期刊
PLANT AND SOIL
卷 438, 期 1-2, 页码 297-311出版社
SPRINGER
DOI: 10.1007/s11104-019-04008-x
关键词
Nanofertilizer; Colloidal phosphorus; Phosphorus bioavailability
资金
- FWO-Research Foundation Flanders
AimsThe low phosphorus (P) fertilizer use efficiency in weathered, P deficient soils calls for better fertilizer formulations. We previously formulated nanoparticles containing P (NP-P) that were a successful fertilizer in nutrient solution. This study was set up to test the fate and the bioavailability of nanofertilizer-P and of that of native (colloid) P naturally present in soil.MethodsThe NP-P consisted of nano-ferrihydrite (similar to 10nm) loaded with phosphate (P-nFh) and stabilized with either natural organic matter (NOM) or hexametaphosphate (HMP). Natural colloid concentrations were increased with KOH addition, as deflocculating agent, to soil; all tests used samples from P deficient, highly weathered soils.ResultsPot trials with rice seedlings did not reveal larger P uptake in the NP-P amended soils compared to equal doses of soluble PO4 or soluble HMP. Total Fe concentrations in soil solutions were unaffected by NP-P addition, whereas natural colloidal Fe and P markedly increased by KOH addition. The bioavailability of native colloidal P, mobilized by KOH addition, could not be assessed due to lack of growth, likely related to collapse of the soil structure.ConclusionsThis study showed that P-loaded iron oxyhydroxide NPs insufficiently enhanced soluble P in soil to offer benefits over soluble fertilizers, likely because of a combined effect of lower diffusivity of NPs compared to P-i and lower bioavailability of NP-P than P-i. Smaller particles or small labile organic colloids might offer an improvement in both aspects.
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