Abstract
In this study, we report our ocean general circulation model simulations of the global distribution of rare earth elements (REEs) in the ocean. As previously reported (Oka et al. in Glob Biogeochem Cycles 23:1–16, 2009), the vertical profiles of REEs in the North Pacific Ocean are strongly controlled by the reversible scavenging process, and the systematic differences between REEs can be reproduced in the model by selecting an appropriate model parameter which controls affinity to particles. We here demonstrate that the external REE input from the coastal regions also plays a role in controlling the vertical profiles of dissolved REE and their inter-basin differences. The role of the external inputs is especially important for light REEs, such as neodymium (Nd). The linear increase in Nd concentration in the North Pacific Ocean cannot be sufficiently reproduced by the reversible scavenging alone; rather, a combination of the reversible scavenging and the external inputs is necessary. On the other hand, the distribution of heavy REEs, such as lutetium (Lu), can be broadly reproduced without the external inputs, suggesting that Lu has similarity with conservative nutrient-like tracer. When compared with REE observations compiled from both the recently obtained GEOTRACES dataset and pre-GEOTRACES reported data, our simulations successfully reproduced the overall features of these observations. Observational data suggested that the vertical profiles of REEs are not the same among the basins; our model simulations demonstrate that this feature can be clearly reproduced by considering both the reversible scavenging and the external REE inputs from the coastal regions.
Highlights
Seawater contains various trace elements, some of which are known to play an important role in controlling the ocean biogeochemical cycles
We previously demonstrated that this systematic difference can be explained by differences in the values of KP between rare earth elements (REEs) (Oka et al 2009); lighter REEs adsorb onto particles more strongly than heavier REEs, which leads to differences in the vertical profiles
It is worth noting that realistic treatment of the external source of REEs in this study led to the improved vertical profile of Nd; the linearly increasing profile was more clearly reproduced in our CTL simulation than in results reported in Oka et al (2009)
Summary
Seawater contains various trace elements, some of which are known to play an important role in controlling the ocean biogeochemical cycles. The international GEOTRACES program is Neodymium (Nd) isotope has been recognized as a useful chemical tracer for investigating the modern and past ocean circulation (Lacan and Jeandel 2004a; Piotrowski et al 2004); it was selected as one of key parameters in the GETRACES program (van de Flierdt et al 2012). Nd belongs to the group of rare earth elements (REEs). REEs have similar chemical characteristics; they exhibit systematic differences because their ionic radii decrease with an increase in atomic number (Hathorne et al 2015). An investigation of the distribution of REEs in the ocean and their differences among REEs can provide an opportunity to gain deeper and more comprehensive understanding about what kinds of source
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