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Silicon effects on soil phosphorus availability: results obtained depend on the method used

Peter Onyisi Uhuegbue, Mathias Stein, Karsten Kalbitz, Jörg Schaller

2024Frontiers in Environmental Science9 citationsDOIOpen Access PDF

Abstract

Phosphorus limitation occurs in many soils as a significant amount of soil P is retained in forms inaccessible to plants, such as bound to iron (Fe) minerals. Prior studies have shown that silicon (Si) can mobilize P from the binding sites of such minerals. Several P extraction methods have been developed to account for different P pools. Nevertheless, each of those methods uses different extractants and mechanisms to extract different P pools in soils. However, there is no study comparing different P extraction methods in the presence of Si fertilization. We tested the effect of Si on P mobility and determined the efficiency of water, Calcium acetate lactate (CAL), Mehlich-III, and Bray and Kurtz extraction methods for extracting P in the presence of amorphous silica (ASi) fertilization using two soils of contrasting characteristics. Significantly higher amounts of P were found at 3% ASi treatments (10 and 21 mg P kg -1 ) compared to the control (4 and 10 mg P kg -1 ) in the water extract in the high and low-yield soil, respectively just after 6 hours of extraction and increased with time. This may be explained by Si directly competing with P for sorption to Fe minerals. Using CAL extraction, Si addition showed no effect on P extractability. In contrast, the Mehlich-III and Bray extraction methods showed decreasing P extractability, especially at 3% ASi treatment (95 and 60 mg P kg -1 ) compared to the control (115 and 80 mg P kg -1 ) for the high-yield soil. The decreasing P contents in the presence of Si found in the Mehlich-III and Bray extracts may be attributed to the decrease in extraction effectiveness of the extractants to extract P while extracting Si and Fe. Our results showed that the Mehlich-III and Bray extraction methods may not be suitable for the determination of P availability in the presence of ASi fertilization since both extractants also extract Si and this may limit the completeness of P extraction. Therefore, in the presence of Si fertilizer, the water extraction method may be suitable to determine P availability and mobilization due to ASi.

Topics & Concepts

Extraction (chemistry)Soil waterPhosphorusChemistryYield (engineering)Human fertilizationSiliconSorptionEnvironmental chemistryAgronomyChromatographySoil scienceGeologyMetallurgyMaterials scienceBiologyOrganic chemistryAdsorptionSilicon Effects in AgricultureClay minerals and soil interactionsArsenic contamination and mitigation
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