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Nitrogen Source and Rate Effects on Irrigated Potato in Tropical Sandy Soils
Author(s) -
Souza Emerson F. C.,
Soratto Rogério P.,
Fernandes Adalton M.,
Rosen Carl J.
Publication year - 2019
Publication title -
agronomy journal
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.752
H-Index - 131
eISSN - 1435-0645
pISSN - 0002-1962
DOI - 10.2134/agronj2018.03.0198
Subject(s) - ammonium sulfate , agronomy , nitrogen , sowing , nitrification , chemistry , urea , ammonium , ammonium nitrate , soil water , nitrate , solanum tuberosum , environmental science , biology , soil science , organic chemistry , chromatography
Core Ideas A suitable nitrogen source and optimum nitrogen rate can improve potato yield and nitrogen‐use efficiency in tropical sandy soils. Regardless of the nitrogen source, the nitrogen fertilization increased the potato tuber yield up to rates between 136 kg nitrogen ha −1 and at least 160 kg nitrogen ha −1 . Ammonium sulfate nitrate plus DMPP promoted greater total and marketable tuber yields than urea and higher agronomic efficiency compared to urea and ammonium sulfate. There is a potential for ammonium sulfate nitrate plus DMPP to improve the synchronization between soil nitrogen availability and potato nitrogen demand when potato is cultivated in a tropical sandy soil.A suitable N source and an optimal application rate can improve the N‐use efficiency of potato ( Solanum tuberosum L.) while minimizing N losses, especially when potato is grown in sandy soils. Three experiments were conducted at irrigated sandy soil sites in São Paulo State, Brazil, to evaluate the effects of ammonium sulfate (AMS), ammonium sulfate nitrate with the nitrification inhibitor 3,4‐dimethylpyrazole phosphate (ASN+DMPP), and urea applied at three N rates (80, 120, and 160 kg ha −1 ), as well as a zero‐N control on potato (cv. Agata). Leaf N and S concentrations, tuber yield, and agronomic efficiency (AE) were measured. The 80 kg N ha −1 rate was applied in the furrow at planting, and the other rates were split‐applied, with 40 kg N ha −1 in the furrow at planting and the remainder applied at hilling. Regardless of the N source, the N fertilizer rates increased the potato leaf N concentration and tuber bulking of the potato crop, which in turn increased the tuber yield up to rates between 136 kg N ha −1 and at least 160 kg N ha −1 . Among the N sources, ASN+DMPP fertilizer resulted in a higher potato tuber set and yield than urea and led to the highest AE compared to AMS and urea. Overall, these results suggest the potential for ASN+DMPP to improve the synchronization between soil N availability and potato N demand and provide a more appropriate balance of N forms in the soil when potato is cultivated in sandy soils in a tropical climate.