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Enhancing the Yield and Technological Traits of Sugar Beet Through Seed Hydropriming and Foliar Application of Humic Acid in Late Planting Conditions

Document Type : Research Paper

Authors

1 Department of Plant Production and Genetics, Faculty of Agriculture, Bu-Ali Sina University, Hamedan, Iran

2 Plant Production and Genetics Department, Faculty of Agriculture, Bu Ali Sina University

3 Sugar Beet Research Department, Hamedan Agricultural and Natural Resources Research and Education Center, Hamedan, Iran

10.22059/jci.2024.373763.2876

Abstract

Objective: Considering that sugar beet planting can be delayed by factors such as excessive rainfall or the prioritization of water allocation to other crops early in the growing season, this field study evaluated the potential to mitigate the negative impacts of delayed planting on the yield and key technological traits of sugar beet by employing seed hydropriming and foliar application of humic acid.
Methods: This research was conducted in the cropping year 2021 in Asadabad, using a randomized complete block design with three replications in the form of a split-plot factorial arrangement. The planting dates of March 25th, April 8th, 22nd, and May 6th, were assigned to the main plots, and seed priming (hydropriming and non-primed) and foliar application of humic acid (water spray and six g.L-1 of humic acid) were arranged in a factorial design within the sub-plots. For the hydropriming treatment, seeds were soaked in water at 22 °C for 28 hours and then sown after returning to their initial moisture content.
Results: The combination of seed hydropriming and foliar application of humic acid compensated for the delayed planting effects on root yield until the third planting date. The lowest sodium and potassium contents in the roots were observed in the fourth and second planting dates, respectively, regardless of the hydropriming and humic acid foliar application treatments. The first planting date revealed that foliar application of humic acid singularly led to the maximum sodium accumulation in roots (5.45 meq.100 g-1). Conversely, the minimum potassium content in roots was found in the same planting date when both humic acid foliar application and seed hydropriming were employed (4.2 meq.100 g-1). The highest alkalinity was observed in the first planting date following humic acid foliar application, with a ratio of 4.38. Furthermore, a significant increase in alkalinity was observed in the fourth planting date with humic acid foliar application. The lowest amino nitrogen content was observed on the second planting date with hydropriming. Simultaneous application of hydropriming and humic acid increased white sugar content by 6.6, 9.4, and 6.8 percent on the first, second, and fourth planting dates, respectively. The highest white sugar yield was obtained on the first and second planting dates, with 15,054 and 15,895 kg.ha-1, respectively, using humic acid. Humic acid reduced molasses sugar content by 24 percent compared to water spray on the first planting date.
Conclusion: Based on the results, the simultaneous application of seed hydropriming and humic acid foliar application was beneficial in all planting dates. However, in case of a significant delay in planting date, seed hydropriming was more beneficial compared to humic acid foliar application.

Keywords

References
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Journal of Crops Improvement
Volume 26, Issue 4
January 2025
Pages 787-804
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