Heterotrophic N.sub.2-fixation contributes to nitrogen economy of a common wetland sedge, Schoenoplectus californicus

A survey of the ecological variability within 52 populations of Schoenoplectus californicus (C.A. Mey.) Soják across its distributional range revealed that it is commonly found in nitrogen (N) limited areas, but rarely in phosphorus limited soils. We explored the hypothesis that S. californicus supp...

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Veröffentlicht in:	PloS one 2018-04, Vol.13 (4), p.e0195570
Hauptverfasser:	Sirová, Dagmara, Bárta, Jirí, Rejmánková, Eliska, Carpenter, Heather, Castle, Stephanie T
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Sprache:	eng
Schlagworte:	Biological research Cyperaceae Environmental aspects Host-bacteria relationships Nitrogen fixation Nitrogen-fixing microorganisms Physiological aspects Plant physiology
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description	A survey of the ecological variability within 52 populations of Schoenoplectus californicus (C.A. Mey.) Soják across its distributional range revealed that it is commonly found in nitrogen (N) limited areas, but rarely in phosphorus limited soils. We explored the hypothesis that S. californicus supplements its nitrogen demand by bacterial N.sub.2 -fixation processes associated with its roots and rhizomes. We estimated N.sub.2 -fixation of diazotrophs associated with plant rhizomes and roots from several locations throughout the species' range and conducted an experiment growing plants in zero, low, and high N additions. Nitrogenase activity in rhizomes and roots was measured using the acetylene reduction assay. The presence of diazotrophs was verified by the detection of the nifH gene. Nitrogenase activity was restricted to rhizomes and roots and it was two orders of magnitude higher in the latter plant organs (81 and 2032 nmol C.sub.2 H.sub.4 g DW.sup.-1 d.sup.-1, respectively). Correspondingly, 40x more nifH gene copies were found on roots compared to rhizomes. The proportion of the nifH gene copies in total bacterial DNA was positively correlated with the nitrogenase activity. In the experiment, the contribution of fixed N to the plant N content ranged from 13.8% to 32.5% among clones from different locations. These are relatively high values for a non-cultivated plant and justify future research on the link between N-fixing bacteria and S. californicus production.
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Mey.) Soják across its distributional range revealed that it is commonly found in nitrogen (N) limited areas, but rarely in phosphorus limited soils. We explored the hypothesis that S. californicus supplements its nitrogen demand by bacterial N.sub.2 -fixation processes associated with its roots and rhizomes. We estimated N.sub.2 -fixation of diazotrophs associated with plant rhizomes and roots from several locations throughout the species' range and conducted an experiment growing plants in zero, low, and high N additions. Nitrogenase activity in rhizomes and roots was measured using the acetylene reduction assay. The presence of diazotrophs was verified by the detection of the nifH gene. Nitrogenase activity was restricted to rhizomes and roots and it was two orders of magnitude higher in the latter plant organs (81 and 2032 nmol C.sub.2 H.sub.4 g DW.sup.-1 d.sup.-1, respectively). Correspondingly, 40x more nifH gene copies were found on roots compared to rhizomes. 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source	Public Library of Science (PLoS) Journals Open Access; DOAJ Directory of Open Access Journals; EZB-FREE-00999 freely available EZB journals; PubMed Central; Free Full-Text Journals in Chemistry
subjects	Biological research Cyperaceae Environmental aspects Host-bacteria relationships Nitrogen fixation Nitrogen-fixing microorganisms Physiological aspects Plant physiology
title	Heterotrophic N.sub.2-fixation contributes to nitrogen economy of a common wetland sedge, Schoenoplectus californicus
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