Investigating the relation between aerosol optical depth, dimethylsulphide production and phytoplankton dynamics in the Antarctic Southern Ocean

--- Public Summary from Project --- Understanding the strength of possible biological feedbacks is crucial to the science of climate change. This project aims to improve our understanding of one such feedback, the biogenic production of dimethylsulphide (DMS) and its impact on atmospheric aerosols....

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Bibliographic Details
Other Authors: GABRIC, ALBERT (hasPrincipalInvestigator), GABRIC, ALBERT (processor), Australian Antarctic Data Centre (publisher)
Format: Dataset
Language:unknown
Published: Australian Antarctic Data Centre
Subjects:
biota
oceans
ICE GROWTH/MELT
EARTH SCIENCE
CRYOSPHERE
SEA ICE
MARINE ENVIRONMENT MONITORING
TRACE ELEMENTS
OCEAN CHEMISTRY
OPTICAL DEPTH
OCEAN OPTICS
MICROALGAE
BIOLOGICAL CLASSIFICATION
PLANTS
PHYTOPLANKTON
BIOSPHERE
AQUATIC ECOSYSTEMS
PLANKTON
CHLOROPHYLL
PIGMENTS
SPECIES LIFE HISTORY
ECOLOGICAL DYNAMICS
SPECIES/POPULATION INTERACTIONS
BIOMASS DYNAMICS
ECOSYSTEM FUNCTIONS
AEROSOL OPTICAL DEPTH
ALGAE
ANTARCTICA
AOD
BLOOM
CHL
DATE
DIMETHYLSULPHIDE
DMS
EASTERN ANTARCTICA
ROSS SEA
SATELLITE
SEAWIFS
SOUTHERN OCEAN
SULFUR
WEDDELL SEA
OCEAN &gt
SOUTHERN OCEAN &gt
GEOGRAPHIC REGION &gt
POLAR
Antarctic
Antarctic Ocean
Ross Sea
Southern Ocean
The Antarctic
Weddell
Weddell Sea
Antarc*
Antarctica
Sea ice
Online Access:https://researchdata.edu.au/investigating-relation-aerosol-southern-ocean/699855
https://doi.org/10.4225/15/574BBA6E621F5
https://data.aad.gov.au/metadata/records/ASAC_2319
http://nla.gov.au/nla.party-617536
Description
Summary:--- Public Summary from Project --- Understanding the strength of possible biological feedbacks is crucial to the science of climate change. This project aims to improve our understanding of one such feedback, the biogenic production of dimethylsulphide (DMS) and its impact on atmospheric aerosols. The Antarctic ocean is potentially a major source of DMS-derived aerosols. The project will investigate the coupling between satellite-derived aerosol optical depth, phytoplankton biomass and DMS production in the Antarctic Southern Ocean. From the abstract of the attached paper: We analysed the correlation between zonal mean satellite data on surface chlorophyll (CHL) and aerosol optical depth (AOD), in the Southern Ocean (in 5-degree bands between 50-70 degrees south) for the period 1997-2004), and in sectors of the Eastern Antarctic, Ross and Weddell Seas. Seasonality is moderate to strong in both CHL and AOD signatures throughout the study region. Coherence in the CHL and AOD time series is strong between 50-60 degrees south, however this synchrony is absent south of 60 degrees south. Marked interannual variability in CHL occurs south of 60 degrees south. We find a clear latitudinal difference in the cross-correlation between CHL and AOD, with the AOD peak preceding the CHL bloom by up to six weeks in the sea ice zone (SIZ). This is consistent with the ventilation of dimethysulphide (DMS) from sea-ice during melting, and supports field data that records high levels of sulfur species in sea-ice and surface seawater during ice-melt. The fields in this dataset are: Timeseries Worksheet: Date Mean Chlorophyll (mg CHL/cubic metre) Mean Aerosol Optical Depth (no units) 5 Day mean chlorophyll averages 5 day mean aerosol optical depth averages Correlation Worksheet: n - number lag r - correlation coefficient t - student t statistic Global Worksheet Column A = SeaWiFS filename Counter+1 is a counter to indicate the image number in series Date Mean Chlorophyll (mg CHL/cubic metre) Mean Aerosol Optical Depth (no units) Chlorophyll Standard Deviation Mean Aerosol Optical Depth Standard Deviation Chlorophyll Standard Error Mean Aerosol Optical Depth Standard Error Chlorophyll Count (the number of data 'pixels' in the image - the basic pixel size is 9x9km2) Mean Aerosol Optical Depth (the number of data 'pixels' in the image - the basic pixel size is 9x9km2)

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