Transcript DMS(P)
Iron limitation in SO waters and DMS emissions to the atmosphere
S. Belviso (LSCE, Gif-sur-Yvette)
Scientific background:
0-65m
In the patch
Outside the patch
SOIREE
DMS increased markedly after deliberated iron fertilisation of SO waters
(Boyd et al. 2000) but the origin of the DMS enhancement is unclear
The questions to be addressed experimentally during KEOPS:
• How important are iron-mediated blooms for DMS production in SO waters?
• Which biogeochemical processes are involved in DMS production in
iron-mediated blooms?
Oxidation pathways of DMS in the atmosphere
Wet
Dry
SO2
OH
NO3
DMS
OH, H2O2
Dry
Wet
SO4
O3
OH
OH
OH
DMS
aqueous
DMSO
Dry
OH
Wet
Monthly distribution of volume weighted mean
(VWM) concentration of methanesulfonate (MSA)
in rain water samples from Kerguelen Island.
Courtesy of Vagelis Baboukas (Univ. of Crete)
MSA
Dry
Wet
Port aux Français
KEOPS 1 will take place during the
late phase of the high DMS season
Are iron-mediated blooms responsible for DMS production in SO waters in late
summer? We will describe with high spatial resolution the sea surface DMS concentration
DMSP in the Kerguelen area during late summer
Results from cruise ANTARES 2 (Feb. 1994)
Particulate DMSP in the top 50m
36.1 ± 6.9 nM
28.2 ± 2.2 nM
M2
DMSP is the algal precursor of DMS
During cruise ANTARES 2,
particulate DMSP in the Plateau
was twice higher than offshore.
18.6 ± 1.3 nM
During the KEOPS experiments
we will:
• describe with high spatial resolution the concentration of particulate DMSP
in surface waters on the grid and along the transects
• investigate the factors controlling the availability of particulate DMSP (algal
taxonomy, nutritional status and growth limitation of phytoplankton communities)
OBEX 1
The impact of grazing on the release to solution of DMSPp
OBEX 2
• Microzooplankton and mesozooplankton grazing experiments using
55Fe-radiolabelled nano- and microphytoplancton.
-determination of the DMSPp-to- 55Fe ratio of phytoplancton
DMS(P)d release during grazing = DMSPp/ 55Fe x 55Fe release
-determination of gross release rates of DMS(P) d (Christaki et al. 96)
DMS(P)d release during grazing = net release + DMS(P) d loss rates
On-deck incubation
dDMS(P) d /dt
of < 0.8µm seawater
Demethylation of DMSPd
Bact. Removal of DMS
Photochemical removal of DMS
The impact of bacteria and solar radiation on the degradation
of DMSPd and DMS: OBEX 3
Effect of solar radiation:
The experimental protocols are under discussion and will be tested during
the June 2004 workshop in Banyuls/mer in the framework of the UVECO project
Bacteria:
According to the bacterial production, how much DMSPd is demethylated,
how much DMSPd is cleaved to DMS, how much DMS is removed by bacteria?
Short incubations of 0.8 µm filtered water (in the dark) where specific inhibitors
will be used (Glycine betaine GBT, dimethyldisulfide DMDS)
GBT
DMSPd
products
DMDS
DMS
products