The role of hydrographic parameters, measured from a ship of opportunity, in bloom formation of Karenia mikimotoi in the English Channel

Unusually high chlorophyll values (~14mgChlm−3 at 5m depth), recorded on a ship of opportunity (SOO) in July 2010, indicated the occurrence of a potential Harmful Algal Bloom (HAB) in the Western approaches of the English Channel. This bloom, located at 49.7°N, 3.2°W was observed via complementary d...

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Bibliographic Details
Published in:Journal of marine systems 2014-12, Vol.140, p.39-49
Main Authors: Hartman, S.E., Hartman, M.C., Hydes, D.J., Smythe-Wright, D., Gohin, F., Lazure, P.
Format: Article
Language:English
Subjects:
Algae
Chlorophylls
Dinoflagellates
English Channel
Ferry-box
French Atlantic rivers
Harmful algae
Karenia mikimotoi
Life Sciences
Low salinity water
Marine
Sampling
Sciences of the Universe
Ships
Temperature
Wind speed
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Summary:Unusually high chlorophyll values (~14mgChlm−3 at 5m depth), recorded on a ship of opportunity (SOO) in July 2010, indicated the occurrence of a potential Harmful Algal Bloom (HAB) in the Western approaches of the English Channel. This bloom, located at 49.7°N, 3.2°W was observed via complementary datasets. These included data from samples collected for microscopic phytoplankton identification, information from satellite maps to follow geographical bloom development and in situ data to identify hydrographic factors related to bloom initiation. The relationships between chlorophyll-fluorescence, temperature, salinity and wind speed were examined. The intense summer bloom predominantly consisted of the dinoflagellate Karenia mikimotoi and followed an increase in sea surface temperature (to 18.5°C). A mid-channel bloom of this magnitude along the SOO route was last seen in 2003. In both years the peak biomass was associated with K. mikimotoi blooms, which occurred at the same location and coincided with the least saline, warmest water and lowest wind speeds. This study demonstrates that ships of opportunity are a useful tool to identify and track HAB events through continuous in situ measurements and for the frequent sampling opportunities that they provide. •We address the hydrographic causes of harmful algal blooms using ships of opportunity.•High frequency datasets show high temperature and low salinity enhance Karenia mikimotoi blooms.•We show possible mechanisms leading to dense Karenia mikimotoi blooms in the English Channel.
ISSN:0924-7963
1879-1573
DOI:10.1016/j.jmarsys.2014.07.001