Dimethylsulfide and the algaPhaeocystis pouchetii in antarctic coastal waters

Gibson, John A.E.; Garrick, Russell C.; Burton, Harry R.; McTaggart, Andrew R.

doi:10.1007/bf01313276

Cited by 182 publications

(105 citation statements)

References 41 publications

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“…Significantly elevated concentrations are reported in the waters around mainland Britain (143), in the vicinity of blooms of the prymnesiophyte Phaeocystis pouchetii (15,65,66), and in some upwelled waters (11). These studies straddle or fall into one of two broad categories:…”

Section: That Looks Out On Nothing Nothing But a Great Spacementioning

confidence: 99%

“…This has been attributed to, varously, the uneven relationship between algal production and chlorophyll, algal speciation, physiological state of the phytoplankton, and different rates of removal for chlorophyll and DMS. Effort to correlate DMS with specific phytoplanton taxa (15,29,65,66,75,95,96,143) DMS from its algal source. These include both consumption and production processes, as detailed below.…”

Section: Biological and Chemical Controls On Dms Concentrationsmentioning

confidence: 99%

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Marine microbial production of dimethylsulfide from dissolved dimethylsulfoniopropionate

Ledyard¹

1993

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Section: That Looks Out On Nothing Nothing But a Great Spacementioning

confidence: 99%

Section: Biological and Chemical Controls On Dms Concentrationsmentioning

confidence: 99%

Marine microbial production of dimethylsulfide from dissolved dimethylsulfoniopropionate

Ledyard¹

1993

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“…are rich sources of the DMS precursor, dimethylsulphoniopropionate (DMSP) [Keller et al, 1989;Malin et al, 1993]. Blooms of E. huxleyi and Phaeocystis have been associated with high DMS concentrations [Gibson et al, 1990;Malin et al, 1993]. Gymnodinium spp was the only abundant, DMSP-rich species found during the ACE 1 intensive experiment ].…”

Section: Introductionmentioning

confidence: 99%

Oceanographic context of the First Aerosol Characterization Experiment (ACE 1): A physical, chemical, and biological overview

Griffiths¹,

Bates²,

Quinn³

et al. 1999

J. Geophys. Res.

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“…DMS is oxidized in the 49 atmosphere to MSA, which is deposited onto the ice sheet in snow [Gibson et al, 1990]. 50…”

Section: In Order To Assess Such Interactions Between the Marine Envimentioning

confidence: 99%

“…Changes in brine volume associated with increased permeability of sea-ice cover as it warms and thins have been shown to directly affect DMS and DMSP migration through the brine network in Antarctic sea ice, significantly contributing to the atmospheric sulfur budget [Tison et al, 2010]. DMS is oxidized in the atmosphere to MSA [Ravishankara et al, 1997], which is then deposited by solid precipitation onto the adjacent ice sheet [Saigne and Legrand, 1987;Gibson et al, 1990]. While oxidation of MSA is greatly reduced during polar darkness, the process has still been shown to occur year-round, depending primarily on the BrO oxidation pathway [Jourdain and Legrand, 2001;Breider et al, 2010].…”

Section: Introductionmentioning

confidence: 99%

Amundsen Sea sea-ice variability, atmospheric circulation, and spatial variations in snow isotopic composition from new West Antarctic firn cores

Criscitiello¹

2014

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Recent work has documented dramatic changes in the West Antarctic Ice Sheet (WAIS) over the past 30 years (e.g., mass loss, glacier acceleration, surface warming) due largely to the influence of the marine environment. WAIS is particularly vulnerable to largescale atmospheric dynamics that remotely influence the transport of marine aerosols to the ice sheet. Understanding seasonal-to decadal-scale changes in the marine influence on WAIS (particularly sea-ice concentration) is vital to our ability to predict future change. In this thesis, I develop tools that enable us to reconstruct the source and transport variability of marine aerosols to West Antarctica in the past. I validate new firn-core sea-ice proxies over the satellite era; results indicate that firn-core glaciochemical records from this dynamic region may provide a proxy for reconstructing Amundsen Sea and Pine Island Bay polynya variability prior to the satellite era. I next investigate the remote influence of tropical Pacific variability on marine aerosol transport to West Antarctica. Results illustrate that both source and transport of marine aerosols to West Antarctica are controlled by remote atmospheric forcing, linking local dynamics (e.g., katabatic winds) with large-scale teleconnections to the tropics (e.g., Rossby waves). Oxygen isotope records allow me to further investigate the relationship between West Antarctic firn-core records and temperature, precipitation origin, sea-ice variability, and large-scale atmospheric circulation. I show that the tropical Pacific remotely influences the source and transport of the isotopic signal to the coastal ice sheet. The regional firn-core array reveals a spatially varying response to remote tropical Pacific forcing. Finally, I investigate longer-term (~200 year) ocean and ice-sheet changes using the methods and results gleaned from the previous work. I utilize sea-ice proxies to reconstruct long-term changes in sea-ice and polynya variability in the Amundsen Sea, and show that the tropics remotely influence West Antarctica over decadal timescales. This thesis utilizes some of the highest-resolution, most coastal records in the region to date, and provides some of the first analyses of the seasonal-to decadal-scale controls on source and transport of marine aerosols to West Antarctica. , 1975]. The instability of WAIS is largely a consequence of its bedrock, which lies below sea level and slopes downward from the margins of the ice sheet to its interior. Removal of the fringing ice shelves may result in the rapid and irreversible inland migration of the grounding line [Thomas et al., 1979].While collapse is a low-probability, high-impact event, its potential contribution to sealevel rise (SLR) combined with recent changes in mass balance and outlet glacier velocities highlight the importance of focusing efforts on better understanding the dynamics in this key region. Pine Island and Thwaites Glaciers are two of the largest Antarctic contributors to recent SLR [Rignot et al., 2008; Shepherd et ...

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Dimethylsulfide and the algaPhaeocystis pouchetii in antarctic coastal waters

Cited by 182 publications

References 41 publications

Marine microbial production of dimethylsulfide from dissolved dimethylsulfoniopropionate

Marine microbial production of dimethylsulfide from dissolved dimethylsulfoniopropionate

Oceanographic context of the First Aerosol Characterization Experiment (ACE 1): A physical, chemical, and biological overview

Amundsen Sea sea-ice variability, atmospheric circulation, and spatial variations in snow isotopic composition from new West Antarctic firn cores

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