Establishing a Reference Baseline for Midday Stem Water Potential in Olive and Its Use for Plant-Based Irrigation Management

Ken Shackel; Alfonso Moriana; Giulia Marino; Mireia Corell; David Pérez-López; Maria Jose Martin-Palomo; Tiziano Caruso; Francesco Paolo Marra; Luis Martín Agüero Alcaras; Luke Milliron; Richard Rosecrance; Allan Fulton; Peter Searles

doi:10.3389/fpls.2021.791711

Establishing a Reference Baseline for Midday Stem Water Potential in Olive and Its Use for Plant-Based Irrigation Management

Front Plant Sci. 2021 Nov 26:12:791711. doi: 10.3389/fpls.2021.791711. eCollection 2021.

Authors

Ken Shackel¹, Alfonso Moriana^{2

3}, Giulia Marino¹, Mireia Corell^{2

3}, David Pérez-López⁴, Maria Jose Martin-Palomo^{2

3}, Tiziano Caruso⁵, Francesco Paolo Marra⁵, Luis Martín Agüero Alcaras⁶, Luke Milliron⁷, Richard Rosecrance⁸, Allan Fulton⁹, Peter Searles¹⁰

Affiliations

¹ Department of Plant Sciences, University of California, Davis, Davis, CA, United States.
² Departamento de Agronomía, ETSIA, Universidad de Sevilla, Seville, Spain.
³ Unidad Asociada al CSIC de Uso Sostenible del Suelo y el Agua en la Agricultura (Universidad de Sevilla-IRNAS), Seville, Spain.
⁴ Departamento de Producción Agraria, CEIGRAM, Universidad Politécnica de Madrid, Madrid, Spain.
⁵ Department of Agricultural, Food and Forest Sciences (SAAF), University of Palermo, Palermo, Italy.
⁶ Agencia de Extensión Rural Aimogasta, Instituto Nacional de Tecnología Agropecuaria, Aimogasta, Argentina.
⁷ University of California Cooperative Extension, Oroville, CA, United States.
⁸ College of Agriculture, California State University, Chico, Chico, CA, United States.
⁹ University of California Cooperative Extension, Red Bluff, CA, United States.
¹⁰ Centro Regional de Investigaciones Científicas y Transferencia Tecnológica de La Rioja (CRILAR-Provincia de La Rioja-UNLaR-SEGEMAR-UNCa-CONICET), Anillaco, Argentina.

Abstract

Midday stem water potential (SWP) is rapidly becoming adopted as a standard tool for plant-based irrigation management in many woody perennial crops. A reference or "baseline" SWP has been used in some crops (almond, prune, grape, and walnut) to account for the climatic influence of air vapor pressure deficit (VPD) on SWP under non-limiting soil moisture conditions. The baseline can be determined empirically for field trees maintained under such non-limiting conditions, but such conditions are difficult to achieve for an entire season. We present the results of an alternative survey-based approach, using a large set of SWP and VPD data collected over multiple years, from irrigation experiments in olive orchards located in multiple countries [Spain, United States (California), Italy, and Argentina]. The relation of SWP to midday VPD across the entire data set was consistent with an upper limit SWP which declined with VPD, with the upper limit being similar to that found in Prunus. A best fit linear regression estimate for this upper limit (baseline) was found by selecting the maximum R ² and minimum probability for various upper fractions of the SWP/VPD relation. In addition to being surprisingly similar to the Prunus baseline, the olive baseline was also similar (within 0.1 MPa) to a recently published mechanistic olive soil-plant-atmosphere-continuum (SPAC) model for "super high density" orchard systems. Despite similarities in the baseline, the overall physiological range of SWP exhibited by olive extends to about -8 MPa, compared to about -4 MPa for economically producing almond. This may indicate that, despite species differences in physiological responses to low water availability (drought), there may be convergent adaptations/acclimations across species to high levels of water availability. Similar to its use in other crops, the olive baseline will enable more accurate and reproducible plant-based irrigation management for both full and deficit irrigation practices, and we present tentative SWP guidelines for this purpose.

Keywords: Olea europaea; baseline; deficit irrigation; stem water potential; vapor pressure deficit.