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Chemical microenvironments and single-cell carbon and nitrogen uptake in field-collected colonies of Trichodesmium under different pCO(2)

Gradients of oxygen (O-2) and pH, as well as small-scale fluxes of carbon (C), nitrogen (N) and O-2 were investigated under different partial pressures of carbon dioxide (pCO(2)) in field-collected colonies of the marine dinitrogen (N-2)-fixing cyanobacterium Trichodesmium. Microsensor measurements...

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Published in:	The ISME Journal 2017, Vol.11 (6), p.1305
Main Authors:	Eichner, Meri J., Klawonn, Isabell, Wilson, Samuel T., Littmann, Sten, Whitehouse, Martin J., Church, Matthew J., Kuypers, Marcel M. M., Karl, David M., Ploug, Helle
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Language:	English
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container_title	The ISME Journal
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creator	Eichner, Meri J. Klawonn, Isabell Wilson, Samuel T. Littmann, Sten Whitehouse, Martin J. Church, Matthew J. Kuypers, Marcel M. M. Karl, David M. Ploug, Helle
description	Gradients of oxygen (O-2) and pH, as well as small-scale fluxes of carbon (C), nitrogen (N) and O-2 were investigated under different partial pressures of carbon dioxide (pCO(2)) in field-collected colonies of the marine dinitrogen (N-2)-fixing cyanobacterium Trichodesmium. Microsensor measurements indicated that cells within colonies experienced large fluctuations in O-2, pH and CO2 concentrations over a day-night cycle. O-2 concentrations varied with light intensity and time of day, yet colonies exposed to light were supersaturated with O-2 (up to similar to 200%) throughout the light period and anoxia was not detected. Alternating between light and dark conditions caused a variation in pH levels by on average 0.5 units (equivalent to 15 nmol l(-1) proton concentration). Single-cell analyses of C and N assimilation using secondary ion mass spectrometry (SIMS; large geometry SIMS and nanoscale SIMS) revealed high variability in metabolic activity of single cells and trichomes of Trichodesmium, and indicated transfer of C and N to colony-associated non-photosynthetic bacteria. Neither O-2 fluxes nor C fixation by Trichodesmium were significantly influenced by short-term incubations under different pCO(2) levels, whereas N-2 fixation increased with increasing pCO(2). The large range of metabolic rates observed at the single-cell level may reflect a response by colony-forming microbial populations to highly variable microenvironments.
doi_str_mv	10.1038/ismej.2017.15
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title	Chemical microenvironments and single-cell carbon and nitrogen uptake in field-collected colonies of Trichodesmium under different pCO(2)
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