1. Single cell analyses reveal contrasting life strategies of the two main nitrifiers in the ocean.
- Author
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Kitzinger, Katharina, Marchant, Hannah K., Bristow, Laura A., Herbold, Craig W., Padilla, Cory C., Kidane, Abiel T., Littmann, Sten, Daims, Holger, Pjevac, Petra, Stewart, Frank J., Wagner, Michael, and Kuypers, Marcel M. M.
- Subjects
CELL analysis ,UREA compounds ,OCEAN ,CELL size ,OXIDIZING agents ,AMMONIA - Abstract
Nitrification, the oxidation of ammonia via nitrite to nitrate, is a key process in marine nitrogen (N) cycling. Although oceanic ammonia and nitrite oxidation are balanced, ammonia-oxidizing archaea (AOA) vastly outnumber the main nitrite oxidizers, the bacterial Nitrospinae. The ecophysiological reasons for this discrepancy in abundance are unclear. Here, we compare substrate utilization and growth of Nitrospinae to AOA in the Gulf of Mexico. Based on our results, more than half of the Nitrospinae cellular N-demand is met by the organic-N compounds urea and cyanate, while AOA mainly assimilate ammonium. Nitrospinae have, under in situ conditions, around four-times higher biomass yield and five-times higher growth rates than AOA, despite their ten-fold lower abundance. Our combined results indicate that differences in mortality between Nitrospinae and AOA, rather than thermodynamics, biomass yield and cell size, determine the abundances of these main marine nitrifiers. Furthermore, there is no need to invoke yet undiscovered, abundant nitrite oxidizers to explain nitrification rates in the ocean. Ammonia oxidizing archaea and Nitrospinae are the main known nitrifiers in the ocean, but the much greater abundance of the former is puzzling. Here, the authors show that differences in mortality, rather than thermodynamics, cell size or biomass yield, explain the discrepancy, without the need to invoke yet undiscovered, abundant nitrite oxidizers. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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