Inoculation of Astragalus racemosus and Astragalus convallarius with selenium-hyperaccumulator rhizosphere fungi affects growth and selenium accumulation
Autor: | Stormy Dawn Lindblom, Benjamin Tracy, Elizabeth A. H. Pilon-Smits, Paige Schulz, Sirine C. Fakra, Jessica Landon |
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Rok vydání: | 2012 |
Předmět: |
Iron
chemistry.chemical_element Taproot Plant Science Biology Plant Roots Selenium Botany Genetics Magnesium Hyperaccumulator Biomass Rhizosphere Inoculation Lateral root Fungi Spectrometry X-Ray Emission Astragalus Plant biology.organism_classification Phytoremediation Astragalus chemistry Copper Plant Shoots Sulfur |
Zdroj: | Planta. 237:717-729 |
ISSN: | 1432-2048 0032-0935 |
DOI: | 10.1007/s00425-012-1789-5 |
Popis: | Little is known about how fungi affect plant selenium (Se) accumulation. Here we investigate the effects of two fungi on Se accumulation, translocation, and chemical speciation in the hyperaccumulator Astragalus racemosus and the non-accumulator Astragalus convallarius. The fungi, Alternaria astragali (A3) and Fusarium acuminatum (F30), were previously isolated from Astragalus hyperaccumulator rhizosphere. A3-inoculation enhanced growth of A. racemosus yet inhibited growth of A. convallarius. Selenium treatment negated these effects. F30 reduced shoot-to-root Se translocation in A. racemosus. X-ray microprobe analysis showed no differences in Se speciation between inoculation groups. The Astragalus species differed in Se localization and speciation. A. racemosus root-Se was distributed throughout the taproot and lateral root and was 90 % organic in the lateral root. The related element sulfur (S) was present as a mixture of organic and inorganic forms in the hyperaccumulator. Astragalus convallarius root-Se was concentrated in the extreme periphery of the taproot. In the lateral root, Se was exclusively in the vascular core and was only 49 % organic. These findings indicate differences in Se assimilation between the two species and differences between Se and S speciation in the hyperaccumulator. The finding that fungi can affect translocation may have applications in phytoremediation and biofortification. |
Databáze: | OpenAIRE |
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