Effect of a Once in 100-Year Flood on a Subtropical Coastal Phytoplankton Community

Subtropical systems experience occasional severe floods, dramatically altering the phytoplankton community structure, in response to changes in salinity, nutrients, and light. This study examined the effects of a 1:100 year summer flood on the phytoplankton community in an Australian subtropical bay...

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Bibliographic Details
Published in:Frontiers in Marine Science 2021-03, Vol.8
Main Authors: Clementson, Lesley A., Richardson, Anthony J., Rochester, Wayne A., Oubelkheir, Kadija, Liu, Bingqing, D’Sa, Eurico J., Gusmão, Luiz Felipe Mendes, Ajani, Penelope, Schroeder, Thomas, Ford, Phillip W., Burford, Michele A., Saeck, Emily, Steven, Andrew D. L.
Format: Article
Language:English
Subjects:
Availability
Biomass
coastal
Community composition
Community structure
Diatoms
Dissolved organic matter
extreme-flood
Floods
Growth rate
Imagery
Light
Load
Marine microorganisms
Mineral nutrients
Moreton Bay
Nutrient availability
Nutrients
Ocean colour
Parameters
Phytoplankton
phytoplankton pigments
Picoplankton
Plankton
River flow
Rivers
Salinity
Salinity effects
Spaceborne remote sensing
Species composition
Stream flow
subtropical
Surface water
Turbidity
Water column
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Summary:Subtropical systems experience occasional severe floods, dramatically altering the phytoplankton community structure, in response to changes in salinity, nutrients, and light. This study examined the effects of a 1:100 year summer flood on the phytoplankton community in an Australian subtropical bay – Moreton Bay – over 48 weeks, from January to December 2011. Immediately after maximum flood levels were reached on the rivers flowing into the bay, the lowest salinity, and highest turbidity values, in more than a decade, were measured in the Bay and the areal extent of the flood-related parameters was also far greater than previous flood events. Changes in these parameters together with changes in Colored Dissolved Organic Matter (CDOM) and sediment concentrations significantly reduced the light availability within the water column. Despite the reduced light availability, the phytoplankton community responded rapidly (1–2 weeks) to the nutrients from flood inputs, as measured using pigment concentrations and cell counts and observed in ocean color satellite imagery. Initially, the phytoplankton community was totally dominated by micro-phytoplankton, particularly diatoms; however, in the subsequent weeks (up to 48-weeks post flood) the community changed to one of nano- and pico-plankton in all areas of the Bay not usually affected by river flow. This trend is consistent with many other studies that show the ability of micro-phytoplankton to respond rapidly to increased nutrient availability, stimulating their growth rates. The results of this study suggest that one-off extreme floods have immediate, but short-lived effects, on phytoplankton species composition and biomass as a result of the interacting and dynamic effects of changes in nutrient and light availability.
ISSN:2296-7745
2296-7745
DOI:10.3389/fmars.2021.580516