Biogeochemical controls on ammonium accumulation in the surface layer of the Southern Ocean

Biogeosciences
Volume 19 (3): 715-741

Abstract. The production and removal of ammonium (NH+4) are essential upper-ocean nitrogen cycle pathways, yet in the Southern Ocean where NH+4 has been observed to accumulate in surface waters, its mixed-layer cycling remains poorly understood. For surface seawater samples collected between Cape Town and the Marginal Ice Zone in winter 2017, we found that NH+4 concentrations were 5-fold higher than is typical for summer and lower north than south of the Subantarctic Front (0.01–0.26 µM versus 0.19–0.70 µM). Our observations confirm that NH+4 accumulates in the Southern Ocean's winter mixed layer, particularly in polar waters. NH+4 assimilation rates were highest near the Polar Front (12.9 ± 0.4 nM d−1) and in the Subantarctic Zone (10.0 ± 1.5 nM d−1), decreasing towards the Marginal Ice Zone (3.0 ± 0.8 nM d−1) despite the high ambient NH+4 concentrations in these southernmost waters, likely due to the low temperatures and limited light availability. By contrast, rates of NH+4 oxidation were higher south than north of the Polar Front (16.0 ± 0.8 versus 11.1 ± 0.5 nM d−1), perhaps due to the lower-light and higher-iron conditions characteristic of polar waters. NH+4 concentrations were also measured along five transects of the Southern Ocean (Subtropical Zone to Marginal Ice Zone) spanning the 2018/19 annual cycle. These measurements reveal that mixed-layer NH+4 accumulation south of the Subantarctic Front derives from sustained heterotrophic NH+4 production in late summer through winter that, in net, outpaces NH+4 removal by temperature-, light-, and iron-limited microorganisms. Our observations thus imply that the Southern Ocean becomes a biological source of CO2 to the atmosphere in autumn and winter not only because nitrate drawdown is weak but also because the ambient conditions favour net heterotrophy and NH+4 accumulation.

Read more: https://bg.copernicus.org/articles/19/715/2022/

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The kinetics of ammonium uptake and oxidation across the Southern Ocean

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The role of inherited Pb in controlling the quality of speleothem U-Pb ages