Improving phosphorus use efficiency and quantitative and qualitative yield of sugar beet through combined application of phosphorus and iron nanoparticles under different irrigation regimes
Katal, K., Alipour, A., Zahedi, H., Sharghi, Y., Alavifazel, M. (2024). Improving phosphorus use efficiency and quantitative and qualitative yield of sugar beet through combined application of phosphorus and iron nanoparticles under different irrigation regimes. EKB Journal Management System, 102(4), 726-742. doi: 10.21608/ejar.2024.308884.1570
Kamran Katal; Akbar Alipour; Hossein Zahedi; Younes Sharghi; Mojtaba Alavifazel. "Improving phosphorus use efficiency and quantitative and qualitative yield of sugar beet through combined application of phosphorus and iron nanoparticles under different irrigation regimes". EKB Journal Management System, 102, 4, 2024, 726-742. doi: 10.21608/ejar.2024.308884.1570
Katal, K., Alipour, A., Zahedi, H., Sharghi, Y., Alavifazel, M. (2024). 'Improving phosphorus use efficiency and quantitative and qualitative yield of sugar beet through combined application of phosphorus and iron nanoparticles under different irrigation regimes', EKB Journal Management System, 102(4), pp. 726-742. doi: 10.21608/ejar.2024.308884.1570
Katal, K., Alipour, A., Zahedi, H., Sharghi, Y., Alavifazel, M. Improving phosphorus use efficiency and quantitative and qualitative yield of sugar beet through combined application of phosphorus and iron nanoparticles under different irrigation regimes. EKB Journal Management System, 2024; 102(4): 726-742. doi: 10.21608/ejar.2024.308884.1570

Improving phosphorus use efficiency and quantitative and qualitative yield of sugar beet through combined application of phosphorus and iron nanoparticles under different irrigation regimes

Egyptian Journal of Agricultural Research
Article 7, Volume 102, Issue 4, December 2024, Page 726-742  XML PDF (1.6 MB)
Document Type: Original Article
DOI: 10.21608/ejar.2024.308884.1570
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Authors
Kamran Katal1; Akbar Alipour1; Hossein Zahedi email 1; Younes Sharghi1; Mojtaba Alavifazel2
1Department of Agronomy and Integrated Crop Research Center, Eslamshahr Branch, Islamic Azad University, Eslamshahr, Iran.
2Department of Agriculture, Science and Research Branch, Islamic Azad University, Iran.
Abstract
The main objective of this study was to investigate the interactions between phosphorus (P) and iron (Fe) fertilizers under different irrigation regimes and their effects on nutrient uptake, yield, and quality of sugar beet. The experiment was conducted at the Varamin Agricultural Research Station, Iran, during the 2021- 2022 growing seasons. The study used a split-plot design with three replications. The main factor consisted of three irrigation regimes (100%, 75%, and 50% of water requirement), and the sub-factor included six combinations of phosphorus (0, 75, and 150 kg/ha) and iron (0 and 5 kg/ha) fertilizers. Phosphorus use efficiency (PUE), phosphorus uptake efficiency (PUpE), and phosphorus utilization efficiency (PUtE) were measured. Results showed that severe water stress (50% of water requirement) reduced PUE by 25-30%, PUpE by 22-33%, PUtE by 26-37%, root yield by 26-35%, and white sugar yield by 26-37% compared to full irrigation. In contrast, the combined application of 150 kg/ha superphosphate with 5 kg/ha iron, depending on moisture conditions, increased PUE by 10-40%, PUpE by 14-55%, PUtE by 11-46%, root yield by 10-40%, and white sugar yield by 11-46% compared to the control (no fertilizer). This fertilizer combination also improved juice quality by decreasing sodium content by 25-32%, harmful nitrogen by 25-40%, and increasing potassium content by 21-25%, juice purity by 2.5-2.7%, and sucrose content by 0.4-1.3%. Overall, the balanced application of 150 kg/ha superphosphate with 5 kg/ha iron was the most effective fertilizer combination for improving phosphorus use efficiency, yield, and quality of sugar beet, even under water stress conditions.
Keywords
Sugar beet; phosphorus; iron; phosphorus use efficiency; water stress; yield; root quality
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