Phytoplankton functional responses induced by extreme hydrological events in a tropical reservoir

Phytoplankton functional responses induced by extreme hydrological events in a tropical reservoir

Climate change is affecting the global hydrological cycle, causing drastic changes in precipitation patterns. Extreme climatic events are becoming more frequent and intense than in the past, leading to water-level fluctuations and affecting aquatic ecosystems. Semiarid regions are very susceptible t...

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Bibliographic Details
Published in:Hydrobiologia Vol. 851; no. 4; pp. 849 - 867
Main Authors: Costa, Mariana R. A., Cardoso, Maria M. L., Selmeczy, Géza B., Padisák, Judit, Becker, Vanessa
Format: Journal Article
Language:English
Published: Cham Springer International Publishing 15-05-2023
Springer Nature B.V
Subjects:
Aquatic ecosystems
Biomedical and Life Sciences
Climate change
Cyanobacteria
Drought
Ecology
Ecosystems
Environmental conditions
Fluid filters
Freshwater & Marine Ecology
Hydrologic cycle
Hydrological cycle
Hydrology
Life Sciences
Metabolism
Microalgal Functional Traits
Phytoplankton
Plankton
Precipitation
Rainfall
Reservoirs
Semi arid areas
Semiarid lands
Water conservation
Water depth
Water level fluctuations
Water levels
Water management
Water quality
Water shortages
Zoology
Climate change
Functional classifications
Mixoplankton
Extreme rainfall
Cyanobacteria
Extreme drought
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Summary:Climate change is affecting the global hydrological cycle, causing drastic changes in precipitation patterns. Extreme climatic events are becoming more frequent and intense than in the past, leading to water-level fluctuations and affecting aquatic ecosystems. Semiarid regions are very susceptible to changing climate. We analyzed a 10 years dataset from a tropical semiarid reservoir during extreme hydrological events (heavy rains and prolonged drought), and evaluated phytoplankton functional responses to environmental conditions. We found, as hypothesized, that phytoplankton functional structure change in a temporal scale due to water–volume fluctuation induced by the rainfall pattern. Depth and inorganic material acted as environmental filters selecting phytoplankton groups. High water level seems to improve water quality and low water level worsen it. Colonial and filamentous cyanobacteria dominate the wet period; however, it may have a critical threshold during severe periods of drought, which will lead to dominance of groups well adapted to low light conditions and with mixotrophic metabolism. Phytoplankton functional approaches can simplify phytoplankton identification and reflect better the environmental conditions than the taxonomic approach. Therefore, these approaches can help to understand the shifts in aquatic ecosystems under extreme hydrological events and predict functional response of phytoplankton being an important tool to water management and conservation.
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Handling Editor: Sidinei M. Thomaz
ISSN:0018-8158
1573-5117
DOI:10.1007/s10750-023-05241-3