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P-dipping of rice seedlings increases applied P use efficiency in high P-fixing soils

Aung Zaw Oo, Yasuhiro Tsujimoto, Njato Mickaël Rakotoarisoa, Kensuke Kawamura, Tomohiro Nishigaki

2020Scientific Reports32 citationsDOIOpen Access PDF

Abstract

Applied phosphorus (P) use efficiency is generally low due to the low mobility of P in soil and its affinity to form insoluble complexes. Localized P application nearby the root zone is a potential approach to overcome this issue in crop production. However, the interaction with soil conditions is little understood, which results in less effective application of this approach. Using root-box experiments and changing P-retention capacity of soils, we revealed that applied P use efficiency of rice can be substantially improved by dipping seedlings in P-enriched slurry at transplanting (P-dipping) even in highly P-fixing soils. Spatial analysis of soluble P in soils indicated that P-dipping creates a P hotspot because the P-enriched slurry is transferred with seedling roots. The P hotspot could have induced vigorous surface root and facilitated further P uptake from the spot. In contrast, the effect of conventional P incorporation depended on P-retention capacity of soils; no increases in soluble P content in soils or plant P uptakes were observed when P-retention capacity was high. Our finding of significant interaction between localized P application and a specific soil property should help improving applied P use efficiency and achieving sustainable rice production against depleting P fertilizer resources.

Topics & Concepts

Soil waterTransplantingSeedlingSlurryFertilizerChemistryAgronomyRice plantHorticultureBiologyEnvironmental scienceSoil scienceEnvironmental engineeringPlant nutrient uptake and metabolismRice Cultivation and Yield ImprovementSoil Carbon and Nitrogen Dynamics