Intracellular nitrate storage by diatoms can be an important nitrogen pool in freshwater and marine ecosystems

Peter Stief; Clemens Schauberger; Marie B. Lund; Andreas Greve; Raeid M.M. Abed; Mohammad A.A. Al-Najjar; Karl Attard; Stefano Bonaglia; Jörg S. Deutzmann; Belén Franco-Cisterna; Emilio García-Robledo; Moritz Holtappels; Uwe John; Adele Maciute; Michael J. Magee; Rie Pors; Tina Santl-Temkiv; Anja Scherwass; Duygu S. Sevilgen; Dirk de Beer; Ronnie N. Glud; Andreas Schramm; Anja Kamp

doi:10.1038/s43247-022-00485-8

Intracellular nitrate storage by diatoms can be an important nitrogen pool in freshwater and marine ecosystems

Peter Stief^*, Clemens Schauberger, Marie B. Lund, Andreas Greve, Raeid M.M. Abed, Mohammad A.A. Al-Najjar, Karl Attard, Stefano Bonaglia, Jörg S. Deutzmann, Belén Franco-Cisterna, Emilio García-Robledo, Moritz Holtappels, Uwe John, Adele Maciute, Michael J. Magee, Rie Pors, Tina Santl-Temkiv, Anja Scherwass, Duygu S. Sevilgen, Dirk de BeerRonnie N. Glud, Andreas Schramm, Anja Kamp

^*Corresponding author for this work

Biology

Research output: Contribution to journal › Article › peer-review

10 Citations (Scopus)

Abstract

Identifying and quantifying nitrogen pools is essential for understanding the nitrogen cycle in aquatic ecosystems. The ubiquitous diatoms represent an overlooked nitrate pool as they can accumulate nitrate intracellularly and utilize it for nitrogen assimilation, dissipation of excess photosynthetic energy, and Dissimilatory Nitrate Reduction to Ammonium (DNRA). Here, we document the global co-occurrence of diatoms and intracellular nitrate in phototrophic microbial communities in freshwater (n = 69), coastal (n = 44), and open marine (n = 4) habitats. Diatom abundance and total intracellular nitrate contents in water columns, sediments, microbial mats, and epilithic biofilms were highly significantly correlated. In contrast, diatom community composition had only a marginal influence on total intracellular nitrate contents. Nitrate concentrations inside diatom cells exceeded ambient nitrate concentrations ∼100–4000-fold. The collective intracellular nitrate pool of the diatom community accounted for <1% of total nitrate in pelagic habitats and 65–95% in benthic habitats. Accordingly, nitrate-storing diatoms are emerging as significant contributors to benthic nitrogen cycling, in particular through Dissimilatory Nitrate Reduction to Ammonium activity under anoxic conditions.

Original language	English
Article number	154
Journal	Communications Earth and Environment
Volume	3
Issue number	1
DOIs	https://doi.org/10.1038/s43247-022-00485-8
Publication status	Published - Jul 4 2022

ASJC Scopus subject areas

General Environmental Science
General Earth and Planetary Sciences

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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Stief, P., Schauberger, C., Lund, M. B., Greve, A., Abed, R. M. M., Al-Najjar, M. A. A., Attard, K., Bonaglia, S., Deutzmann, J. S., Franco-Cisterna, B., García-Robledo, E., Holtappels, M., John, U., Maciute, A., Magee, M. J., Pors, R., Santl-Temkiv, T., Scherwass, A., Sevilgen, D. S., ... Kamp, A. (2022). Intracellular nitrate storage by diatoms can be an important nitrogen pool in freshwater and marine ecosystems. Communications Earth and Environment, 3(1), Article 154. https://doi.org/10.1038/s43247-022-00485-8

Stief, P, Schauberger, C, Lund, MB, Greve, A, Abed, RMM, Al-Najjar, MAA, Attard, K, Bonaglia, S, Deutzmann, JS, Franco-Cisterna, B, García-Robledo, E, Holtappels, M, John, U, Maciute, A, Magee, MJ, Pors, R, Santl-Temkiv, T, Scherwass, A, Sevilgen, DS, de Beer, D, Glud, RN, Schramm, A & Kamp, A 2022, 'Intracellular nitrate storage by diatoms can be an important nitrogen pool in freshwater and marine ecosystems', Communications Earth and Environment, vol. 3, no. 1, 154. https://doi.org/10.1038/s43247-022-00485-8

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abstract = "Identifying and quantifying nitrogen pools is essential for understanding the nitrogen cycle in aquatic ecosystems. The ubiquitous diatoms represent an overlooked nitrate pool as they can accumulate nitrate intracellularly and utilize it for nitrogen assimilation, dissipation of excess photosynthetic energy, and Dissimilatory Nitrate Reduction to Ammonium (DNRA). Here, we document the global co-occurrence of diatoms and intracellular nitrate in phototrophic microbial communities in freshwater (n = 69), coastal (n = 44), and open marine (n = 4) habitats. Diatom abundance and total intracellular nitrate contents in water columns, sediments, microbial mats, and epilithic biofilms were highly significantly correlated. In contrast, diatom community composition had only a marginal influence on total intracellular nitrate contents. Nitrate concentrations inside diatom cells exceeded ambient nitrate concentrations ∼100–4000-fold. The collective intracellular nitrate pool of the diatom community accounted for <1% of total nitrate in pelagic habitats and 65–95% in benthic habitats. Accordingly, nitrate-storing diatoms are emerging as significant contributors to benthic nitrogen cycling, in particular through Dissimilatory Nitrate Reduction to Ammonium activity under anoxic conditions.",

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AU - Schauberger, Clemens

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AU - Abed, Raeid M.M.

AU - Al-Najjar, Mohammad A.A.

AU - Attard, Karl

AU - Bonaglia, Stefano

AU - Deutzmann, Jörg S.

AU - Franco-Cisterna, Belén

AU - García-Robledo, Emilio

AU - Holtappels, Moritz

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AU - Maciute, Adele

AU - Magee, Michael J.

AU - Pors, Rie

AU - Santl-Temkiv, Tina

AU - Scherwass, Anja

AU - Sevilgen, Duygu S.

AU - de Beer, Dirk

AU - Glud, Ronnie N.

AU - Schramm, Andreas

AU - Kamp, Anja

PY - 2022/7/4

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N2 - Identifying and quantifying nitrogen pools is essential for understanding the nitrogen cycle in aquatic ecosystems. The ubiquitous diatoms represent an overlooked nitrate pool as they can accumulate nitrate intracellularly and utilize it for nitrogen assimilation, dissipation of excess photosynthetic energy, and Dissimilatory Nitrate Reduction to Ammonium (DNRA). Here, we document the global co-occurrence of diatoms and intracellular nitrate in phototrophic microbial communities in freshwater (n = 69), coastal (n = 44), and open marine (n = 4) habitats. Diatom abundance and total intracellular nitrate contents in water columns, sediments, microbial mats, and epilithic biofilms were highly significantly correlated. In contrast, diatom community composition had only a marginal influence on total intracellular nitrate contents. Nitrate concentrations inside diatom cells exceeded ambient nitrate concentrations ∼100–4000-fold. The collective intracellular nitrate pool of the diatom community accounted for <1% of total nitrate in pelagic habitats and 65–95% in benthic habitats. Accordingly, nitrate-storing diatoms are emerging as significant contributors to benthic nitrogen cycling, in particular through Dissimilatory Nitrate Reduction to Ammonium activity under anoxic conditions.

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Intracellular nitrate storage by diatoms can be an important nitrogen pool in freshwater and marine ecosystems

Abstract

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UN SDGs

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