AUTHOR=Roca-Martí Montserrat , Puigcorbé Viena , Castrillejo Maxi , Casacuberta Núria , Garcia-Orellana Jordi , Cochran J. Kirk , Masqué Pere TITLE=Quantifying 210Po/210Pb Disequilibrium in Seawater: A Comparison of Two Precipitation Methods With Differing Results JOURNAL=Frontiers in Marine Science VOLUME=8 YEAR=2021 URL=https://www.frontiersin.org/journals/marine-science/articles/10.3389/fmars.2021.684484 DOI=10.3389/fmars.2021.684484 ISSN=2296-7745 ABSTRACT=

The disequilibrium between lead-210 (²¹⁰Pb) and polonium-210 (²¹⁰Po) is increasingly used in oceanography to quantify particulate organic carbon (POC) export from the upper ocean. This proxy is based on the deficits of ²¹⁰Po typically observed in the upper water column due to the preferential removal of ²¹⁰Po relative to ²¹⁰Pb by sinking particles. Yet, a number of studies have reported unexpected large ²¹⁰Po deficits in the deep ocean indicating scavenging of ²¹⁰Po despite its radioactive mean life of ∼ 200 days. Two precipitation methods, Fe(OH)₃ and Co-APDC, are typically used to concentrate Pb and Po from seawater samples, and deep ²¹⁰Po deficits raise the question whether this feature is biogeochemically consistent or there is a methodological issue. Here, we present a compilation of ²¹⁰Pb and ²¹⁰Po studies that suggests that ²¹⁰Po deficits at depths >300 m are more often observed in studies where Fe(OH)₃ is used to precipitate Pb and Po from seawater, than in those using Co-APDC (in 68 versus 33% of the profiles analyzed for each method, respectively). In order to test whether ²¹⁰Po/²¹⁰Pb disequilibrium can be partly related to a methodological artifact, we directly compared the total activities of ²¹⁰Pb and ²¹⁰Po in four duplicate ocean depth-profiles determined by using Fe(OH)₃ and Co-APDC on unfiltered seawater samples. While both methods produced the same ²¹⁰Pb activities, results from the Co-APDC method showed equilibrium between ²¹⁰Pb and ²¹⁰Po below 100 m, whereas the Fe(OH)₃ method resulted in activities of ²¹⁰Po significantly lower than ²¹⁰Pb throughout the entire water column. These results show that ²¹⁰Po deficits in deep waters, but also in the upper ocean, may be greater when calculated using a commonly used Fe(OH)₃ protocol. This finding has potential implications for the use of the ²¹⁰Po/²¹⁰Pb pair as a tracer of particle export in the oceans because ²¹⁰Po (and thus POC) fluxes calculated using Fe(OH)₃ on unfiltered seawater samples may be overestimated. Recommendations for future research are provided based on the possible reasons for the discrepancy in ²¹⁰Po activities between both analytical methods.