2024-03-29T12:12:42Zhttp://digital.csic.es/dspace-oai/requestoai:digital.csic.es:10261/254772020-11-19T07:17:12Zcom_10261_123com_10261_8col_10261_376
DIGITAL.CSIC
author
Vallina, Sergio M.
author
Simó, Rafel
author
Anderson, Thomas R.
author
Gabric, A.J.
author
Cropp, R.M.
author
Pacheco, J.M.
2008-02-06
Journal of Geophysical Research: Biogeosciences 113(G1): G01009 (2008)
2169-8953
10261/25477
10.1029/2007JG000415
2169-8961
A new one-dimensional model of DMSP/DMS dynamics (DMOS) is developed and applied to the Sargasso Sea in order to explain what drives the observed dimethylsulfide (DMS) summer paradox: a summer DMS concentration maximum concurrent with a minimum in the biomass of phytoplankton, the producers of the DMS precursor dimethylsulfoniopropionate (DMSP). Several mechanisms have been postulated to explain this mismatch: a succession in phytoplankton species composition towards higher relative abundances of DMSP producers in summer; inhibition of bacterial DMS consumption by ultraviolet radiation (UVR); and direct DMS production by phytoplankton due to UVR-induced oxidative stress. None of these hypothetical mechanisms, except for the first one, has been tested with a dynamic model. We have coupled a new sulfur cycle model that incorporates the latest knowledge on DMSP/DMS dynamics to a preexisting nitrogen/carbon-based ecological model that explicitly simulates the microbial-loop. This allows the role of bacteria in DMS production and consumption to be represented and quantified. The main improvements of DMOS with respect to previous DMSP/DMS models are the explicit inclusion of: solar-radiation inhibition of bacterial sulfur uptakes; DMS exudation by phytoplankton caused by solar-radiation-induced stress; and uptake of dissolved DMSP by phytoplankton. We have conducted a series of modeling experiments where some of the DMOS sulfur paths are turned “off” or “on,” and the results on chlorophyll-a, bacteria, DMS, and DMSP (particulate and dissolved) concentrations have been compared with climatological data of these same variables. The simulated rate of sulfur cycling processes are also compared with the scarce data available from previous works. All processes seem to play a role in driving DMS seasonality. Among them, however, solar-radiation-induced DMS exudation by phytoplankton stands out as the process without which the model is unable to produce realistic DMS simulations and reproduce the DMS summer paradox
eng
openAccess
Biogeochemical modeling
DMS summer paradox
Phytoplankton DMS exudation
Sargasso Sea
Dimethylsulfide
DMS
A dynamic model of oceanic sulfur (DMOS) applied to the Sargasso Sea: Simulating the dimethylsulfide (DMS) summer paradox
artículo
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https://digital.csic.es/bitstream/10261/25477/3/Vallina_et_al_2008.pdf
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