Diplodia seriata Isolated from Declining Olive Trees in Salento (Apulia, Italy): Pathogenicity Trials Give a Glimpse That It Is More Virulent to Drought-Stressed Olive Trees and in a Warmth-Conditioned Environment

• Published in: Plants (Basel) Vol. 13; no. 16; p. 2245
• Main Authors: Manetti, Giuliano, Brunetti, Angela, Sciarroni, Lorenzo, Lumia, Valentina, Bechini, Sara, Marangi, Paolo, Reverberi, Massimo, Scortichini, Marco, Pilotti, Massimo
• Format: Journal Article
• Language: English
• Published: Switzerland MDPI AG 13.08.2024; MDPI
• Subjects: Bark; Botryosphaeriaceae; branch and twig dieback BTD; Climate change; Dieback; Diplodia seriata; Drought; drought stress; Fruit trees; Fruits; Fungi; heat stress; Hemispheres; In vitro methods and tests; Inoculation; Lifestyles; Meteorological parameters; Morphology; olive tree; Olives; Pathogenicity; Pathogens; Phylogeny; Population decline; Rainfall; Summer; Temperature; Temperature tolerance; Trees; Virulence; Water potential; Water stress; Xylella fastidiosa; Italy; California; Uruguay; United States > US; Croatia; heat stress; drought stress; Botryosphaeriaceae; olive tree; Diplodia seriata; branch and twig dieback BTD; climate change
• ISSN: 2223-7747; 2223-7747
• DOI: 10.3390/plants13162245

The fungi Botryosphaeriaceae are involved in olive declines in both the world hemispheres and in all continents where this species is cultivated. In Salento (Apulia, Italy), the Botryosphaeriaceae and have been reported as the agents of a branch and twig dieback that overlaps with olive quick decline syndrome caused by subsp. . In this study, we report the finding of , another Botryosphaeriaceae species, in Salento in -infected olive trees affected by symptoms of branch and twig dieback. Given that its presence was also reported in olive in the Americas and in Europe (Croatia) with different degrees of virulence, we were prompted to assess its role in the Apulian decline. We identified representative isolates based on morphological features and a multilocus phylogeny. In vitro tests showed that the optimum growth temperature of the isolates is around 25-30 °C, and that they are highly thermo-tolerant. In pathogenicity trials conducted over eleven months, expressed a very low virulence. Nonetheless, when we imposed severe water stress before the inoculation, significatively necrotized bark and wood in a time frame of 35 days. Moreover, the symptoms which resulted were much more severe in the trial performed in summer compared with that in autumn. In osmolyte-supplemented media with a water potential from -1 to -3 Mpa, the isolates increased or maintained their growth rate compared with non-supplemented media, and they also grew, albeit to a lesser extent, on media with a water potential as low as -7 Mpa. This suggests that olives with a low water potential, namely those subjected to drought, may offer a suitable environment for the fungus' development. The analysis of the meteorological parameters, temperatures and rainfall, in Salento in the timeframe 1989-2023, showed that this area is subjected to a progressive increase of temperature and drought during the summer. Thus, overall, has to be considered a contributor to the manifestation of branch and twig dieback of olive in Salento. Coherently with the spiral decline concept of trees, our results suggest that heat and drought act as predisposing/inciting factors facilitating as a contributor. The fact that several adverse factors, biotic and abiotic, are simultaneously burdening olive trees in Salento offers a cue to discuss the possible complex nature of the olive decline in Salento.