Long-range transport of iron off the Antarctic Peninsula

Antarctic continental sediments are an important source of bio-essential elements such as iron (Fe) to the Southern Ocean. However, the longevity of sedimentary Fe signal and Fe cycling in coastal Antarctic waters, remain poorly constrained. By combining measurements of dissolved Fe concentrations ([dFe]) and iron isotope compositions (δ⁵⁶Fe) along a transect from the Antarctic Peninsula to the central Weddell Sea (GEOTRACES Process Study GApr12), Tian and co-authors show that elevated [dFe] near shelf sediments (up to 7.14 nmol L⁻¹), together with low δ⁵⁶Fe values (down to -1.38‰), indicate that reductive dissolution of Fe(III) minerals in shelf sediments is the dominant mechanism releasing Fe into the water column. This isotopically light signal persists offshore as a δ⁵⁶Fe minimum (-0.66 to -0.34‰) at ~200-500 m depth across the continental slope and the central Weddell Sea where Fe is often limited, following a density layer (isopycnal 28.1-28.2 kg m⁻³). The pattern indicates lateral advection of sedimentary Fe from the Antarctic Peninsula shelf into the central Weddell Sea and supports the use of δ⁵⁶Fe as a tracer of reductive sedimentary Fe inputs to the open ocean. In addition, the study shows that as shelf waters descend along the continental slope to form precursor Weddell Sea Bottom Water, [dFe] decreases by ~60% while δ⁵⁶Fe increases by ~1‰. This shift reflects mixing with Warm Deep Water and Weddell Sea Deep Water, highlighting the key role of physical mixing in regulating Fe cycling in deep ocean waters.

Reference:

Tian, H.-A., van Manen, M., Bunnell, Z. B., Reichart, G.-J., Conway, T. M., & Middag, R. (2026). Iron isotope constraints on source and transport of sediment-derived dissolved Fe in the Weddell Sea region. Geochimica et Cosmochimica Acta. Access the paper: 10.1016/j.gca.2026.01.033