Schindler's legacy: from eutrophic lakes to the phosphorus utilization strategies of cyanobacteria

Abstract David Schindler and his colleagues pioneered studies in the 1970s on the role of phosphorus in stimulating cyanobacterial blooms in North American lakes. Our understanding of the nuances of phosphorus utilization by cyanobacteria has evolved since that time. We review the phosphorus utiliza...

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Veröffentlicht in:	FEMS microbiology reviews 2022-11, Vol.46 (6), p.1
Hauptverfasser:	Xiao, Man, Burford, Michele A, Wood, Susanna A, Aubriot, Luis, Ibelings, Bas W, Prentice, Matthew J, Galvanese, Elena F, Harris, Ted D, Hamilton, David P
Format:	Artikel
Sprache:	eng
Schlagworte:	Adaptation Cell division Climate change Cyanobacteria Cyanobacteria - physiology Environmental science Eutrophic lakes Eutrophication Lakes Lakes - microbiology Limnology Nitrogen Nutrient concentrations Organic phosphorus Phosphorus Physiological aspects Physiological responses Physiology Plankton Species diversity Utilization Water quality
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description	Abstract David Schindler and his colleagues pioneered studies in the 1970s on the role of phosphorus in stimulating cyanobacterial blooms in North American lakes. Our understanding of the nuances of phosphorus utilization by cyanobacteria has evolved since that time. We review the phosphorus utilization strategies used by cyanobacteria, such as use of organic forms, alternation between passive and active uptake, and luxury storage. While many aspects of physiological responses to phosphorus of cyanobacteria have been measured, our understanding of the critical processes that drive species diversity, adaptation and competition remains limited. We identify persistent critical knowledge gaps, particularly on the adaptation of cyanobacteria to low nutrient concentrations. We propose that traditional discipline-specific studies be adapted and expanded to encompass innovative new methodologies and take advantage of interdisciplinary opportunities among physiologists, molecular biologists, and modellers, to advance our understanding and prediction of toxic cyanobacteria, and ultimately to mitigate the occurrence of blooms. This review advocates for interdisciplinary research on cell physiology, molecular biology, and ecological modelling to improve predictions of cyanobacterial blooms in response to variability in phosphorus supply rates in situ.
doi_str_mv	10.1093/femsre/fuac029
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subjects	Adaptation Cell division Climate change Cyanobacteria Cyanobacteria - physiology Environmental science Eutrophic lakes Eutrophication Lakes Lakes - microbiology Limnology Nitrogen Nutrient concentrations Organic phosphorus Phosphorus Physiological aspects Physiological responses Physiology Plankton Species diversity Utilization Water quality
title	Schindler's legacy: from eutrophic lakes to the phosphorus utilization strategies of cyanobacteria
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