Abstract
Abstract Onion is an important crop with significant roles in human diets. The growth, yield, and quality of vegetable crops, including onions, are more vulnerable to water stress than other crops. In this study, different levels of deficit irrigation (DI) as factor A (a1: 80%, a2: 70%, and a3: 60% of soil field capacity [FC]) and humic acid (HA) as factor B (b1: without and b2: with HA application) were evaluated on onion growth characteristics in a factorial design with four replications. The results showed that the interaction of DI and HA was significant on leaf protein, peroxidase (POD), superoxide dismutase (SOD), and on bulb protein and potassium (K) concentrations. The highest record of these traits was observed in a3b2 (highest DI with HA application), and their lowest was in those at first level of DI (a1). Leaf protein and, to a lesser extent, bulb protein were increased by DI and HA applications. DI at 60% but not at 70% FC significantly reduced bulb fresh weight. There was a gradual increase in leaf proline, soluble sugars, protein, catalase (CAT), POD, SOD activity, and bulb K by application of DI; however, most of bulb traits including protein, iron (Fe), zinc (Zn), and CAT and POD activity were increased only under highest DI level (a3: 60% FC). However, application of HA further increased the soluble sugars and protein concentration as well as the POD and SOD activities of leaves, and protein, Fe, K concentrations, and CAT activity of bulbs under DI. The results indicated that HA benefitted onion growth particularly under DI conditions.
Highlights
Agriculture is facing the world’s most complicated challenges including climate change, water crises, drought, soil degradation, and food insecurity [1]
Bulb dry weight (DW) percentage was significantly higher under a2 and a3 (70 and 60% field capacity (FC)) than a1 (80% FC; Table 2), whereas application of humic acid (HA) significantly reduced this trait compared to those plants without HA application (Table 3)
The results of ANOVA showed that the interaction effect of deficit irrigation (DI) and HA was significant on bulb K concentration at P < 0.05 (Table 1)
Summary
Agriculture is facing the world’s most complicated challenges including climate change, water crises, drought, soil degradation, and food insecurity [1]. Effective practical approaches are required to avoid or diminish the water stress dimensions on crop production These including application of modern irrigation systems, deficit irrigation (DI), changing the cultivation programs including cultivation date and season, crop types, cropping system, and application of some organic or inorganic effectors toward better water use efficiency or less crop water consumption [5,6]. Using all these techniques and strategies, water stress is not fully avoided in arid and semi-arid regions [7], but instead, they can induce partial mitigation on their adverse effects [8]. In this study, the growth characteristics of onion plants were evaluated under DI and HA application
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
