Abstract
Morocco belongs to the countries ranked at a high-risk level for entry, establishment, and spread of Xylella fastidiosa, which has recently re-emerged as a plant pathogen of global importance causing olive quick decline syndrome (OQDS). Symptomatic infection by X. fastidiosa leads to devastating diseases and important economic losses. To prevent such losses and damages, countries without current outbreaks like Morocco need to first understand their host plant responses to X. fastidiosa. The assessment of the macro and micro-elements content (ionome) in leaves can give basic and useful information along with being a powerful tool for the sustainable management of diseases caused by this devastating pathogen. Herein, we compare the leaf ionome of four important autochthonous Moroccan olive cultivars (‘Picholine Marocaine’, ‘Haouzia’, ‘Menara’, and ‘Meslalla’), and eight Mediterranean varieties introduced in Morocco (‘Arbequina’, ‘Arbosana’, ‘Leccino’, ‘Ogliarola salentina’, ‘Cellina di Nardo’, ‘Frantoio’, ‘Leucocarpa’, and ‘Picholine de Languedoc’), to develop hypotheses related to the resistance or susceptibility of the Moroccan olive trees to X. fastidiosa infection. Leaf ionomes, mainly Ca, Cu, Fe, Mg, Mn, Na, Zn, and P, were determined using inductively coupled plasma optical emission spectroscopy (ICP-OES). These varieties were also screened for their total phenolics and flavonoids content. Data were then involved in a comparative scheme to determine the plasticity of the pathogen. Our results showed that the varieties ‘Leccino’, ’Arbosana’, ‘Arbequina’ consistently contained higher Mn, Cu, and Zn and lower Ca and Na levels compared with the higher pathogen-sensitive ‘Ogliarola salentina’ and ‘Cellina di Nardò’. Our findings suggest that ‘Arbozana’, ‘Arbiquina’, ‘Menara’, and ‘Haouzia’ may tolerate the infection by X. fastidiosa to varying degrees, provides additional support for ‘Leccino’ having resistance to X. fastidiosa, and suggests that both ‘Ogliarola salentina’ and ‘Cellina di Nardö’ are likely sensitive to X. fastidiosa infection.
Highlights
IntroductionEuropaea L.) groves have a crucial socioeconomic role, representing the main source of livelihood for many local farmers
The tool consists in a thorough determination and comparison of the ionomic, phenolics and flavonoids profile of ‘Picholine Marocaine’, the most widespread and typical Moroccan olive variety, with those of Moroccan clonal selected varieties (‘Haouzia’, ‘Menara’, and ‘Meslalla’) and eight Mediterranean varieties recently introduced in Morocco (‘Arbequina’, ‘Arbosana’, ‘Leccino’, ‘Ogliarola’, ‘Cellina di Nardo’, ‘Frantoio’, ‘Leucocarpa’ and ‘Picholine de Languedoc’) to develop hypotheses related to the resistance or susceptibility of the Moroccan olive trees to X. fastidiosa infection
The plant pathogen X. fastidiosa responsible for the olive quick decline syndrome is considered a quarantine pathogen, and its introduction is highly prohibited in Morocco
Summary
Europaea L.) groves have a crucial socioeconomic role, representing the main source of livelihood for many local farmers. Moroccan olive groves represent the Southwesternmost part of the Mediterranean olive-growing landscape. In this country, olive cultivation and oil production are a deep-rooted tradition, both as an income for more than 450,000 farmers and a high environmental value crop, due to its role in soil protection, in mountain farms [1]. Over the last few years, land use for olive cultivation in Morocco has increased from 946,818 ha Sustainability 2021, 13, 7818.
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