Abstract
An increase in the land area dedicated to super-high density olive orchards has occurred in Chile in recent years. Such modern orchards have high irrigation requirements, and optimizing water use is a priority. Moreover, this region presents low water availability, which makes necessary to establish irrigation strategies to improve water productivity. An experiment was conducted during four consecutive growing seasons (2010–2011 to 2013–2014) to evaluate the responses of yield and water productivity to irrigation cut-off strategies. These strategies were applied after fruit set using midday stem water potential (Ψstem) thresholds in a super-high density olive orchard (cv. Arbequina), located in the Pencahue Valley, Maule Region, Chile. The experimental design was completely randomized with four irrigation cut-off treatments based on the Ψstem thresholds and four replicate plots per treatment (five trees per plot). Similar to commercial growing conditions in our region, the Ψstem in the T1 treatment was maintained between -1.4 and -2.2 MPa (100% of actual evapotranspiration), while T2, T3 and T4 treatments did not receive irrigation from fruit set until they reached a Ψstem threshold of approximately -3.5, -5.0, and -6.0 MPa, respectively. Once the specific thresholds were reached, irrigation was restored and maintained as T1 in all treatments until fruits were harvested. Yield and its components were not significantly different between T1 and T2, but fruit yield and total oil yield, fruit weight, and fruit diameter were decreased by the T3 and T4 treatments. Moreover, yield showed a linear response with water stress integral (SΨ), which was strongly influenced by fruit load. Total oil content (%) and pulp/stone ratio were not affected by the different irrigation strategies. Also, fruit and oil water productivities were significantly greater in T1 and T2 than in the T3 and T4. Moreover, the T2, T3, and T4 treatments averaged 37, 51, and 72 days without irrigation which represented 75–83, 62–76, and 56–70% of applied water compared with T1, respectively. These results suggest that using the T2 irrigation cut-off strategy could be applied in a super-high density olive orchard (cv. Arbequina) because it maintained yields, saving 20% of the applied water.
Highlights
The olive tree (Olea europaea L.) is a characteristic species of the Mediterranean basin, which has traditionally been managed under dryland conditions
The regulated deficit irrigation (RDI) (Tognetti et al, 2005, 2007; Iniesta et al, 2009; Gómez del Campo and García, 2013) is the most commonly used irrigation strategy and consists of imposing water stress during phenological phases that are relatively insensitive to water deficit
The objective of this study was to evaluate the yield and water productivity responses to irrigation cut-off strategies applied after fruit set using stem thresholds in a super-high density olive orchard
Summary
The olive tree (Olea europaea L.) is a characteristic species of the Mediterranean basin, which has traditionally been managed under dryland conditions. Many studies have shown the benefits of irrigation on yield (Patumi et al, 2002; Moriana et al, 2003; Tognetti et al, 2007; Martín-Vertedor et al, 2011) For this reason, most of the commercial olive orchards in South America nowadays have been established at fairly high densities with drip-irrigation systems (Correa-Tedesco et al, 2010). RDI strategies have achieved savings of around 20% of total water applied without reducing fruit yield (Goldhamer, 1999; Gómez-delCampo, 2013). These studies indicated that the oil content was not affected by the decrease in total amount of water applied. Correa-Tedesco et al (2010) indicated that the greatest water productivity (21.3 kg mm−1 ha−1) was observed when applying water between 51 and 52% of actual evapotranspiration (ETc)
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