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Associative nitrogen fixation could be common in South African mesic grassland

Associative nitrogen fixation could be common in South African mesic grassland Non-symbiotic nitrogen-fixing bacterial diazotrophs closely associated with the roots of grasses probably contribute most of the new nitrogen acquired to sustain productive natural grasslands, yet their ecology is poorly understood, especially in southern Africa. We looked for genetic evidence, using qPCR and gel electrophoresis, for the presence of the bacterial nifH gene associated with the roots of four grass species (20 plants each) in a mesic grassland in South Arica, which would indicate the potential for N fixation by diazotrophs. Grasses most tolerant of low N (Aristida junciformis) were predicted to harbour the most diazotrophs, especially compared to those most responsive to fertiliser N (Eragrostis curvula). However, the nifH gene was found in all 80 root samples and did not differ in copy number between species. Sequencing of a representative sample confirmed the identity of the nifH gene. The recently burned half of the grassland had 60% more relative nifH gene copy numbers than the area burned 15 months previously, suggesting that grass growth stimulated by fire could recruit diazotrophs. Given their ubiquity and importance in the N economy of grasslands, research is required to characterise root-associated diazotroph communities, quantify their N fixation rates, and understand their environmental controls. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png African Journal of Range & Forage Science Taylor & Francis

Associative nitrogen fixation could be common in South African mesic grassland

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Associative nitrogen fixation could be common in South African mesic grassland

Abstract

Non-symbiotic nitrogen-fixing bacterial diazotrophs closely associated with the roots of grasses probably contribute most of the new nitrogen acquired to sustain productive natural grasslands, yet their ecology is poorly understood, especially in southern Africa. We looked for genetic evidence, using qPCR and gel electrophoresis, for the presence of the bacterial nifH gene associated with the roots of four grass species (20 plants each) in a mesic grassland in South Arica, which would...
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Publisher
Taylor & Francis
Copyright
© 2022 NISC (Pty) Ltd
ISSN
1727-9380
eISSN
1022-0119
DOI
10.2989/10220119.2022.2145615
Publisher site
See Article on Publisher Site

Abstract

Non-symbiotic nitrogen-fixing bacterial diazotrophs closely associated with the roots of grasses probably contribute most of the new nitrogen acquired to sustain productive natural grasslands, yet their ecology is poorly understood, especially in southern Africa. We looked for genetic evidence, using qPCR and gel electrophoresis, for the presence of the bacterial nifH gene associated with the roots of four grass species (20 plants each) in a mesic grassland in South Arica, which would indicate the potential for N fixation by diazotrophs. Grasses most tolerant of low N (Aristida junciformis) were predicted to harbour the most diazotrophs, especially compared to those most responsive to fertiliser N (Eragrostis curvula). However, the nifH gene was found in all 80 root samples and did not differ in copy number between species. Sequencing of a representative sample confirmed the identity of the nifH gene. The recently burned half of the grassland had 60% more relative nifH gene copy numbers than the area burned 15 months previously, suggesting that grass growth stimulated by fire could recruit diazotrophs. Given their ubiquity and importance in the N economy of grasslands, research is required to characterise root-associated diazotroph communities, quantify their N fixation rates, and understand their environmental controls.

Journal

African Journal of Range & Forage ScienceTaylor & Francis

Published: Dec 10, 2022

Keywords: asymbiotic nitrogen fixation; bacteria; diazotrophs; nifH gene

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