Community Analysis of Culturable Sapwood Endophytes from Apulian Olive Varieties with Different Susceptibility to Xylella fastidiosa

Arafat Hanani,Salvatore W Davino,Maroun El Moujabber,Marilita Gallo,Franco Santoro,Anna M D’Onghia,Marwa Mourou,Franco Valentini,Serena A Minutillo,Simona M Sanzani,Giuseppe Cavallo

doi:10.3390/agronomy12010009

Abstract

Endophytes are symptomless fungal and/or bacterial microorganisms found in almost all living plant species. The symbiotic association with their host plants by colonizing the internal tissues has endowed them as a valuable tool to suppress diseases, stimulate growth, and promote stress resistance. In this context, the study of culturable endophytes residing the sapwood of Apulian olives might be a promising control strategy for xylem colonizing pathogens as Xylella fastidiosa. To date, olive sapwood cultivable endophytes are still under exploration; therefore, this work pursues a study of cultivable endophytes occurrence variation in the sapwood of different olive varieties under the effect of seasonality, geographical coordinates, and X. fastidiosa infection status. Our study confirms the stability of sapwood endophytic culturable communities in the resistant olive variety and presents the seasonal and geographical fluctuation of olive trees’ sapwood endophytes. It also describes the diversity and occurrence frequency of fungal and bacterial genera, and finally retrieves some of the sapwood-inhabiting fungal and bacterial isolates, known as biocontrol agents of plant pathogens. Thus, the potential role of these bacterial and fungal isolates in conferring olive tree protection against X. fastidiosa should be further investigated.

Highlights

In the last decade, olive groves in Apulia have been devastated by the arrival of the xylem-limited bacterium called Xylella fastidiosa (Xf ) subspecies pauca (ST53), which caused a complex of severe symptoms, the olive quick decline syndrome (OQDS) [1]
In addition to metabarcoding the 16S rRNA of the olive microbiome and the assessment of the antagonistic activity of bacterial isolates against Xf [20,42], this study investigated the endophytic communities in the sapwood of two susceptible (‘O. rossa’ and ‘O. salentina’) and one resistant cultivar (Leccino) in relation to several determining factors of endophyte diversity and richness
Since the bacterial richness in a tree is favored by high temperature [43,44,45], our study confirmed that olive sapwood has the highest bacterial population in summer

Summary

Introduction

Olive groves in Apulia have been devastated by the arrival of the xylem-limited bacterium called Xylella fastidiosa (Xf ) subspecies pauca (ST53), which caused a complex of severe symptoms, the olive quick decline syndrome (OQDS) [1]. The disease has spread rapidly in the olive groves of the peninsula since the first outbreak in southern Apulia [3,4]. Leccino represents the hope of obtaining indirect environmentally friendly control of the disease [7,8]. The study of Leccino resistance has encompassed several research topics, including the genes that confer complete resistance to the bacterium and the physiological, physical, and biochemical interactions of the cultivar with X. fastidiosa during infection [9,10,11,12]

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Discussion

Conclusion