Biologically induced modification of seawater viscosity in the Eastern English Channel during a Phaeocystis globosa spring bloom. Seuront, L., Vincent, D., & Mitchell, J. G. Journal of Marine Systems, 61(3):118–133, July, 2006. Number: 3
Biologically induced modification of seawater viscosity in the Eastern English Channel during a Phaeocystis globosa spring bloom [link]Paper  doi  abstract   bibtex   
To identify the potential relationship between Pheaocystis globosa bloom conditions and seawater properties, a hydrobiological survey was performed in the inshore waters of the Eastern English Channel over the course of the phytoplankton spring bloom. Chlorophyll concentration, auto- and hetero/mixotrophic composition of protists and standing stock, and seawater viscosity were measured weekly from March to June 2004. The decline of the bloom is characterized by a massive foam formation in the turbulent surf zone. Before foam formation, seawater viscosity significantly increased, showing a significant positive correlation with chlorophyll concentration. In contrast, after foam formation this correlation was negative, seawater viscosity kept increasing despite a sharp decrease in chlorophyll concentrations. No significant correlation has been found between seawater viscosity and the composition of the phytoplankton assemblages observed during the survey. However, significant positive correlations have been found between seawater viscosity and both the size and the abundance of P. globosa colonies. From the correlation patterns observed between chlorophyll concentration and seawater viscosity, we suggest that the rheological properties of seawater are mainly driven by extracellular materials associated with colony formation and maintenance rather than by cell composition and standing stock.
@article{seuront_biologically_2006,
	series = {Workshop on {Future} {Directions} in {Modelling} {Physical}-{Biological} {Interactions} ({WKFDPBI})},
	title = {Biologically induced modification of seawater viscosity in the {Eastern} {English} {Channel} during a {Phaeocystis} globosa spring bloom},
	volume = {61},
	issn = {0924-7963},
	url = {http://www.sciencedirect.com/science/article/pii/S0924796306000200},
	doi = {10.1016/j.jmarsys.2005.04.010},
	abstract = {To identify the potential relationship between Pheaocystis globosa bloom conditions and seawater properties, a hydrobiological survey was performed in the inshore waters of the Eastern English Channel over the course of the phytoplankton spring bloom. Chlorophyll concentration, auto- and hetero/mixotrophic composition of protists and standing stock, and seawater viscosity were measured weekly from March to June 2004. The decline of the bloom is characterized by a massive foam formation in the turbulent surf zone. Before foam formation, seawater viscosity significantly increased, showing a significant positive correlation with chlorophyll concentration. In contrast, after foam formation this correlation was negative, seawater viscosity kept increasing despite a sharp decrease in chlorophyll concentrations. No significant correlation has been found between seawater viscosity and the composition of the phytoplankton assemblages observed during the survey. However, significant positive correlations have been found between seawater viscosity and both the size and the abundance of P. globosa colonies. From the correlation patterns observed between chlorophyll concentration and seawater viscosity, we suggest that the rheological properties of seawater are mainly driven by extracellular materials associated with colony formation and maintenance rather than by cell composition and standing stock.},
	number = {3},
	urldate = {2019-04-16},
	journal = {Journal of Marine Systems},
	author = {Seuront, Laurent and Vincent, Dorothée and Mitchell, James G.},
	month = jul,
	year = {2006},
	note = {Number: 3},
	keywords = {Phytoplankton, Eastern English Channel, Rheology, Seawater viscosity, Spring bloom dynamics},
	pages = {118--133}
}
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