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Water stress thresholds for regulated deficit irrigation in pistachio trees: Rootstock influence and effects on yield quality

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  • Memmi, H.
  • Gijón, M.C.
  • Couceiro, J.F.
  • Pérez-López, D.

Abstract

The response of “Kerman” pistachio trees budded on three different rootstocks (Pistacia terebinthus, Pistacia atlantica and Pistacia integerrima) to regulated deficit irrigation (RDI) in shallow soils was studied for 3 years. The trees were either fully irrigated (C treatment) or subjected to deficit irrigation during Stage II of fruit growth with two water stress thresholds (T1 and T2). The irrigation scheduling for fully-irrigated trees and water-stressed trees was managed by means of midday stem water potential (Ψstem) measurements. The use of direct measurements of the water status allowed estimating accurately the irrigation requirements for pistachio trees, with water reductions ranging from 46 to 205mm in fully-irrigated trees. The combination of the Ψstem use and the RDI regime saved 43–70% in T1 and 48–73% in T2 of water compared to the calculated crop evapotranspiration (ETc) for fully irrigated treatment (C).

Suggested Citation

  • Memmi, H. & Gijón, M.C. & Couceiro, J.F. & Pérez-López, D., 2016. "Water stress thresholds for regulated deficit irrigation in pistachio trees: Rootstock influence and effects on yield quality," Agricultural Water Management, Elsevier, vol. 164(P1), pages 58-72.
  • Handle: RePEc:eee:agiwat:v:164:y:2016:i:p1:p:58-72
    DOI: 10.1016/j.agwat.2015.08.006
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    1. Martín-Vertedor, Ana I. & Rodríguez, Juan M. Pérez & Losada, Henar Prieto & Castiel, Elías Fereres, 2011. "Interactive responses to water deficits and crop load in olive (olea europaea L., cv. Morisca) I. - Growth and water relations," Agricultural Water Management, Elsevier, vol. 98(6), pages 941-949, April.
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    1. Mohammadi Mohammadabadi, Akbar & Hosseinifard, Seyed Javad & Sedaghati, Nasser & Nikooei Dastjerdi, Mohammadreza, 2020. "Pistachio (Pistachia vera L.) seedling growth response to irrigation method and volume in Iran," Agricultural Water Management, Elsevier, vol. 240(C).
    2. Galindo, A. & Collado-González, J. & Griñán, I. & Corell, M. & Centeno, A. & Martín-Palomo, M.J. & Girón, I.F. & Rodríguez, P. & Cruz, Z.N. & Memmi, H. & Carbonell-Barrachina, A.A. & Hernández, F. & T, 2018. "Deficit irrigation and emerging fruit crops as a strategy to save water in Mediterranean semiarid agrosystems," Agricultural Water Management, Elsevier, vol. 202(C), pages 311-324.
    3. Adele Amico Roxas & Giulia Marino & Giuseppe Avellone & Tiziano Caruso & Francesco Paolo Marra, 2020. "The Effect of Plant Water Status on the Chemical Composition of Pistachio Nuts ( Pistacia vera L. Cultivar Bianca)," Agriculture, MDPI, vol. 10(5), pages 1-11, May.
    4. Moriana, A. & Memmi, H. & Centeno, A. & Martín-Palomo, M.J. & Corell, M. & Torrecillas, A. & Pérez-López, D., 2018. "Influence of rootstock on pistachio (Pistacia vera L. cv Kerman) water relations," Agricultural Water Management, Elsevier, vol. 202(C), pages 263-270.
    5. Rallo, G. & Paço, T.A. & Paredes, P. & Puig-Sirera, À. & Massai, R. & Provenzano, G. & Pereira, L.S., 2021. "Updated single and dual crop coefficients for tree and vine fruit crops," Agricultural Water Management, Elsevier, vol. 250(C).
    6. Tadros, Maher J. & Al-Mefleh, Naji K. & Othman, Yahia A. & Al-Assaf, Amani, 2021. "Water harvesting techniques for improving soil water content, and morpho-physiology of pistachio trees under rainfed conditions," Agricultural Water Management, Elsevier, vol. 243(C).
    7. Enrique Barajas & Sara Álvarez & Elena Fernández & Sergio Vélez & José Antonio Rubio & Hugo Martín, 2020. "Sentinel-2 Satellite Imagery for Agronomic and Quality Variability Assessment of Pistachio ( Pistacia vera L.)," Sustainability, MDPI, vol. 12(20), pages 1-12, October.

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