Phytoplankton biomass is mainly controlled by hydrology and phosphorus concentrations in tropical hydroelectric reservoirs

[1]  S. Azevedo,et al.  Eutrophication and retention time affecting spatial heterogeneity in a tropical reservoir , 2012 .

[2]  C. Gobler,et al.  The rise of harmful cyanobacteria blooms: The potential roles of eutrophication and climate change , 2012 .

[3]  M. Scheffer,et al.  Warmer climates boost cyanobacterial dominance in shallow lakes , 2012 .

[4]  S. Larsen,et al.  Using chlorophyll a and cyanobacteria in the ecological classification of lakes , 2011 .

[5]  F. Roland,et al.  Carbon emission from hydroelectric reservoirs linked to reservoir age and latitude , 2011 .

[6]  David P. Hamilton,et al.  Nitrogen and Phosphorus Limitation of Phytoplankton Growth in New Zealand Lakes: Implications for Eutrophication Control , 2010, Ecosystems.

[7]  F. Roland,et al.  Variability of carbon dioxide flux from tropical (Cerrado) hydroelectric reservoirs , 2010, Aquatic Sciences.

[8]  F. Unrein,et al.  Phytoplankton response to pH rise in a N-limited floodplain lake: relevance of N2-fixing heterocystous cyanobacteria , 2010, Aquatic Sciences.

[9]  S. Azevedo,et al.  Changes in species composition during annual cyanobacterial dominance in a tropical reservoir: physical factors, nutrients and grazing effects , 2009 .

[10]  M. Scheffer,et al.  Lake and watershed characteristics rather than climate influence nutrient limitation in shallow lakes. , 2009, Ecological applications : a publication of the Ecological Society of America.

[11]  D. Schindler,et al.  Eutrophication science: where do we go from here? , 2009, Trends in ecology & evolution.

[12]  K. Havens,et al.  Zooplankton–phytoplankton relationships in shallow subtropical versus temperate lakes Apopka (Florida, USA) and Trasimeno (Umbria, Italy) , 2009, Hydrobiologia.

[13]  L. M. Rangel,et al.  Driving forces of the diel distribution of phytoplankton functional groups in a shallow tropical lake (Lake Monte Alegre, Southeast Brazil). , 2009, Brazilian journal of biology = Revista brasleira de biologia.

[14]  M. Casco,et al.  Plankton relationships under small water level fluctuations in a subtropical reservoir , 2009, Aquatic Ecology.

[15]  S. Azevedo,et al.  The effects of water retention time and watershed features on the limnology of two tropical reservoirs in Brazil , 2008 .

[16]  J. Bernhardt,et al.  Modelling the effects on phytoplankton communities of changing mixed depth and background extinction coefficient on three contrasting lakes in the English Lake District , 2008 .

[17]  R. Sterner On the Phosphorus Limitation Paradigm for Lakes , 2008 .

[18]  S. Carpenter Phosphorus control is critical to mitigating eutrophication , 2008, Proceedings of the National Academy of Sciences.

[19]  David W. Schindler,et al.  Eutrophication of lakes cannot be controlled by reducing nitrogen input: Results of a 37-year whole-ecosystem experiment , 2008, Proceedings of the National Academy of Sciences.

[20]  O. Pietiläinen,et al.  Chlorophyll–nutrient relationships of different lake types using a large European dataset , 2008, Aquatic Ecology.

[21]  H. Paerl,et al.  Blooms Like It Hot , 2008, Science.

[22]  Helmut Hillebrand,et al.  Global analysis of nitrogen and phosphorus limitation of primary producers in freshwater, marine and terrestrial ecosystems. , 2007, Ecology letters.

[23]  F. Corradini,et al.  Water residence time as a driving force of zooplankton structure and succession , 2007, Aquatic Sciences.

[24]  Mark M. Benjamin,et al.  A review and reassessment of lake phosphorus retention and the nutrient loading concept , 2007 .

[25]  E. Jeppesen,et al.  A comparison of shallow Danish and Canadian lakes and implications of climate change , 2007 .

[26]  E. Jeppesen,et al.  Restoration of shallow lakes by nutrient control and biomanipulation—the successful strategy varies with lake size and climate , 2007, Hydrobiologia.

[27]  J. Downing,et al.  The global abundance and size distribution of lakes, ponds, and impoundments , 2006 .

[28]  Inga Hense,et al.  Towards a model of cyanobacteria life cycle—effects of growing and resting stages on bloom formation of N2-fixing species , 2006 .

[29]  F. Roland,et al.  Nutrient–chlorophyll relationships in tropical–subtropical lakes: do temperate models fit? , 2006 .

[30]  David W. Schindler,et al.  Recent advances in the understanding and management of eutrophication , 2006 .

[31]  Louis Varfalvy,et al.  Carbon dioxide and methane emissions and the carbon budget of a 10‐year old tropical reservoir (Petit Saut, French Guiana) , 2005 .

[32]  John C. Rodda,et al.  World water resources at the beginning of the twenty-first century , 2004 .

[33]  L. May,et al.  Linking nutrient limitation and water chemistry in upland lakes to catchment characteristics , 2003, Hydrobiologia.

[34]  Erik Jeppesen,et al.  Role of sediment and internal loading of phosphorus in shallow lakes , 2003, Hydrobiologia.

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

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

[37]  H. Pauli A new method to estimate individual dry weights of rotifers , 1989, Hydrobiologia.

[38]  J. Lund,et al.  The inverted microscope method of estimating algal numbers and the statistical basis of estimations by counting , 1958, Hydrobiologia.

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

[40]  E. Jeppesen,et al.  The Impact of Nutrient State and Lake Depth on Top-down Control in the Pelagic Zone of Lakes: A Study of 466 Lakes from the Temperate Zone to the Arctic , 2003, Ecosystems.

[41]  S. Verón,et al.  Environmental Controls of Primary Production in Agricultural Systems of the Argentine Pampas , 2002, Ecosystems.

[42]  Ralph Smith,et al.  Limnology—Inland water ecosystems , 2002, Journal of the North American Benthological Society.

[43]  C. Reynolds,et al.  A simple method for approximating the supportive capacities and metabolic constraints in lakes and reservoirs , 2002 .

[44]  T. Hein,et al.  Zooplankton biomass and community structure in a Danube River floodplain system: effects of hydrology , 2002 .

[45]  F. I. Opute Contribution to the knowledge of algae of Nigeria. I. Desmids from the Warri/Forcados Estuaries. Part II. The elongate baculiform desmids , 2000 .

[46]  William M. Lewis,et al.  Basis for the protection and management of tropical lakes , 2000 .

[47]  J. Coles,et al.  Effect of temperature on photosynthesis‐light response and growth of four phytoplankton species isolated from a tidal freshwater river , 2000 .

[48]  Colin S. Reynolds,et al.  Non-determinism to probability, or N : P in the community ecology of phytoplankton : Nutrient ratios , 1999 .

[49]  M. Manca,et al.  Studies on zooplankton of Lago Paione Superiore , 1999 .

[50]  Helmut Hillebrand,et al.  BIOVOLUME CALCULATION FOR PELAGIC AND BENTHIC MICROALGAE , 1999 .

[51]  M. Straškraba,et al.  Theoretical reservoir ecology and its applications , 1999 .

[52]  John M. Melack,et al.  The impact of accelerating land-use change on the N-Cycle of tropical aquatic ecosystems: Current conditions and projected changes , 1999 .

[53]  S. D. Cooper,et al.  The relationship between nutrients and trophic-level biomass in turbid tropical ponds , 1998 .

[54]  K. Havens,et al.  Nutrient-chlorophyll-Secchi relationships under contrasting grazer communities of temperate versus subtropical lakes , 1998 .

[55]  X. Lazzaro Do the trophic cascade hypothesis and classical biomanipulation approaches apply to tropical lakes and reservoirs , 1997 .

[56]  D. Cairns Phosphorus in the global environment: Transfers, cycles and management , 1997 .

[57]  Colin S. Reynolds,et al.  Vegetation processes in the pelagic : a model for ecosystem theory , 1997 .

[58]  G. Nürnberg Trophic State of Clear and Colored, Soft- and Hardwater Lakes with Special Consideration of Nutrients, Anoxia, Phytoplankton and Fish , 1996 .

[59]  Daniel E. Schindler,et al.  Chlorophyll Variability, Nutrient Input, and Grazing: Evidence from Whole‐ Lake Experiments , 1996 .

[60]  H. Tiessen Phosphorous in the global environment: transfers, cycles and management , 1995 .

[61]  Erik Jeppesen,et al.  Impact of nutrients and physical factors on the shift from cyanobacterial to chlorophyte dominance in shallow Danish lakes , 1994 .

[62]  A. Mazumder Phosphorus–Chlorophyll Relationships under Contrasting Herbivory and Thermal Stratification: Predictions and Patterns , 1994 .

[63]  Peter Blomqvist,et al.  AMMONIUM-NITROGEN - A KEY REGULATORY FACTOR CAUSING DOMINANCE OF NON-NITROGEN-FIXING CYANOBACTERIA IN AQUATIC SYSTEMS , 1994 .

[64]  C. Reynolds Eutrophication and the management of planktonic algae: What Vollenweider couldn't tell us , 1992 .

[65]  Â. Saggio,et al.  Limnology of Samuel Reservoir (Brazil, Rondônia) in the filling phase , 1991 .

[66]  Gene E. Likens,et al.  Limnological Analyses , 1991, Springer New York.

[67]  H. Sas,et al.  Lake restoration by reduction of nutrient loading: Expectations, experiences, extrapolations , 1990 .

[68]  Charles R. Goldman,et al.  Phosphorus and nitrogen limitation of phytoplankton growth in the freshwaters of North America : a review and critique of experimental enrichments , 1990 .

[69]  Kent W. Thornton,et al.  Reservoir Limnology: Ecological Perspectives , 1990 .

[70]  W. Lewis,et al.  Phytoplankton nutrient limitation in Colorado mountain lakes , 1988 .

[71]  A. Duncan,et al.  The relationship between cell carbon and cell volume in freshwater algal species used in zooplanktonic studies , 1985 .

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

[73]  E. Nimer Climatologia do Brasil , 1979 .

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

[75]  D. G. Frey,et al.  Textbook of Limnology , 1975 .

[76]  F. H. Rigler,et al.  A Test of a Simple Nutrient Budget Model Predicting the Phosphorus Concentration in Lake Water , 1974 .

[77]  M. Sakamoto,et al.  Primary production by phytoplankton community in some Japanese lakes and its dependence on lake depth , 1966 .

[78]  H. Caspers Uehlinger, Verena: Étude statistique des méthodes de dénombrement planctonique. Archives des Sciences, Soc. de Phys. et d'Hist. nat. de Genève, Vol. 17, fasc. 2, 1964: 121–233 , 1965 .

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