Abstract
In soils managed to have adequate to high Mehlich-3 phosphorus (P) concentrations throughout the US Maize Belt, the majority of crop P is soil-derived. Struvite, a low water solubility ammonium phosphate fertilizer, may be therefore substituted for relatively high water-soluble monoammonium phosphate (MAP) without adversely impacting maize (Zea mays L.) P uptake and growth, while minimizing fertilizer P loss risk. We determined the relative contribution of struvite and MAP to maize P uptake and soil solution P in soils representative of the US Maize Belt by radiolabelling fertilizers with 33P. We found 8% (struvite) to 22% (MAP) of early-to-mid vegetative growth stage (V7) maize P was fertilizer-derived, and thus, 78%–92% was soil-derived. Despite similar aboveground P uptake and maize growth, maize P use efficiency (PUE) determined directly by 33P was <5% for MAP (4.9%) and struvite (1.9%) indicating that in soils with adequate to high crop-available P, early season fertilizer PUE is relatively low. If prorated to harvest stage, in-season PUE was estimated to be 8% for struvite and 20% for MAP. MAP and struvite did not differ in relative contributions to water-extractable P, a proxy for P loss risk, potentially reflecting lag effects in struvite P dissolution and/or the relatively fine particle size of synthesized fertilizers (<0.1 mm diameter). Since maize aboveground biomass and P uptake were similar for both struvite and MAP, struvite could be an effective P fertilizer for soils with adequate to high Mehlich-3 P concentrations common across the US Maize Belt.
Original language | English (US) |
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Article number | e13578 |
Journal | European Journal of Soil Science |
Volume | 75 |
Issue number | 5 |
DOIs | |
State | Published - Sep 1 2024 |
Keywords
- P
- Chernozem
- dissolution
- monoammonium phosphate
- phosphorus
- radioisotope method
- struvite
ASJC Scopus subject areas
- Soil Science