase , 1990 .

[23]  J. J. Gilbert,et al.  Suspended Clay and the Population Dynamics of Planktonic Rotifers and Cladocerans , 1990 .

[24]  E. Jeppesen,et al.  Phytoplankton biomass reduction after planktivorous fish reduction in a shallow, eutrophic lake: a combined effect of reduced internal P-loading and increased zooplankton grazing , 1990, Hydrobiologia.

[25]  B. Moss Engineering and biological approaches to the restoration from eutrophication of shallow lakes in which aquatic plant communities are important components , 1990, Hydrobiologia.

[26]  Marten Scheffer,et al.  Multiplicity of stable states in freshwater systems , 1990, Hydrobiologia.

[27]  E. Jeppesen,et al.  Fish manipulation as a lake restoration tool in shallow, eutrophic temperate lakes 1: cross-analysis of three Danish case-studies , 1990, Hydrobiologia.

[28]  L. Hansson The influence of a periphytic biolayer on phosphorus exchange between substrate and water , 1989, Archiv für Hydrobiologie.

[29]  S. Diehl Foraging efficiency of three freshwater fishes: effects of structural complexity and light , 1988 .

[30]  R. Wetzel,et al.  Phosphorus flux from lake sediments: Effect of epipelic algal oxygen production , 1988 .

[31]  I. Winfield,et al.  The influence of simulated aquatic macrophytes on the zooplankton consumption rate of juvenile roach, Rutilus rutilus, rudd, Scardinius erythrophthalmus, and perch, Perca fluviatilis , 1986 .

[32]  P. Christensen,et al.  Temporal Variation of Denitrification Activity in Plant-Covered, Littoral Sediment from Lake Hampen, Denmark , 1986, Applied and environmental microbiology.

[33]  B. Moss,et al.  Prevention of growth of potentially dense phytoplankton populations by zooplankton grazing, in the presence of zooplanktivorous fish, in a shallow wetland ecosystem , 1984 .

[34]  D. Canfield,et al.  Prediction of Chlorophyll a Concentrations in Florida Lakes: Importance of Aquatic Macrophytes , 1984 .

[35]  G. Houen,et al.  Allelopathic effects on phytoplankton by substances isolated from aquatic macrophytes (Charales) , 1982 .

[36]  E. Rott,et al.  Some results from phytoplankton counting intercalibrations , 1981, Schweizerische Zeitschrift für Hydrologie.

[37]  S. Dodson,et al.  Predation, Body Size, and Composition of Plankton. , 1965, Science.

[38]  G. Lenhard Dehydrogenase activity as criterion for the determination of toxic effects on biological purification systems , 1965, Hydrobiologia.

[39]  E. Jeppesen,et al.  Resuspension in a shallow eutrophic lake , 2004, Hydrobiologia.

[40]  E. Jeppesen,et al.  Top-down control in freshwater lakes: the role of nutrient state, submerged macrophytes and water depth , 2004, Hydrobiologia.

[41]  M. Scheffer,et al.  Clear water associated with a dense Chara vegetation in the shallow and turbid Lake Veluwemeer, the Netherlands. , 1998 .

[42]  Martin Søndergaard,et al.  Impact of submerged macrophytes on phytoplankton in shallow freshwater lakes , 1998 .

[43]  J. Barko,et al.  Effects of Submerged Aquatic Macrophytes on Nutrient Dynamics, Sedimentation, and Resuspension , 1998 .

[44]  Erik Jeppesen,et al.  The Structuring Role of Submerged Macrophytes in Lakes , 1998, Ecological Studies.

[45]  M. Perrow,et al.  Submerged macrophytes as refuges for grazing Cladocera against fish predation: observations on seasonal changes in relation to macrophyte cover and predation pressure , 1997 .

[46]  M. Tasker,et al.  Aquatic predators and their prey , 1996 .

[47]  Lennart Persson,et al.  Prey Refuges Affecting Interactions Between Piscivorous Perch and Juvenile Perch and Roach , 1995 .

[48]  P. Boers,et al.  Influence of benthic diatoms on the nutrient release from sediments of shallow lakes recovering from eutrophication. , 1995 .

[49]  W. Granéli,et al.  Influence of Macrophytes on Nitrate Removal in Wetlands , 1994 .

[50]  Lennart Persson,et al.  Predator Regulation and Primary Production Along the Productivity Gradient of Temperate Lake Ecosystems , 1988 .

[51]  Stephen R. Carpenter,et al.  Effects of submersed macrophytes on ecosystem processes , 1986 .

[52]  Colin S. Reynolds,et al.  The ecology of freshwater phytoplankton , 1984 .

[53]  L. Edler,et al.  Recommendations on methods for marine biological studies in the Baltic Sea. Phytoplankton and chlorophyll , 1979 .

[54]  R. Vollenweider,et al.  Advances in defining critical loading levels for phosphorus in lake eutrophication. , 1976 .

[55]  H. Utermöhl Zur Vervollkommnung der quantitativen Phytoplankton-Methodik , 1958 .

[56]  H. Utermohl Zur Vervollkommung der quantitativen phytoplankton-methodik Mitt Int , 1958 .