“Happy Holidays! BCO-DMO will be on break from 23 December to 2 January 2025. Submissions and questions will still be accepted, however our responses may be delayed during this time.”

Dataset: SedimentTraps - PSi Water Column
Deployment: 61TG_3052

Sediment Traps - Water column PSi (biogenic) results
Principal Investigator: 
Scott Nodder (New Zealand National Institute of Water and Atmospheric Research, NIWA)
Contact: 
Doug Mackie (University of Otago)
BCO-DMO Data Manager: 
Stephen R. Gegg (Woods Hole Oceanographic Institution, WHOI)
Current State: 
Final no updates expected
Version: 
24August2009
Deployment Synonyms:
 SOIREE
Version Date: 
2009-08-24
Description

SOIREE Sediment Traps - Water column PSi (biogenic) results

METHOD:
Biogenic silica content was determined on filtered samples (47 mm , 0.4 um Nuclepore) after digestion in 0.2 M NaOH, following the methods of Ragueneau and Tréguer (1994).
Estimated accuracy of replicate analyses: ±5-10%
Blank filter: 15 ug
Digest blanks (no filter): indistinguishable from background levels

NOTES
1. The initial and OUTSIDE PATCH water column integrated PSi values from SOIREE were higher than expected for Southern Ocean HNLC waters. For example, published data from Bernard Queginuer (France) in the Atlantic sector of the Southern Ocean indicates maximum BSi concentrations of 1.6 umolSi/l in the vicinity of the Polar Front (53-54°S), with maximums in surrounding HNLC waters of 0.25 umolSi/l. SOIREE PSi water column concentrations reached a maximum of 25 umolSi/l with an average across all profiles of 5.8 umolSi/l and surface values outside the iron-fertilised patch (2-4 umol/l) which were not substantially different from that measured inside the patch during the SOIREE bloom (except on Day T10)

2. There is no obvious indication from either sampling or analytical techniques that the PSi values are artificially inflated due to sample handling, etc.

3. Charette & Buesseler (2000, G3) suggest that a previous export event must have occurred prior to SOIREE due to a substantial 234Th deficit relative to 238U, which might explain the SOIREE POC results. Since there is no indication from daily SeaWiFS images of a surface bloom from Nov 1998-Jan 1999 (C. Law pers. comm., 1999), nor any "memory" of such an event in the pCO2 data (Watson et al., 2000, Nature), Charette & Buesseler (2000) suggested that such a bloom is likely to have been a subsurface feature, or that there was a significant delay in export

4. PSi values inside and outside the SOIREE patch were similar despite 6-fold and 3-fold increases in chlorophyll a concentrations and phytoplankton abundance, respectively, inside the iron-fertilised patch (Boyd et al., 2000, Nature)

5. Therefore, we conclude that perhaps there was a significant detrital PSi component in the water column at the time that the SOIREE site was occupied, representing organic material derived from a previous bloom/export event.

6. Given the uncertainties, however, it is wise to treat the interpretation of the above PSi data with caution.
 

More information about this dataset deployment