Litcius/Paper detail

The kinetics of ammonium uptake and oxidation across the Southern Ocean

Mhlangabezi Mdutyana, Xin Sun, Jessica Burger, Raquel Flynn, Shantelle Smith, Natasha R. van Horsten, Alakendra N. Roychoudhury, Hélène Planquette, Eva Bucciarelli, Sandy Thomalla, Bess B. Ward, Sarah E. Fawcett

2022Limnology and Oceanography22 citationsDOI

Abstract

Abstract Central to the Southern Ocean's role in setting atmospheric CO 2 is the seasonal alternation between upward mixing of nutrients and their subsequent consumption by phytoplankton. Active nutrient cycling within the mixed layer, including the release of ammonium (NH 4 + ) and its removal by phytoplankton and nitrifiers, also affects Southern Ocean CO 2 drawdown, yet remains poorly understood. We conducted kinetics experiments across the Southern Ocean south of Africa to investigate the dependence of NH 4 + uptake (summer, winter) and oxidation (winter) on NH 4 + concentration. NH 4 + uptake followed a Michaelis–Menten function in both seasons, with the maximum rate ( V max ) decreasing poleward, apparently controlled mainly by light in winter and temperature in summer. The half‐saturation constant ( K m ) increased poleward with increasing ambient NH 4 + ([NH 4 + ] amb ) and was threefold higher in winter (150–405 nM) than in summer (41–115 nM), suggesting that summertime phytoplankton are adapted to low‐NH 4 + conditions while winter communities typically receive a higher NH 4 + supply. NH 4 + oxidation showed a high affinity for NH 4 + ( K m = 28–137 nM), suggesting a dominant role for ammonia‐oxidizing archaea, and followed a Michaelis–Menten curve only when [NH 4 + ] amb was ≤ 90 nM. V max was near‐constant across the region regardless of [NH 4 + ] amb , temperature, or light. From coincident mixed‐layer NH 4 + oxidation and iron measurements, we hypothesize that iron availability may (co‐)limit the V max of NH 4 + oxidation. If verified, this suggestion has implications for models that parameterize nitrification as a linear function of [NH 4 + ] amb . Additionally, iron depletion may limit the role of mixed‐layer nitrification, which is dominant in the winter Southern Ocean, in offsetting phytoplankton CO 2 drawdown annually.

Topics & Concepts

AmmoniumPhytoplanktonSaturation (graph theory)NutrientEnvironmental chemistryMixed layerChemistryKineticsNitrateNitrogenAmmoniaOceanographyGeologyOrganic chemistryPhysicsMathematicsQuantum mechanicsCombinatoricsMarine and coastal ecosystemsMicrobial Community Ecology and PhysiologyMarine Biology and Ecology Research