Medicinal Plants
Abolfazl Mohammadi Khorzani; Heshmat Omidi; Mohammad Hosein Bijeh Keshavarzi
Abstract
Purpose: This study investigated the effects of phosphorus, potassium, and humic acid fertilizers on growth, yield, and physiological traits of chicory under Arak’s climatic conditions using a factorial experiment. Research Method: The experiment was conducted in a randomized complete block design ...
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Purpose: This study investigated the effects of phosphorus, potassium, and humic acid fertilizers on growth, yield, and physiological traits of chicory under Arak’s climatic conditions using a factorial experiment. Research Method: The experiment was conducted in a randomized complete block design with three replications. Experimental factors included levels of phosphorus fertilizer (0, 8 and 12 kgha-1), potassium fertilizer (0, 10 and 15 kgha-1), and humic acid (0, 0.5 and 2 kgha-1). Findings The results showed that the highest Leaf Area Index was observed in the treatment of 12kg/ha phosphorus+10 kg/ha potassium sulfate+2 kg/ha humic acid, with a mean of 2.9. The highest number of flowers and the highest total chlorophyll content were obtained in 12 kg/ha phosphorus + 10 kg/ha potassium sulfate + 0.5 kg/ha humic acid treatment with averages of 49.11 per plant and 39.5µg/g FW respectively. The highest flower yield was in 10 kg/ha potassium sulfate treatment with an average of 330.6 kgha-1. The highest content of free proline was obtained in 8 kg/ha phosphorus+15kg/ha potassium sulfate+2 kg/ha humic acid treatment with 0.97μmol/g FW. Combined phosphorus, potassium, and humic acid application significantly improved chicory growth, yield, and physiology, increasing leaf area index, flower number/yield, shoot yield, biomass, and chlorophyll content, while decreasing free proline. Research limitations: No significant limitations were identified in this study. Originality/Value: To maximize chicory growth and yield in the specific climatic conditions of this study, a balanced fertilizer application is crucial, as excessive fertilization can be harmful. This study suggests a combination of 8 kg/ha of superphosphate, 10kg/ha of potassium sulfate, and 0.5 kg/ha of humic acid powder. Future research should focus on understanding how these nutrients affect chicory at a mechanistic level and on evaluating the long-term consequences of various fertilization programs for soil fertility and environmental health.
