Modelling the impact of higher temperature on the phytoplankton of a boreal lake

We linked the models PROTECH and MyLake to test potential impacts of climate-change-induced warming on the phytoplankton community of Pyhajarvi, a lake in southwest Finland. First, we calibrated the models for the present conditions, which revealed an apparent high significance of internal nutrient...

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Bibliographic Details
Published in:Boreal environment research 2014, Vol.19 (1), p.66
Main Authors: Patynen, Anita, Elliott, J. Alex, Kiuru, Petri, Sarvala, Jouko, Ventela, Anne-Mari, Jones, Roger I
Format: Article
Language:English
Subjects:
Distribution
Environment
Environmental aspects
Global warming
Phytoplankton
Water bloom
Online Access:Get full text
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Summary:We linked the models PROTECH and MyLake to test potential impacts of climate-change-induced warming on the phytoplankton community of Pyhajarvi, a lake in southwest Finland. First, we calibrated the models for the present conditions, which revealed an apparent high significance of internal nutrient loading for Pyhajarvi. We then estimated the effect of two climate change scenarios on lake water temperatures and ice cover duration with MyLake. Finally, we used those outputs to drive PROTECH to predict the resultant phytoplankton community. It was evident that cyanobacteria will grow significantly better in warmer water, especially in the summer. Even if phosphorus and nitrogen loads to the lake remain the same and there is little change in the total chlorophyll a concentrations, a higher proportion of the phytoplankton community could be dominated by cyanobacteria. The model outputs provided no clear evidence that earlier ice break would advance the timing of the diatom spring bloom.
ISSN:1239-6095
1797-2469