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Responses of several soil and plant indicators to post-harvest regulated deficit irrigation in olive trees and their potential for irrigation scheduling

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  • Alcaras, L. Martín Agüero
  • Rousseaux, M. Cecilia
  • Searles, Peter S.

Abstract

The response of olive trees to deficit irrigation during post-harvest has been little evaluated because low rainfall often precludes the need to irrigate at this phenological stage in the Mediterranean Basin where olive is mostly cultivated. In many growing areas of Argentina, the lower latitude and continental climate leads to harvesting table olives in mid-summer when evapotranspiration is still high and rainfall is low. We assessed the responses of soil moisture and several plant-based indicators to post-harvest regulated deficit irrigation (RDI) in two growing seasons in order to: 1) determine the responses of the indicators to a range of irrigation levels; 2) elucidate the relationships between the different soil and plant variables; and 3) evaluate the appropriateness of the indicators for scheduling irrigation. Three RDI treatments (66, 33, 0% crop evapotranspiration; ETc) and a control (100% ETc) were applied for 75days from mid-summer to mid-fall in a cv. ‘Manzanilla fina’ orchard during 2009 and 2010. The treatments received irrigation equivalent to the control during the rest of the season. Soil relative extractable water (REW%), midday stem water potential (Ψs), leaf conductance (gl), sap flow, and trunk diameter variations were the variables evaluated. The RDI treatments generated a wide range of REW values (0–125%) with all of the plant indicators being affected to some degree. Midday stem water potential increased linearly with REW until it reached a break point at 48% REW, above which Ψs maintained a plateau at −1.75MPa. The increase in maximum trunk diameter (MXTD) showed strong relationships with REW, Ψs, and gl. Trunk growth rate (TGR) showed a very early response to water-withholding in both seasons, and trunk growth decreased along with Ψs until it reached a constant negative growth rate of −12μmd−1at a Ψs of −2.7MPa. Trunk maximum daily shrinkage was much less responsive to irrigation than either MXTD or TGR. Our results during post-harvest RDI in an arid region suggest that automated soil moisture sensors can be used to schedule irrigation at different water stress levels if reliable soil moisture values can be measured, and indicate that a continuous recording of trunk diameter has sufficient enough potential for irrigation scheduling that further investigation of MXTD and TGR is warranted.

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  • Alcaras, L. Martín Agüero & Rousseaux, M. Cecilia & Searles, Peter S., 2016. "Responses of several soil and plant indicators to post-harvest regulated deficit irrigation in olive trees and their potential for irrigation scheduling," Agricultural Water Management, Elsevier, vol. 171(C), pages 10-20.
  • Handle: RePEc:eee:agiwat:v:171:y:2016:i:c:p:10-20
    DOI: 10.1016/j.agwat.2016.03.006
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    2. Puig-Sirera, Àngela & Provenzano, Giuseppe & González-Altozano, Pablo & Intrigliolo, Diego S. & Rallo, Giovanni, 2021. "Irrigation water saving strategies in Citrus orchards: Analysis of the combined effects of timing and severity of soil water deficit," Agricultural Water Management, Elsevier, vol. 248(C).
    3. Martín-Palomo, M.J. & Corell, M. & Andreu, L. & López-Moreno, Y.E. & Galindo, A. & Moriana, A., 2021. "Identification of water stress conditions in olive trees through frequencies of trunk growth rate," Agricultural Water Management, Elsevier, vol. 247(C).
    4. Agüero Alcaras, L. Martín & Rousseaux, M. Cecilia & Searles, Peter S., 2021. "Yield and water productivity responses of olive trees (cv. Manzanilla) to post-harvest deficit irrigation in a non-Mediterranean climate," Agricultural Water Management, Elsevier, vol. 245(C).
    5. Siakou, M. & Bruggeman, A. & Eliades, M. & Zoumides, C. & Djuma, H. & Kyriacou, M.C. & Emmanouilidou, M.G. & Spyros, A. & Manolopoulou, E. & Moriana, A., 2021. "Effects of deficit irrigation on ‘Koroneiki’ olive tree growth, physiology and olive oil quality at different harvest dates," Agricultural Water Management, Elsevier, vol. 258(C).
    6. Corell, M. & Martín-Palomo, M.J. & Girón, I. & Andreu, L. & Trigo, E. & López-Moreno, Y.E. & Torrecillas, A. & Centeno, A. & Pérez-López, D. & Moriana, A., 2019. "Approach using trunk growth rate data to identify water stress conditions in olive trees," Agricultural Water Management, Elsevier, vol. 222(C), pages 12-20.
    7. Pierantozzi, P. & Torres, M. & Tivani, M. & Contreras, C. & Gentili, L. & Parera, C. & Maestri, D., 2020. "Spring deficit irrigation in olive (cv. Genovesa) growing under arid continental climate: Effects on vegetative growth and productive parameters," Agricultural Water Management, Elsevier, vol. 238(C).
    8. Du, Shaoqing & Tong, Ling & Zhang, Xiaotao & Kang, Shaozhong & Du, Taisheng & Li, Sien & Ding, Risheng, 2017. "Signal intensity based on maximum daily stem shrinkage can reflect the water status of apple trees under alternate partial root-zone irrigation," Agricultural Water Management, Elsevier, vol. 190(C), pages 21-30.
    9. Iglesias, Maria Agustina & Rousseaux, M. Cecilia & Agüero Alcaras, L. Martín & Hamze, Leila & Searles, Peter S., 2023. "Influence of deficit irrigation and warming on plant water status during the late winter and spring in young olive trees," Agricultural Water Management, Elsevier, vol. 275(C).

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