Phytoplankton and primary production in clear-vegetated, inorganic-turbid, and algal-turbid shallow lakes from the pampa plain (Argentina)
Shallow lakes often alternate between two possible states: one clear with submerged macrophytes, and another one turbid, dominated by phytoplankton. A third type of shallow lakes, the inorganic turbid, result from high contents of suspended inorganic material, and is characterized by low phytoplankt...
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todo:paper_00188158_v624_n1_p45_Allende2023-10-03T14:16:02Z Phytoplankton and primary production in clear-vegetated, inorganic-turbid, and algal-turbid shallow lakes from the pampa plain (Argentina) Allende, L. Tell, G. Zagarese, H. Torremorell, A. Pérez, G. Bustingorry, J. Escaray, R. Izaguirre, I. Alternative stable states Clear-vegetated Phytoplankton Phytoplankton-turbid and inorganic-turbid shallow lakes South America Biomass Lakes Light Phytoplankton Renewable energy resources Alternative stable states C methods Clear-vegetated Environmental conditions High contents Inorganic materials Light climates Macrophytes Nanoflagellates Photosynthetic efficiencies Phytoplankton biomass Phytoplankton densities Phytoplankton productivities Phytoplankton-turbid and inorganic-turbid shallow lakes Picocyanobacteria Picoplankton Primary productions Size fractions South America Submerged macrophytes Algae control abundance alga biomass chlorophyll a dissolved organic carbon dominance flagellate lake ecosystem macrophyte photosynthesis phytoplankton primary production turbidity Argentina Pampas South America algae Bacillariophyta Shallow lakes often alternate between two possible states: one clear with submerged macrophytes, and another one turbid, dominated by phytoplankton. A third type of shallow lakes, the inorganic turbid, result from high contents of suspended inorganic material, and is characterized by low phytoplankton biomass and macrophytes absence. In our survey, the structure and photosynthetic properties (based on 14C method) of phytoplankton were related to environmental conditions in these three types of lakes in the Pampa Plain. The underwater light climate was characterized. Clear-vegetated lakes were more transparent (K d 4.5-7.7 m-1), had high DOC concentrations (>45 mg l-1), low phytoplankton Chl a (1.6-2.7 μg l -1) dominated by nanoflagellates. Phytoplankton productivity and photosynthetic efficiency (α ~ 0.03 mgC mgChla -1 h -1 W-1 m2) were relatively low. Inorganic-turbid lakes showed highest K d values (59.8-61.4 m -1), lowest phytoplankton densities (dominated by Bacillariophyta), and Chl a ranged from 14.6 to 18.3 μg l-1. Phytoplankton-turbid lakes showed, in general, high K d (4.9-58.5 m-1) due to their high phytoplankton abundances. These lakes exhibited the highest Chl a values (14.2-125.7 μg l-1), and the highest productivities and efficiencies (maximum 0.56 mgC mgChla -1 h-1 W -1 m2). Autotrophic picoplankton abundance, dominated by ficocianine-rich picocyanobacteria, differed among the shallow lakes independently of their type (0.086 × 105-41.7 × 10 5 cells ml-1). This article provides a complete characterization of phytoplankton structure (all size fractions), and primary production of the three types of lakes from the Pampa Plain, one of the richest areas in shallow lakes from South America. © 2008 Springer Science+Business Media B.V. Fil:Allende, L. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. Fil:Zagarese, H. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. Fil:Izaguirre, I. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_00188158_v624_n1_p45_Allende |
institution |
Universidad de Buenos Aires |
institution_str |
I-28 |
repository_str |
R-134 |
collection |
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) |
topic |
Alternative stable states Clear-vegetated Phytoplankton Phytoplankton-turbid and inorganic-turbid shallow lakes South America Biomass Lakes Light Phytoplankton Renewable energy resources Alternative stable states C methods Clear-vegetated Environmental conditions High contents Inorganic materials Light climates Macrophytes Nanoflagellates Photosynthetic efficiencies Phytoplankton biomass Phytoplankton densities Phytoplankton productivities Phytoplankton-turbid and inorganic-turbid shallow lakes Picocyanobacteria Picoplankton Primary productions Size fractions South America Submerged macrophytes Algae control abundance alga biomass chlorophyll a dissolved organic carbon dominance flagellate lake ecosystem macrophyte photosynthesis phytoplankton primary production turbidity Argentina Pampas South America algae Bacillariophyta |
spellingShingle |
Alternative stable states Clear-vegetated Phytoplankton Phytoplankton-turbid and inorganic-turbid shallow lakes South America Biomass Lakes Light Phytoplankton Renewable energy resources Alternative stable states C methods Clear-vegetated Environmental conditions High contents Inorganic materials Light climates Macrophytes Nanoflagellates Photosynthetic efficiencies Phytoplankton biomass Phytoplankton densities Phytoplankton productivities Phytoplankton-turbid and inorganic-turbid shallow lakes Picocyanobacteria Picoplankton Primary productions Size fractions South America Submerged macrophytes Algae control abundance alga biomass chlorophyll a dissolved organic carbon dominance flagellate lake ecosystem macrophyte photosynthesis phytoplankton primary production turbidity Argentina Pampas South America algae Bacillariophyta Allende, L. Tell, G. Zagarese, H. Torremorell, A. Pérez, G. Bustingorry, J. Escaray, R. Izaguirre, I. Phytoplankton and primary production in clear-vegetated, inorganic-turbid, and algal-turbid shallow lakes from the pampa plain (Argentina) |
topic_facet |
Alternative stable states Clear-vegetated Phytoplankton Phytoplankton-turbid and inorganic-turbid shallow lakes South America Biomass Lakes Light Phytoplankton Renewable energy resources Alternative stable states C methods Clear-vegetated Environmental conditions High contents Inorganic materials Light climates Macrophytes Nanoflagellates Photosynthetic efficiencies Phytoplankton biomass Phytoplankton densities Phytoplankton productivities Phytoplankton-turbid and inorganic-turbid shallow lakes Picocyanobacteria Picoplankton Primary productions Size fractions South America Submerged macrophytes Algae control abundance alga biomass chlorophyll a dissolved organic carbon dominance flagellate lake ecosystem macrophyte photosynthesis phytoplankton primary production turbidity Argentina Pampas South America algae Bacillariophyta |
description |
Shallow lakes often alternate between two possible states: one clear with submerged macrophytes, and another one turbid, dominated by phytoplankton. A third type of shallow lakes, the inorganic turbid, result from high contents of suspended inorganic material, and is characterized by low phytoplankton biomass and macrophytes absence. In our survey, the structure and photosynthetic properties (based on 14C method) of phytoplankton were related to environmental conditions in these three types of lakes in the Pampa Plain. The underwater light climate was characterized. Clear-vegetated lakes were more transparent (K d 4.5-7.7 m-1), had high DOC concentrations (>45 mg l-1), low phytoplankton Chl a (1.6-2.7 μg l -1) dominated by nanoflagellates. Phytoplankton productivity and photosynthetic efficiency (α ~ 0.03 mgC mgChla -1 h -1 W-1 m2) were relatively low. Inorganic-turbid lakes showed highest K d values (59.8-61.4 m -1), lowest phytoplankton densities (dominated by Bacillariophyta), and Chl a ranged from 14.6 to 18.3 μg l-1. Phytoplankton-turbid lakes showed, in general, high K d (4.9-58.5 m-1) due to their high phytoplankton abundances. These lakes exhibited the highest Chl a values (14.2-125.7 μg l-1), and the highest productivities and efficiencies (maximum 0.56 mgC mgChla -1 h-1 W -1 m2). Autotrophic picoplankton abundance, dominated by ficocianine-rich picocyanobacteria, differed among the shallow lakes independently of their type (0.086 × 105-41.7 × 10 5 cells ml-1). This article provides a complete characterization of phytoplankton structure (all size fractions), and primary production of the three types of lakes from the Pampa Plain, one of the richest areas in shallow lakes from South America. © 2008 Springer Science+Business Media B.V. |
format |
JOUR |
author |
Allende, L. Tell, G. Zagarese, H. Torremorell, A. Pérez, G. Bustingorry, J. Escaray, R. Izaguirre, I. |
author_facet |
Allende, L. Tell, G. Zagarese, H. Torremorell, A. Pérez, G. Bustingorry, J. Escaray, R. Izaguirre, I. |
author_sort |
Allende, L. |
title |
Phytoplankton and primary production in clear-vegetated, inorganic-turbid, and algal-turbid shallow lakes from the pampa plain (Argentina) |
title_short |
Phytoplankton and primary production in clear-vegetated, inorganic-turbid, and algal-turbid shallow lakes from the pampa plain (Argentina) |
title_full |
Phytoplankton and primary production in clear-vegetated, inorganic-turbid, and algal-turbid shallow lakes from the pampa plain (Argentina) |
title_fullStr |
Phytoplankton and primary production in clear-vegetated, inorganic-turbid, and algal-turbid shallow lakes from the pampa plain (Argentina) |
title_full_unstemmed |
Phytoplankton and primary production in clear-vegetated, inorganic-turbid, and algal-turbid shallow lakes from the pampa plain (Argentina) |
title_sort |
phytoplankton and primary production in clear-vegetated, inorganic-turbid, and algal-turbid shallow lakes from the pampa plain (argentina) |
url |
http://hdl.handle.net/20.500.12110/paper_00188158_v624_n1_p45_Allende |
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