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1. Aerosol and seawater beryllium-7 concentrations from the French GEOTRACES GS02 SWINGS cruise aboard R/V Marion-Dufresne (MD229) from January to March 2021

   https://doi.org/10.26008/1912/bco-dmo.927568.1  

   Stephens, Mark (January 2024, Biological and Chemical Oceanography Data Management Office (BCO-DMO))

   Beryllium-7, a cosmogenic radioactive isotope with a half-life of 53.3 days, is formed in the atmosphere, attaches to aerosol particles, and is deposited on the earth's surface through wet and dry processes. In this project, we measured Be-7 concentrations in aerosol particles and in seawater samples (depths < 200 meters) collected on the French GEOTRACES section GS02 SWINGS cruise aboard R/V Marion-Dufresne. The cruise originated at Réunion Island on 11 January 2021 and concluded at Réunion on 8 March 2021. Nineteen aerosol samples and seawater from eleven stations in the South Indian Ocean were collected. The dataset will be used to study the deposition of trace elements and isotopes (TEIs) and upper ocean mixing processes. Aerosol deposition is an important source of TE micronutrients to open ocean areas that are far removed from riverine sources. But, while the collection aerosol of samples for TEI analysis is straightforward, estimating the deposition flux also requires an appropriate deposition velocity (i.e. deposition flux is the product of the aerosol concentration and deposition velocity). Because Be-7 is supplied to the open ocean exclusively through aerosol deposition and it is removed through radioactive decay, the water column inventory and aerosol concentration of Be-7 can be used to derive the deposition velocity applicable to aerosol TEIs. 

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2. Beryllium-7 concentrations in aerosols, seawater, ice, snow and frost flowers from Multidisciplinary drifting Observatory for the Study of Arctic Climate (MOSAiC) expedition in the Central Arctic Ocean 2019-2020

   https://doi.org/10.18739/A2DJ58J0S  

   Stephens, Mark (January 2022, NSF Arctic Data Center)

   The Multidisciplinary drifting Observatory for the Study of Arctic Climate (MOSAiC) expedition was an international initiative in which research vessel (R/V) Polarstern drifted with the sea ice in the Central Arctic Ocean from October 2019 to September 2020. Here, we present data from a study in which Beryllium-7, a naturally occurring radioactive isotope with a half-life of 53 days, is used as a tracer for the atmospheric deposition of trace elements to the ocean / ice surface and their partitioning among the seawater, ice and snow catchments during winter and spring. The data sets include measurements of Be-7 in 1) aerosol particles collected on filters using a high volume sampler on Polastern, 2) seawater from the upper water column (8-60 meters depth) collected using the ship’s seawater intake system and using pumps on the ice floe, and 3) ice cores, snow, and frost flowers collected from sites on the MOSAiC and surrounding ice floes. Be-7 analysis was performed using high purity germanium gamma detectors. 

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3. Aerosol Deposition and Snow Accumulation Processes From Beryllium‐7 Measurements in the Central Arctic Ocean: Results From the MOSAiC Expedition

   https://doi.org/10.1029/2023JC020044  

   Stephens, Mark P.; Marsay, Chris M.; Schneebeli, Martin; Landing, William M.; Buck, Clifton S.; Geibert, Walter (February 2024, Journal of Geophysical Research: Oceans)

   Abstract We use a tracer method involving the cosmogenic radioisotope beryllium‐7 (half‐life = 53.3 days) to follow the deposition of aerosols and the fate of snow on the MOSAiC ice floe during winter and spring 2019–2020. When examined alongside data from earlier studies in the Arctic Ocean that covered summer and fall, Be‐7 inventories indicate a summertime peak for aerosol Be‐7 deposition fluxes coinciding with seasonal minima boundary‐level aerosol concentrations, which suggests that deposition fluxes are primarily controlled by precipitation. This conclusion is supported by the linear relationship between Be‐7 fluxes and precipitation rates derived from data from the MOSAiC and SHEBA expeditions. Inventories of Be‐7 within the snow column exhibited evidence of significant redistribution. Be‐7 deficits, relative to the flux, were observed in areas of level sea ice while excess Be‐7 was found associated with deformed ice features such as pressure ridges, leading to the following estimates for the distribution of snow on the ice floe in May 2020: 75–93% of the snow mass is found on deformed sea ice with the remainder on level ice. Furthermore, uncertainties associated with measurements of Be‐7 concentrations within the ocean mixed layer would allow for losses of snow through open leads of up to approximately 20% of the flux. Our snow distribution estimates agree with data from repeat snow depth transect measurements. These results suggest that Be‐7 can be a useful tool in studying snow redistribution. 

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4. I09N 2007 Total Suspended Matter Chemsitry

   https://doi.org/10.7942/c2mh2c  

   Barrett, Pamela (February 2026, CCHDO: CLIVAR and Carbon Hydrographic Data Office)

   This dataset is of the trace element composition (Al, Fe, P, Ca, Si) of suspended particulate matter samples collected in the Indian Ocean. Samples were collected in the upper 1000 m of the water column along U.S. CLIVAR/CO2 Repeat Hydrography meridional section IO9N in 2009 from the Bay of Bengal to the subtropical front. The eastern Indian Ocean and South Indian subtropical gyre are characterized by a transition from a biologically productive system with significant fluvial sediment transport and aerosol deposition in the Bay of Bengal to an oligotrophic gyre with potentially significant input of particles from continental margin sources but relatively low aeolian trace metal inputs. These data are the first ocean section of trace particulate chemistry in the South Indian and Southern Oceans. High resolution sampling in the upper ocean along CLIVAR sections provides an opportunity to determine likely sources for biogenic and lithogenic particles and investigate the processes that drive their cycling. Suspended particulate matter (SPM) was collected by pressure-filtering (<55 kPa, filtered compressed air) seawater through acid-washed, 0.4 μm track-etched polycarbonate filters (Millipore). Backing filters of mixed cellulose ester were used for even sample loading in polypropylene filter holders. The average filtration volume was 9 L. Filters were gently rinsed with deionized water adjusted to pH 8 with ammonium hydroxide (3 x ~5 mL) with a low vacuum applied while avoiding loss or redistribution of particles in order to remove residual seasalt, avoiding salt interferences in ED-XRF analyses. SPM samples were analyzed using energy-dispersive x-ray fluorescence (ED-XRF) on a Thermo Fisher Quant’X under a vacuum atmosphere and calibrated with both commercial and custom made thin film standards. 

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5. I05 2009 Total Suspended Matter Chemistry

   https://doi.org/10.7942/c2r949  

   Barrett, Pamela (February 2026, CCHDO: CLIVAR and Carbon Hydrographic Data Office)

   This dataset is of the trace element composition (Al, Fe, P, Ca, Si) of suspended particulate matter samples collected in the Indian Ocean. Samples were collected in the upper 1000 m of the water column along U.S. CLIVAR/CO2 Repeat Hydrography zonal section I05 in 2009 in the South Indian subtropical gyre. The eastern Indian Ocean and South Indian subtropical gyre are characterized by a transition from a biologically productive system with significant fluvial sediment transport and aerosol deposition in the Bay of Bengal to an oligotrophic gyre with potentially significant input of particles from continental margin sources but relatively low aeolian trace metal inputs. These data are the first ocean section of trace particulate chemistry in the South Indian and Southern Oceans. High resolution sampling in the upper ocean along CLIVAR sections provides an opportunity to determine likely sources for biogenic and lithogenic particles and investigate the processes that drive their cycling. Suspended particulate matter (SPM) was collected by pressure-filtering (<55 kPa, filtered compressed air) seawater through acid-washed, 0.4 μm track-etched polycarbonate filters (Millipore). Backing filters of mixed cellulose ester were used for even sample loading in polypropylene filter holders. The average filtration volume was 9 L. Filters were gently rinsed with deionized water adjusted to pH 8 with ammonium hydroxide (3 x ~5 mL) with a low vacuum applied while avoiding loss or redistribution of particles in order to remove residual seasalt, avoiding salt interferences in ED-XRF analyses. SPM samples were analyzed using energy-dispersive x-ray fluorescence (ED-XRF) on a Thermo Fisher Quant’X under a vacuum atmosphere and calibrated with both commercial and custom made thin film standards. 

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