Iron Distribution and Effects on Phytoplankton Growth in the Seasonal Sea Ice Zone

Progress Code: completed Statement: See the referenced paper for more information. Peter Sedwick collected water column samples (6 depths, less than 350m) and measured dissolved iron in these samples, using specialised trace-metal clean techniques, at 9 stations along the SR3 transect between 47 deg...

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Bibliographic Details
Format: Dataset
Language:unknown
Published: Australian Ocean Data Network
Subjects:
biota
geoscientificInformation
oceans
EARTH SCIENCE &gt
OCEANS &gt
OCEAN CHEMISTRY &gt
OCEAN TRACERS
ORGANIC MATTER
TRACE ELEMENTS
BIOSPHERE &gt
ECOSYSTEMS &gt
AQUATIC ECOSYSTEMS &gt
PLANKTON &gt
PHYTOPLANKTON
CTD
DIMETHYLSULFIDE
DIMETHYLSULFONIOPROPIONATE
DIMETHYLSULFOXIDE
DISSOLVED IRON
SEA ICE
SHIPS
R/V AA &gt
R/V Aurora Australis
AMD/AU
CEOS
AMD
ACE/CRC
OCEAN &gt
SOUTHERN OCEAN &gt
CLIVAR SR3 transect
GEOGRAPHIC REGION &gt
POLAR
Antarctic
Southern Ocean
Antarc*
aurora australis
Sea ice
Online Access:https://researchdata.edu.au/iron-distribution-effects-ice-zone/2820081
Description
Summary:Progress Code: completed Statement: See the referenced paper for more information. Peter Sedwick collected water column samples (6 depths, less than 350m) and measured dissolved iron in these samples, using specialised trace-metal clean techniques, at 9 stations along the SR3 transect between 47 deg S and 66 deg S. These are the first such data for this oceanographic sector during spring. The dissolved iron levels were generally very low (less than 0.2 nM nM) in the upper water column, particularly south of the Subantarctic Front, and surprisingly there was no evidence of significant iron inputs from melting sea ice in our study region. Ongoing work quantified various size fractions of dissolved iron as well as total acid soluble iron. In addition, Jack DiTullio collected water samples for measurements of five biogenic sulfur pools at most shallow water CTD casts. The sulfur pools measured include: dimethylsulfide (DMS), particulate and dissolved dimethylsulfoniopropionate (DMSP) and particulate and dissolved pools of dimethylsulfoxide (DMSO). Taken from the referenced paper: A shipboard-deployable, flow-injection (FI) based instrument for monitoring iron(II) in surface marine waters is described. It incorporates a miniature, low-power photoncounting head for measuring the light emitted from the iron-(II)-catalyzed chemiluminescence (CL) luminol reaction. System control, signal acquisition, and data processing are performed in a graphical programming environment. The limit of detection for iron(II) is in the range 8-12 pmol L-1(based on 3s of the blank), and the precision over the range 8-1000 pmol L-1 varies between 0.9 and 7.6% (n )4). Results from a day-night deployment during a north to-south transect of the Atlantic Ocean and a daytime transect in the Sub-Antarctic Front are presented together with ancillary temperature, salinity, and irradiance data. The generic nature of the components used to assemble the instrument make the technology readily transferable to other laboratories and the modular ...

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