Authigenic Iron Is a Significant Component of Oceanic Labile Particulate Iron Inventories

Particulate phases transport trace metals (TM) and thereby exert a major control on TM distribution in the ocean. Particulate TMs can be classified by their origin as lithogenic (crustal material), biogenic (cellular), or authigenic (formed in situ), but distinguishing these fractions analytically in field samples is a challenge often addressed using operational definitions and assumptions. These different phases require accurate characterization because they have distinct roles in the biogeochemical iron cycle. Particles collected from the upper 2,000 m of the northwest subtropical Atlantic Ocean over four seasonal cruises throughout 2019 were digested with a chemical leach to operationally distinguish labile particulate material from refractory lithogenics. Direct measurements of cellular iron (Fe) were used to calculate the biogenic contribution to the labile Fe fraction, and any remaining labile material was defined as authigenic. Total particulate Fe (PFe) inventories varied <15% between seasons despite strong seasonality in dust inputs. Across seasons, the total PFe inventory (+/- 1SD) was composed of 73 +/- 13% lithogenic, 18 +/- 7% authigenic, and 10 +/- 8% biogenic Fe above the deep chlorophyll maximum (DCM), and 69 +/- 8% lithogenic, 30 +/- 8% authigenic, and 1.1 +/- 0.5% biogenic Fe below the DCM. Data from three other ocean regions further reveal the importance of the authigenic fraction across broad productivity and Fe gradients, comprising ca. 20%-27% of total PFe.

Automated summary

Particulate phases play a major role in transporting trace metals in the ocean. These phases can be categorized into lithogenic, biogenic, or authigenic based on their origin. Accurate characterization of these phases is crucial as they have distinct functions in the biogeochemical iron cycle.