Abstract
Pomegranate (Punica granatum L.) is a popular fruit crop known for its nutritional and health benefits. However, water scarcity in many regions of the world has necessitated the adoption of specific strategies to conserve water resources. This study aimed to investigate the impact of continuous deficit irrigation (CDI) on the chemical and biochemical traits of two pomegranate cultivars (cv. Sefri and cv. Wonderful) to assess their response to water stress and their potential adaptability to limited water availability. Therefore, during the developmental cycle of the pomegranate, three irrigation treatments were implemented: a control treatment in which irrigation was applied to fully satisfy crop evapotranspiration (100% ETc), and two CDI treatments, 70% ETc (CDI70) and 50% ETc (CDI50). The undertaken measurements encompassed an intricate examination of fruit chemical, color, and biochemical attributes, coupled with the meticulous quantification of juice phenolic compounds through high-performance liquid chromatography (HPLC) analysis. The results indicated that the influence of water stress on the quality attributes of pomegranate juice significantly varied depending on the genotype. In the ‘Sefri’ cultivar fruits, a pronounced negative impact of CDI was discerned, notably affecting total soluble solids and pH. Conversely, in the ‘Wonderful’ cultivar fruits, no discernible distinctions were identified across all chemical traits between the deficit irrigation treatments and the control fruits. Thus, a pronounced reduction in both total phenolic content and antioxidant activity coupled with an augmentation in hydrolysable tannin content was discerned across both cultivars subjected to CDI treatments. Concerning the impact of CDI on the phenolic fraction, the results revealed a significant reduction in the individual phenolic compounds except for epicatechin in both cultivars and caffeic acid in ‘Sefri’ cultivar fruits, where no effect of CDI was observed when compared to the fully irrigated fruits. In conclusion, given the remaining gaps in our understanding of the impact of continuous deficit irrigation on pomegranate tree resilience, this study represents an initial endeavor to explore water management in pomegranate cultivation within Mediterranean semiarid regions.
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Data availability
The datasets generated and/or analyzed in the course of this study are available from the corresponding author upon reasonable request.
Abbreviations
- CDI:
-
Continuous deficit irrigation
- TSS:
-
Total soluble solids
- TA:
-
Titratable acidity
- HPLC:
-
High Performance Liquid Chromatography
- ET0:
-
Reference evapotranspiration
- ETc:
-
Evapotranspiration
- TPC:
-
Total polyphenols content
- TAC:
-
Total anthocyanins content
- TF:
-
Total flavonoids
- PC:
-
Proteins content
- CTC:
-
Condensed tannins
- HTC:
-
Hydrolysable tannin content
- AA:
-
Antioxidant activity
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Acknowledgements
The authors are grateful to M. Lahlou, M. Alghoum and C.D Khalfi for their help in experimental orchard management and laboratory work.
Funding
This work was financed by the Ministry of Agriculture Fisheries, Rural Development, Water and Forests of Morocco (MCRDV program).
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The first version of the manuscript was drafted by Atman Adiba; Rachid Razouk: Conceptualization, writing- reviewing and editing; Abdelmajid Haddioui, Abdellatif Boutagayout and Youssef Khachtib: reviewing and editing, validation; Anas Hamdani, Lahcen Hssaini and Mohamed kouighat: contributed reagents.
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Adiba, A., Khachtib, Y., Boutagayout, A. et al. Bioactive compounds and quality attributes of pomegranate fruit as affected by continuous deficit irrigation. Vegetos (2024). https://doi.org/10.1007/s42535-024-00899-z
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DOI: https://doi.org/10.1007/s42535-024-00899-z