Revisiting N sub(2) fixation in Guerrero Negro intertidal microbial mats with a functional single-cell approach

Photosynthetic microbial mats are complex, stratified ecosystems in which high rates of primary production create a demand for nitrogen, met partially by N sub(2) fixation. Dinitrogenase reductase (nifH) genes and transcripts from Cyanobacteria and heterotrophic bacteria (for example, Deltaproteobac...

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Published in:The ISME Journal 2015-02, Vol.9 (2), p.485-496
Main Authors: Woebken, Dagmar, Burow, Luke C, Behnam, Faris, Mayali, Xavier, Schintlmeister, Arno, Fleming, Erich D, Prufert-Bebout, Leslie, Singer, Steven W, Cortes, Alejandro Lopez, Hoehler, Tori M, Pett-Ridge, Jennifer, Spormann, Alfred M, Wagner, Michael, Weber, Peter K, Bebout, Brad M
Format: Article
Language:English
Subjects:
Cyanobacteria
Lyngbya
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Summary:Photosynthetic microbial mats are complex, stratified ecosystems in which high rates of primary production create a demand for nitrogen, met partially by N sub(2) fixation. Dinitrogenase reductase (nifH) genes and transcripts from Cyanobacteria and heterotrophic bacteria (for example, Deltaproteobacteria) were detected in these mats, yet their contribution to N sub(2) fixation is poorly understood. We used a combined approach of manipulation experiments with inhibitors, nifH sequencing and single-cell isotope analysis to investigate the active diazotrophic community in intertidal microbial mats at Laguna Ojo de Liebre near Guerrero Negro, Mexico. Acetylene reduction assays with specific metabolic inhibitors suggested that both sulfate reducers and members of the Cyanobacteria contributed to N sub(2) fixation, whereas super(15)N sub(2) tracer experiments at the bulk level only supported a contribution of Cyanobacteria. Cyanobacterial and nifH Cluster III (including deltaproteobacterial sulfate reducers) sequences dominated the nifH gene pool, whereas the nifH transcript pool was dominated by sequences related to Lyngbya spp. Single-cell isotope analysis of super(15)N sub(2)-incubated mat samples via high-resolution secondary ion mass spectrometry (NanoSIMS) revealed that Cyanobacteria were enriched in super(15)N, with the highest enrichment being detected in Lyngbya spp. filaments (on average 4.4 at% super(15)N), whereas the Deltaproteobacteria (identified by CARD-FISH) were not significantly enriched. We investigated the potential dilution effect from CARD-FISH on the isotopic composition and concluded that the dilution bias was not substantial enough to influence our conclusions. Our combined data provide evidence that members of the Cyanobacteria, especially Lyngbya spp., actively contributed to N sub(2) fixation in the intertidal mats, whereas support for significant N sub(2) fixation activity of the targeted deltaproteobacterial sulfate reducers could not be found.
ISSN:1751-7362
DOI:10.1038/ismej.2014.144