Mitigating Water Stress and Enhancing Aesthetic Quality in Off-Season Potted <i>Curcuma</i> cv. ‘Jasmine Pink’ via Potassium Silicate Under Deficit Irrigation

Mitigating Water Stress and Enhancing Aesthetic Quality in Off-Season Potted <i>Curcuma</i> cv. ‘Jasmine Pink’ via Potassium Silicate Under Deficit Irrigation

<i>Curcuma</i> spp. is a popular ornamental crop valued for its vibrant appearance and suitability for both regular and off-season production. As global emphasis on freshwater conservation increases and with a demand for compact potted plants, reducing water use while maintaining high ae...

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Bibliographic Details
Main Authors: Vannak Sour, Anoma Dongsansuk, Supat Isarangkool Na Ayutthaya, Soraya Ruamrungsri, Panupon Hongpakdee
Format: Article
Language:English
Published: MDPI AG 2025-07-01
Series:Horticulturae
Subjects:
water use efficiency
water management
containerized ornamental plant
silicon
photosynthetic parameters
Online Access:https://www.mdpi.com/2311-7524/11/7/856
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Summary:<i>Curcuma</i> spp. is a popular ornamental crop valued for its vibrant appearance and suitability for both regular and off-season production. As global emphasis on freshwater conservation increases and with a demand for compact potted plants, reducing water use while maintaining high aesthetic quality presents a key challenge for horticulturists. Potassium silicate (PS) has been proposed as a foliar spray to alleviate plant water stress. This study aimed to evaluate the effects of PS on growth, ornamental traits, and photosynthetic parameters of off-season potted <i>Curcuma</i> cv. ‘Jasmine Pink’ under deficit irrigation (DI). Plants were subjected to three treatments in a completely randomized design: 100% crop evapotranspiration (ETc), 50% ETc, and 50% ETc with 1000 ppm PS (weekly sprayed on leaves for 11 weeks). Both DI treatments (50% ETc and 50% ETc + PS) reduced plant height by 7.39% and 9.17%, leaf number by 16.99% and 7.03%, and total biomass by 21.13% and 20.58%, respectively, compared to 100% ETc. Notably, under DI, PS-treated plants maintained several parameters equivalent to the 100% ETc treatment, including flower bud emergence, blooming period, green bract number, effective quantum yield of PSII (ΔF/Fm′), and electron transport rate (ETR). In addition, PS application increased leaf area by 8.11% and compactness index by 9.80% relative to untreated plants. Photosynthetic rate, ΔF/Fm′, and ETR increased by 31.52%, 13.63%, and 9.93%, while non-photochemical quenching decreased by 16.51% under water-limited conditions. These findings demonstrate that integrating deficit irrigation with PS foliar application can enhance water use efficiency and maintain ornamental quality in off-season potted <i>Curcuma</i>, promoting sustainable water management in horticulture.
ISSN:2311-7524

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