DMSP and DMS in the Northwest Atlantic: Late-summer distributions, production rates and sea-air fluxes

DMSP and DMS in the Northwest Atlantic: Late-summer distributions, production rates and sea-air fluxes

DMSP and DMS were measured along a set of transects in the Northwest Atlantic during September, 1999. Six 24 h Lagrangian stations were occupied between 36 degree and 61 degree N latitude, covering subtropical to polar water types. Profiles of total DMSP (DMSP sub(t)), DMS, chl a, and oceanographic...

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Bibliographic Details
Published in:Aquatic sciences Vol. 69; no. 3; pp. 292 - 304
Main Authors: Scarratt, Michael G., Levasseur, Maurice, Michaud, Sonia, Roy, Sylvie
Format: Journal Article
Language:English
Published: 01-09-2007
Subjects:
Bacillariophyceae
Marine
Greenland
AN, Greenland
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Summary:DMSP and DMS were measured along a set of transects in the Northwest Atlantic during September, 1999. Six 24 h Lagrangian stations were occupied between 36 degree and 61 degree N latitude, covering subtropical to polar water types. Profiles of total DMSP (DMSP sub(t)), DMS, chl a, and oceanographic variables were determined at each station. Phyto-plankton abundance and species assemblage were determined in surface waters and at the depth of the Chl a maximum in all profiles. Between profile stations, DMSP sub(t) and DMS samples were collected by a pump while the vessel was moving. Chl a and DMSP sub(t) were most abundant in the northern regions, with very low levels in subtropical waters. There was no direct correlation between DMSP sub(t) and Chl a. Maximum DMSP sub(t) concentrations reached 203 nM in coastal waters and 112 nM in the open ocean. A strong correlation was observed between DMSP sub(t) and the abundance of dinoflagellates (Spearman r=0.91; p < 0.0001; n = 13) and prymnesiophytes (Spearman r=0.91; p < 0.0001; n=13). Cryptophytes also showed a weak but significant correlation (Spearman r=0.58; p = 0.039; n=13). The waters around Greenland were the only site dominated by diatoms and their abundance was not correlated with DMSP sub(t) concentrations. DMS concentrations were low and fairly uniform, with maximum levels of 4.7 nM in coastal waters and 2.2 nM in the open ocean. DMS fluxes from surface waters were calculated based on observed sea-surface concentrations and wind speeds and showed a strong peak associated with a storm event, although no depletion of DMS resulting from the storm was observed. In situ incubation experiments showed DMSP consumption and DMS production rates to be relatively high, notwithstanding the generally low phytoplankton biomass.
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ISSN:1015-1621
1420-9055
DOI:10.1007/s00027-007-0886-1