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Online-monitoring of tree water stress in a hedgerow olive orchard using the leaf patch clamp pressure probe

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  • Fernández, J.E.
  • Rodriguez-Dominguez, C.M.
  • Perez-Martin, A.
  • Zimmermann, U.
  • Rüger, S.
  • Martín-Palomo, M.J.
  • Torres-Ruiz, J.M.
  • Cuevas, M.V.
  • Sann, C.
  • Ehrenberger, W.
  • Diaz-Espejo, A.

Abstract

The need for sophisticated irrigation strategies in fruit tree orchards has led to an increasing interest in reliable and robust sensor technology that allows automatic and continuous recording of the water stress of trees under field conditions. In this work we have evaluated the potential of the leaf patch clamp pressure (LPCP) probe for monitoring water stress in a 4-year-old ‘Arbequina’ hedgerow olive orchard with 1667treesha−1. The leaf patch output pressure (Pp) measured by the LPCP probe is inversely correlated with the leaf turgor pressure (>50kPa). Measurements of Pp were made over the entire irrigation season of 2010 (April to November) on control trees, irrigated up to 100% of the crop water needs (ETc), and on trees under two regulated deficit irrigation (RDI) strategies. The 60RDI trees received 59.2% of ETc and the 30RDI trees received 29.4% of ETc. In the case of the RDI trees the irrigation amounts were particularly low during July and August, when the trees are less sensitive to water stress. At severe water stress levels (values of stem water potential dropped below ca. −1.70MPa; turgor pressure<50kPa) half-inversed or completely inversed diurnal Pp curves were observed. Reason for these phenomena is the accumulation of air in the leaves. These phenomena were reversible. Normal diurnal Pp profiles were recorded within a few days after rewatering, the number depending on the level of water stress previously reached. This indicates re-establishment of turgescence of the leaf cells. Crucial information about severe water stress was derived from the inversed diurnal Pp curves. In addition Pp values measured on representative trees of all treatments were compared with balancing pressure (Pb) values recorded with a pressure chamber on leaves taken from the same trees or neighbored trees exposed to the same irrigation strategies. Concomitant diurnal Pb measurements were performed in June and September, i.e. before and after the period of great water stress subjected to RDI trees. Results showed close relationships between Pp and Pb, suggesting that the pressure chamber measures relative turgor pressure changes as the LPCP probe. Therefore the probe seems to be an advantageous alternative to the pressure chamber for monitoring tree water status in hedgerow olive tree orchards.

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  • Fernández, J.E. & Rodriguez-Dominguez, C.M. & Perez-Martin, A. & Zimmermann, U. & Rüger, S. & Martín-Palomo, M.J. & Torres-Ruiz, J.M. & Cuevas, M.V. & Sann, C. & Ehrenberger, W. & Diaz-Espejo, A., 2011. "Online-monitoring of tree water stress in a hedgerow olive orchard using the leaf patch clamp pressure probe," Agricultural Water Management, Elsevier, vol. 100(1), pages 25-35.
  • Handle: RePEc:eee:agiwat:v:100:y:2011:i:1:p:25-35
    DOI: 10.1016/j.agwat.2011.08.015
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    1. Fernández, J.E., 2014. "Plant-based sensing to monitor water stress: Applicability to commercial orchards," Agricultural Water Management, Elsevier, vol. 142(C), pages 99-109.
    2. Chehab, Hechmi & Tekaya, Mariem & Mechri, Beligh & Jemai, Abdelmajid & Guiaa, Mohamed & Mahjoub, Zoubeir & Boujnah, Dalenda & Laamari, Salwa & Chihaoui, Badreddine & Zakhama, Houda & Hammami, Mohamed , 2017. "Effect of the Super Absorbent Polymer Stockosorb® on leaf turgor pressure, tree performance and oil quality of olive trees cv. Chemlali grown under field conditions in an arid region of Tunisia," Agricultural Water Management, Elsevier, vol. 192(C), pages 221-231.
    3. Fernandes, R.D.M. & Egea, G. & Hernandez-Santana, V. & Diaz-Espejo, A. & Fernández, J.E. & Perez-Martin, A. & Cuevas, M.V., 2021. "Response of vegetative and fruit growth to the soil volume wetted by irrigation in a super-high-density olive orchard," Agricultural Water Management, Elsevier, vol. 258(C).
    4. Diaz-Espejo, A. & Buckley, T.N. & Sperry, J.S. & Cuevas, M.V. & de Cires, A. & Elsayed-Farag, S. & Martin-Palomo, M.J. & Muriel, J.L. & Perez-Martin, A. & Rodriguez-Dominguez, C.M. & Rubio-Casal, A.E., 2012. "Steps toward an improvement in process-based models of water use by fruit trees: A case study in olive," Agricultural Water Management, Elsevier, vol. 114(C), pages 37-49.
    5. 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).
    6. Egea, Gregorio & Fernández, José E. & Alcon, Francisco, 2017. "Financial assessment of adopting irrigation technology for plant-based regulated deficit irrigation scheduling in super high-density olive orchards," Agricultural Water Management, Elsevier, vol. 187(C), pages 47-56.
    7. Rodriguez-Dominguez, C.M. & Ehrenberger, W. & Sann, C. & Rüger, S. & Sukhorukov, V. & Martín-Palomo, M.J. & Diaz-Espejo, A. & Cuevas, M.V. & Torres-Ruiz, J.M. & Perez-Martin, A. & Zimmermann, U. & Fer, 2012. "Concomitant measurements of stem sap flow and leaf turgor pressure in olive trees using the leaf patch clamp pressure probe," Agricultural Water Management, Elsevier, vol. 114(C), pages 50-58.
    8. Vita Serman, Facundo & Orgaz, Francisco & Starobinsky, Gabriela & Capraro, Flavio & Fereres, Elias, 2021. "Water productivity and net profit of high-density olive orchards in San Juan, Argentina," Agricultural Water Management, Elsevier, vol. 252(C).
    9. Padilla-Díaz, C.M. & Rodriguez-Dominguez, C.M. & Hernandez-Santana, V. & Perez-Martin, A. & Fernandes, R.D.M. & Montero, A. & García, J.M. & Fernández, J.E., 2018. "Water status, gas exchange and crop performance in a super high density olive orchard under deficit irrigation scheduled from leaf turgor measurements," Agricultural Water Management, Elsevier, vol. 202(C), pages 241-252.
    10. García-Tejero, I.F. & Hernández, A. & Padilla-Díaz, C.M. & Diaz-Espejo, A. & Fernández, J.E, 2017. "Assessing plant water status in a hedgerow olive orchard from thermography at plant level," Agricultural Water Management, Elsevier, vol. 188(C), pages 50-60.
    11. Padilla-Díaz, C.M. & Rodriguez-Dominguez, C.M. & Hernandez-Santana, V. & Perez-Martin, A. & Fernández, J.E., 2016. "Scheduling regulated deficit irrigation in a hedgerow olive orchard from leaf turgor pressure related measurements," Agricultural Water Management, Elsevier, vol. 164(P1), pages 28-37.
    12. Riccardo Lo Bianco & Primo Proietti & Luca Regni & Tiziano Caruso, 2021. "Planting Systems for Modern Olive Growing: Strengths and Weaknesses," Agriculture, MDPI, vol. 11(6), pages 1-18, May.
    13. Marino, Giulia & Pernice, Fulvio & Marra, Francesco Paolo & Caruso, Tiziano, 2016. "Validation of an online system for the continuous monitoring of tree water status for sustainable irrigation managements in olive (Olea europaea L.)," Agricultural Water Management, Elsevier, vol. 177(C), pages 298-307.

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