Evaluating the Benefits of Regulated and Sustained Deficit Irrigation for Yield, Water Use and Sustainability in the Moroccan Menara Olive Cultivar

Ibba, Khaoula; Er-Raki, Salah; Hadria, Rachid

Evaluating the Benefits of Regulated and Sustained Deficit Irrigation for Yield, Water Use and Sustainability in the Moroccan Menara Olive Cultivar

Khaoula Ibba, Salah Er-Raki () and Rachid Hadria ()
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Khaoula Ibba: Cadi Ayyad University, ProcEDE/AgroBiotech Center, Faculty of Sciences and Technologies
Salah Er-Raki: Cadi Ayyad University, ProcEDE/AgroBiotech Center, Faculty of Sciences and Technologies
Rachid Hadria: National Institute of Agricultural Research, Regional Center of Agricultural Research of Marrakech

A chapter in Technological Innovations for Sustainable Development, 2025, pp 222-233 from Springer

Abstract: Abstract Increasing aridity and global climate change are posing significant sustainability challenges to olive agroecosystems. Therefore, an experiment was conducted over two consecutive years in an olive orchard, comparing regulated (RDI) and sustained deficit irrigation (SDI) strategies. Alongside a fully irrigated control treatment (FI), T0 (100% ETc), four RDI regimes were tested: T1 (SP 100/NP 70% ETc), T2 (SP 100/NP 60% ETc), T3 (SP 80/NP 70% ETc), and T4 (SP 80/NP 60% ETc), based on the water stress sensitivity of phenological phases (SP for sensitive periods and NP for normal period). Two SDI regimes were also evaluated: T5 (70% ETc) and T6 (60% ETc). The study assessed the impact of irrigation strategies on shoot growth, oil content, fruit yield and water productivity (WP) over two years 2021 and 2022 on the olive cultivar Menara. Results showed that a 40% reduction in water supply (T6) severely restricted shoot growth, with a 44% decrease in 2022 compared to the control (T0). Oil content increased significantly with reduced irrigation, particularly in fruits from trees under RDI treatments T3 and T4, which showed a 12% increase without disrupting oil accumulation. RDI treatments (T3 and T4) exhibited the highest WP, outperforming SDI treatments (T5 and T6), which showed a 30–40% decline in WP compared to T0. Yield reductions were most pronounced under SDI, with T5 and T6 producing only 46.8% and 48.8% of the control yield, respectively. These findings highlight the significance of water management strategies and their effects on key agronomic parameters. Specifically, the results showed that moderate and controlled water stress under RDI, particularly in treatments T3 and T4, did not substantially impact fruit oil content or yield in the Menara olive cultivar.

Keywords: Olive Tree; Water Scarcity; Water Management; Regulated Deficit Irrigation; Sustained Deficit Irrigation (search for similar items in EconPapers)
Date: 2025
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Persistent link: https://EconPapers.repec.org/RePEc:spr:lnichp:978-3-032-06725-8_19

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DOI: 10.1007/978-3-032-06725-8_19

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