Picoplankton structure in clear and turbid eutrophic shallow lakes: A seasonal study

[1]  Horacio Zagarese,et al.  Optical characteristics of shallow lakes from the Pampa and Patagonia regions of Argentina , 2010 .

[2]  L. Vörös,et al.  A five-year study of autotrophic winter picoplankton in Lake Balaton, Hungary , 2009, Aquatic Ecology.

[3]  Horacio Zagarese,et al.  Phytoplankton and primary production in clear-vegetated, inorganic-turbid, and algal-turbid shallow lakes from the pampa plain (Argentina) , 2009, Hydrobiologia.

[4]  C. Callieri Picophytoplankton in Freshwater Ecosystems: The Importance of Small-Sized Phototrophs , 2008 .

[5]  G. Zwart,et al.  Submersed macrophytes play a key role in structuring bacterioplankton community composition in the large, shallow, subtropical Taihu Lake, China. , 2007, Environmental microbiology.

[6]  T. McMahon,et al.  Updated world map of the Köppen-Geiger climate classification , 2007 .

[7]  Mátyás Présing,et al.  Seasonal Dynamics of Picocyanobacteria and Picoeukaryotes in a Large Shallow Lake (Lake Balaton, Hungary) , 2006 .

[8]  R. Quirós,et al.  The Effects of Hydrology on Plankton Biomass in Shallow Lakes of the Pampa Plain , 2006, Hydrobiologia.

[9]  O. Viedma,et al.  On the Importance of Water Depth, Macrophytes and Fish in Wetland Picocyanobacteria Regulation , 2005, Hydrobiologia.

[10]  J. Wehr,et al.  Strong Indirect Effects of a Submersed Aquatic Macrophyte, Vallisneria americana, on Bacterioplankton Densities in a Mesotrophic Lake , 2004, Microbial Ecology.

[11]  M. Loureiro,et al.  Effects of Egeria densa Planch. beds on a shallow lake without piscivorous fish , 2003, Hydrobiologia.

[12]  M. Jansson,et al.  Relationships between picophytoplankton and environmental variables in lakes along a gradient of water colour and nutrient content , 2003 .

[13]  M. Scheffer,et al.  Floating plant dominance as a stable state , 2003, Proceedings of the National Academy of Sciences of the United States of America.

[14]  Armando M. Rennella,et al.  Factores que afectan la estructura y el funcionamiento de las lagunas pampeanas , 2002 .

[15]  K. White,et al.  Occurrence of cell-associated mucilage and soluble extracellular polysaccharides in Rostherne Mere and their possible significance , 2002, Hydrobiologia.

[16]  B. Biddanda,et al.  Small Players, Large Role: Microbial Influence on Biogeochemical Processes in Pelagic Aquatic Ecosystems , 2002, Ecosystems.

[17]  M. Claps,et al.  Planktonic and physico–chemical dynamics of a markedly fluctuating backwater pond associated with a lowland river (Salado River, Buenos Aires, Argentina) , 2001 .

[18]  K. Havens,et al.  The restoration of Lake Apopka in relation to alternative stable states: an alternative view to that of Bachmann et al. (1999) , 2001, Hydrobiologia.

[19]  Edmundo E. Drago,et al.  The environmental state of Argentinean lakes: An overview , 1999 .

[20]  John A. Raven,et al.  The twelfth Tansley Lecture. Small is beautiful: the picophytoplankton , 1998 .

[21]  F. Roland,et al.  Effects of bauxite tailing on PAR attenuation in an Amazonian crystalline water lake , 1998, Hydrobiologia.

[22]  Lajos Vörös,et al.  Freshwater picocyanobacteria along a trophic gradient and light quality range , 1998, Hydrobiologia.

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

[24]  R. Sommaruga,et al.  The significance of autotrophic and heterotrophic picoplankton in hypertrophic ecosystems , 1997 .

[25]  Peter Blomqvist,et al.  Nutrient limitation of bacterioplankton, autotrophic and mixotrophic phytoplankton, and heterotrophic nanoflagellates in Lake Örträsket , 1996 .

[26]  Judit Padisák,et al.  Meroplankton dynamics in a saline, turbulent, turbid shallow lake (Neusiedlersee, Austria and Hungary) , 1994, Hydrobiologia.

[27]  C. Reynolds The long, the short and the stalled: on the attributes of phytoplankton selected by physical mixing in lakes and rivers , 1994, Hydrobiologia.

[28]  I. Izaguirre,et al.  Algal assemblages from shallow lakes of the Salado River Basin (Argentina) , 1994, Hydrobiologia.

[29]  I. Izaguirre,et al.  Typology of shallow lakes of the Salado River basin (Argentina), based on phytoplankton communities , 1993, Hydrobiologia.

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

[31]  W. Laycock Stable states and thresholds of range condition on North American rangelands: a viewpoint. , 1991 .

[32]  E. Jeppesen,et al.  Fish manipulation as a lake restoration tool in shallow, eutrophic, temperate lakes 2: threshold levels, long-term stability and conclusions , 1990, Hydrobiologia.

[33]  J. Sutherland Perturbations, Resistance, and Alternative Views of the Existence of Multiple Stable Points in Nature , 1990, The American Naturalist.

[34]  J. Stockner,et al.  Response of Anabaena and Synechococcus to manipulation of nitrogen: phosphorus ratios in a lake fertilization experiment , 1988 .

[35]  David J. Currie,et al.  A comparison of the abilities of freshwater algae and bacteria to acquire and retain phosphorus1 , 1984 .

[36]  Jonathan J. Cole,et al.  INTERACTIONS BETWEEN BACTERIA AND ALGAE IN AQUATIC ECOSYSTEMS , 1982 .

[37]  K. Porter,et al.  The use of DAPI for identifying and counting aquatic microflora1 , 1980 .

[38]  R. May Thresholds and breakpoints in ecosystems with a multiplicity of stable states , 1977, Nature.

[39]  I. Noy-Meir,et al.  Stability of Grazing Systems: An Application of Predator-Prey Graphs , 1975 .

[40]  C. S. Holling Resilience and Stability of Ecological Systems , 1973 .

[41]  M. Cano Fitoperifiton de un lago somero y su relación con los estados de biequilibrio , 2009 .

[42]  S. Nakano,et al.  Seasonal changes in the abundance of autotrophic picoplankton and some environmental factors in hypereutrophic Furuike Pond , 2004, Aquatic Ecology.

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

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

[45]  E. Jeppesen,et al.  Cascading effects on microbial food web structure in a dense macrophyte bed. , 1998 .

[46]  R. J. Stevenson,et al.  Algal ecology: freshwater benthic ecosystems , 1996 .

[47]  G. Robinson,et al.  4 – Pattern in Wetlands* , 1996 .

[48]  T. Weisse Dynamics of Autotrophic Picoplankton in Marine and Freshwater Ecosystems , 1993 .

[49]  E. Peltzer,et al.  Procedures subgroup report , 1993 .

[50]  Paul G. Falkowski,et al.  Primary Productivity and Biogeochemical Cycles in the Sea , 1992 .

[51]  J. Stockner,et al.  Picoplankton in Six New Zealand Lakes: Abundance in Relation to Season and Trophic State , 1991 .

[52]  F. Pick,et al.  The Seasonal Dynamics and Composition of Photosynthetic Picoplankton Communities in Temperate Lakes in Ontario, Canada , 1991 .

[53]  A. E. Greenberg,et al.  Standard methods for the examination of water and wastewater : supplement to the sixteenth edition , 1988 .

[54]  A. V. Dam Cuenca del Rio de la Plata , 1980 .

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