The influence of particle concentration and composition on the fractionation of ~(210)Po and ~(210)Pb along the North Atlantic GEOTRACES transect GA03

摘要

The,disequilibrium between Po-210 and Pb-210 has been used as a proxy for the particle flux from the upper ocean. The particle concentration and composition effect on the partitioning behavior of 210Po and 210Pb is, however, still unclear. Here, we investigate this association by comparing dissolved (< 0.45 mu m) and particulate (small: 1-51 mu m; large: > 51 mu m) Po-210 and Pb-210 activity with size-fractionated major particle concentration and composition data from the US GEOTRACES GA03 zonal transect cruises. We observed inverse relationships between partition coefficients (K-d) for the radionucli(d)es and the concentration of suspended particulate matter (SPM) in the water column, known as the "particle concentration effect." We examined the relationships between Po-210, Pb-210, and particle composition in the top 500 m by using Pearson pairwise correlations for individual phases and principal components analysis (PCA) for variations among multiple phases. In addition to these analyses, an end-member mixing model was developed to estimate K-d for Po-210 and Pb-210 in the small particulate size fraction from the compositional phases. The model predicted the range of observed K-d(Pb) well, but was unable to predict the observed K-d(Po) as consistently, possibly because of the bio-reactive nature of Po-210. Despite this, we found a strong relationship between Po-210 and both CaCO3 and POM, as well as between Pb-210 and both opal and lithogenic phases. All of our analyses demonstrated that the fractionation of Po-210 and Pb-210 differed between the margins and open ocean along the GA03 transect.