Synthesis and Characterization of Novel Dualcapped Zn–Urea Nanofertilizers and Application in Nutrient Delivery in Wheat
| Author | Christian O. Dimkpa | |
| Author | Maria G. N. Campos | |
| Author | Job Fugice | |
| Author | Katherine Glass | |
| Author | Ali Ozcan | |
| Author | Ziyang Huang | |
| Author | Upendra Singh | |
| Author | Swadeshmukul Santra | |
| Date of acession | 2023-08-31T05:41:07Z | |
| Date of availability | 2023-08-31T05:41:07Z | |
| Date of issue | 2022-01-07 | |
| Abstract | Nanoscale nutrients are promising for improving crop performance. However, size-induced potential for drifting, segregation, or transformation warrants strategies to streamline fertilization regimes. Herein, we developed three nanofertilizers by coating urea granules with Zn nanoparticles capped with binary capping agents: N-acetyl cysteine (NAC) and sodium salicylate (SAL); NAC and urea; or SAL and urea. Coating was accomplished at 80–100% efficiencies. When evaluated in sorghum through soil application at 6.4 (rate-1) and 2.1 (rate-2) mg Zn per kg soil, the nanofertilizers influenced sorghum performance, plant accumulation, and soil retention of Zn, N, and P comparably with the control (Zn-sulfate). However, SAL–urea–Zn, NAC–SAL–Zn, and NAC–urea–Zn nanofertilizers evoked rate-dependent significant (P < 0.05) effects compared to Zn-sulfate. Early SPAD (chlorophyll) counts were significant with SAL–urea–Zn rate-1, compared to Zn-sulfate. NAC–SAL–Zn and SAL–urea–Zn rate-1 significantly increased shoot biomass, compared to Zn-sulfate. Notably, NAC–urea–Zn rate-2 strongly promoted grain or total above-ground Zn or N accumulation compared to SAL–urea–Zn rate-1, NAC–SAL–Zn rate-1, or NAC–urea–Zn rate-1, indicating that a lower rate of Zn can be used for NAC–urea–Zn to facilitate Zn and N delivery. Residual soil Zn was significantly higher with NAC–SAL–Zn rate-1, compared to Zn-sulfate. However, residual ammonium was significantly higher in Zn-sulfate, compared to other treatments, except for NAC–urea–Zn rate-2. Contrarily, residual P was significantly higher with SAL– urea–Zn rate-1 than with Zn-sulfate. These findings indicate that coating of urea with Zn nanoparticles can facilitate the application of nanoscale nutrients in agriculture, without any penalty on plant performance or nutrient delivery. | |
| Citation | Dimkpa, C.O., M.G.N. Campos, J. Fugice Jr., K. Glass, A. Ozcan, Z. Huang, U. Singh, and S. Santra. 2022. “Synthesis and Characterization of Novel Dual-Capped Zn–Urea Nanofertilizers and Application in Nutrient Delivery in Wheat,” Environmental Science Advances, 1:47-58. https://doi.org/10.1039/D1VA00016K | |
| URL | https://hub.ifdc.org/handle/20.500.14297/2350 | |
| Language | en_US | |
| Subject | Nutrients | |
| Subject | Wheat | |
| Title | Synthesis and Characterization of Novel Dualcapped Zn–Urea Nanofertilizers and Application in Nutrient Delivery in Wheat |