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Fertilizer Potential of Struvite as Affected by Nitrogen Form in the Rhizosphere

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  • Andrea Danaé Gómez-Suárez

    (UniLaSalle, AGHYLE, 60026 Beauvais, France
    Facultad de Ciencias Químicas, Universidad La Salle, Mexico City 06140, Mexico)

  • Cécile Nobile

    (UniLaSalle, AGHYLE, 60026 Beauvais, France)

  • Michel-Pierre Faucon

    (UniLaSalle, AGHYLE, 60026 Beauvais, France)

  • Olivier Pourret

    (UniLaSalle, AGHYLE, 60026 Beauvais, France)

  • David Houben

    (UniLaSalle, AGHYLE, 60026 Beauvais, France)

Abstract

Struvite is increasingly considered a promising alternative to mined phosphorus (P) fertilizer. However, its solubility is very low under neutral to alkaline pH while it increases with acidification. Here, we investigated whether supplying ammonium to stimulate rhizosphere acidification might improve struvite solubility at the vicinity of roots and, ultimately, enhance P uptake by plants. Using a RHIZOtest design, we studied changes in soil pH, P availability and P uptake by ryegrass in the rhizosphere and bulk soil supplied with either ammonium or nitrate under three P treatments: no-P, triple super phosphate and struvite. We found that supplying ammonium decreased rhizosphere pH by more than three units, which in turn increased soluble P concentrations by three times compared with nitrate treatments. However, there was no difference between P treatments, which was attributed to the increase of soluble Al concentration in the rhizosphere, which subsequently controlled P availability by precipitating it under the form of variscite-like minerals (predicted using Visual MINTEQ). Moreover, although ammonium supply increased soluble P concentration, it did not improve P uptake by plants, likely due to the absence of P deficiency. Further studies, especially in low-P soils, are thus needed to elucidate the role of nitrogen form on P uptake in the presence of struvite. More generally, our results highlight the complexity of manipulating rhizosphere processes and stress the need to consider all the components of the soil-plant system.

Suggested Citation

  • Andrea Danaé Gómez-Suárez & Cécile Nobile & Michel-Pierre Faucon & Olivier Pourret & David Houben, 2020. "Fertilizer Potential of Struvite as Affected by Nitrogen Form in the Rhizosphere," Sustainability, MDPI, vol. 12(6), pages 1-11, March.
    • Handle: RePEc:gam:jsusta:v:12:y:2020:i:6:p:2212-:d:331787
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    References listed on IDEAS

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    1. Dawson, C.J. & Hilton, J., 2011. "Fertiliser availability in a resource-limited world: Production and recycling of nitrogen and phosphorus," Food Policy, Elsevier, vol. 36(Supplemen), pages 14-22, January.
    2. United Nations, 2016. "The Sustainable Development Goals 2016," Working Papers id:11456, eSocialSciences.
    3. Chad J. Penn & James J. Camberato, 2019. "A Critical Review on Soil Chemical Processes that Control How Soil pH Affects Phosphorus Availability to Plants," Agriculture, MDPI, vol. 9(6), pages 1-18, June.
    4. Dawson, C.J. & Hilton, J., 2011. "Fertiliser availability in a resource-limited world: Production and recycling of nitrogen and phosphorus," Food Policy, Elsevier, vol. 36(S1), pages 14-22.
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