Phytoplankton seasonal variation in a shallow stratified eutrophic reservoir (Garças Pond, Brazil)

This study aimed at describing the phytoplankton dynamics and structure in a shallow eutrophic reservoir, the Garças Pond, located in the Parque Estadual das Fontes do Ipiranga (23°38'40.6'' S, 46°37'28.0'' W), in the Municipality of São Paulo, southeast Brazil. Samples...

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Veröffentlicht in:	Hydrobiologia 2008-03, Vol.600 (1), p.267-282
Hauptverfasser:	Fonseca, Bárbara M, Bicudo, Carlos E. de M
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Sprache:	eng
Schlagworte:	Alkalinity Animal and plant ecology Animal, plant and microbial ecology Aquatic ecosystems Bacillariophyceae Biological and medical sciences Biomedical and Life Sciences Cylindrospermopsis Dissolved oxygen Dry season Ecology Eutrophication Fresh water ecosystems Freshwater & Marine Ecology Fundamental and applied biological sciences. Psychology General aspects Inorganic carbon Life Sciences Phytoplankton Plankton Ponds Primary Research Paper Rainy season Raphidiopsis Reservoirs Seasonal variations Synecology Turbidity Water column Water temperature Zoology
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description	This study aimed at describing the phytoplankton dynamics and structure in a shallow eutrophic reservoir, the Garças Pond, located in the Parque Estadual das Fontes do Ipiranga (23°38'40.6'' S, 46°37'28.0'' W), in the Municipality of São Paulo, southeast Brazil. Samples were collected monthly from January to December 1997 in five depths (subsurface, 1 m, 2 m, 3 m, and 20 cm above the bottom) in the pelagic zone (Z max = 4.7 m). Abiotic variables studied were: water temperature, turbidity, transparency, conductivity, pH, dissolved oxygen, alkalinity, inorganic carbon, and N and P dissolved and total forms. Altogether 236 phytoplankton taxa distributed among 10 classes were identified. Phytoplankton seasonal and vertical variation was related to shifts in the water chemical features as a consequence of a warm-wet season with stratified water column (phase 1, January-March and September-December) alternating with a cool-dry season with mixed water column (phase 2, April-August). There were shifts in cyanobacterial dominance over the entire year. During phase 1, Raphidiopsis/Cylindrospermopsis was one of the most important taxon. During phase 2, Raphidiopsis/Cylindrospermopsis biomass decreased, whereas richness and diversity increased and diatoms were relatively abundant. In September, when the water column was markedly stratified, a cyanobacterial bloom (Sphaerocavum brasiliense) occurred. Changes in water chemical variables caused by the bloom allowed recognition of a phase 3, in which pH and chlorophyll a, TP and CO₃ ²⁻ concentration reached their highest values. According to Reynolds and collaborators' functional groups approach, phase 1 was marked by groups S/W1/W2/H1/Y, phase 2 by groups K/L M /L O /D/P/X1/F, and phase 3 by group M. This sequence was corroborated by canonical correspondence analysis (CCA) results.
doi_str_mv	10.1007/s10750-007-9240-9
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During phase 2, Raphidiopsis/Cylindrospermopsis biomass decreased, whereas richness and diversity increased and diatoms were relatively abundant. In September, when the water column was markedly stratified, a cyanobacterial bloom (Sphaerocavum brasiliense) occurred. Changes in water chemical variables caused by the bloom allowed recognition of a phase 3, in which pH and chlorophyll a, TP and CO₃ ²⁻ concentration reached their highest values. According to Reynolds and collaborators' functional groups approach, phase 1 was marked by groups S/W1/W2/H1/Y, phase 2 by groups K/L M /L O /D/P/X1/F, and phase 3 by group M. 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Samples were collected monthly from January to December 1997 in five depths (subsurface, 1 m, 2 m, 3 m, and 20 cm above the bottom) in the pelagic zone (Z max = 4.7 m). Abiotic variables studied were: water temperature, turbidity, transparency, conductivity, pH, dissolved oxygen, alkalinity, inorganic carbon, and N and P dissolved and total forms. Altogether 236 phytoplankton taxa distributed among 10 classes were identified. Phytoplankton seasonal and vertical variation was related to shifts in the water chemical features as a consequence of a warm-wet season with stratified water column (phase 1, January-March and September-December) alternating with a cool-dry season with mixed water column (phase 2, April-August). There were shifts in cyanobacterial dominance over the entire year. During phase 1, Raphidiopsis/Cylindrospermopsis was one of the most important taxon. During phase 2, Raphidiopsis/Cylindrospermopsis biomass decreased, whereas richness and diversity increased and diatoms were relatively abundant. In September, when the water column was markedly stratified, a cyanobacterial bloom (Sphaerocavum brasiliense) occurred. Changes in water chemical variables caused by the bloom allowed recognition of a phase 3, in which pH and chlorophyll a, TP and CO₃ ²⁻ concentration reached their highest values. According to Reynolds and collaborators' functional groups approach, phase 1 was marked by groups S/W1/W2/H1/Y, phase 2 by groups K/L M /L O /D/P/X1/F, and phase 3 by group M. 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Samples were collected monthly from January to December 1997 in five depths (subsurface, 1 m, 2 m, 3 m, and 20 cm above the bottom) in the pelagic zone (Z max = 4.7 m). Abiotic variables studied were: water temperature, turbidity, transparency, conductivity, pH, dissolved oxygen, alkalinity, inorganic carbon, and N and P dissolved and total forms. Altogether 236 phytoplankton taxa distributed among 10 classes were identified. Phytoplankton seasonal and vertical variation was related to shifts in the water chemical features as a consequence of a warm-wet season with stratified water column (phase 1, January-March and September-December) alternating with a cool-dry season with mixed water column (phase 2, April-August). There were shifts in cyanobacterial dominance over the entire year. During phase 1, Raphidiopsis/Cylindrospermopsis was one of the most important taxon. 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subjects	Alkalinity Animal and plant ecology Animal, plant and microbial ecology Aquatic ecosystems Bacillariophyceae Biological and medical sciences Biomedical and Life Sciences Cylindrospermopsis Dissolved oxygen Dry season Ecology Eutrophication Fresh water ecosystems Freshwater & Marine Ecology Fundamental and applied biological sciences. Psychology General aspects Inorganic carbon Life Sciences Phytoplankton Plankton Ponds Primary Research Paper Rainy season Raphidiopsis Reservoirs Seasonal variations Synecology Turbidity Water column Water temperature Zoology
title	Phytoplankton seasonal variation in a shallow stratified eutrophic reservoir (Garças Pond, Brazil)
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