1H-NMR Metabolite Fingerprinting Analysis Reveals a Disease Biomarker and a Field Treatment Response in Xylella fastidiosa subsp. pauca-Infected Olive Trees

Girelli, Chiara Roberta; Angilè, Federica; Coco, Laura Del; Migoni, Danilo; Zampella, Luigi; Marcelletti, Simone; Cristella, Nicola; Marangi, Paolo; Scortichini, M.; Fanizzi, Francesco Paolo

doi:10.3390/plants8050115

Cited by 21 publications

(50 citation statements)

References 63 publications

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“…A higher content of Zn and Cu is conceivable for the repeated spray treatments to the canopy with the biocomplex, whereas the low Na content could be in relation with metabolic pathways of the trees being close to the normality. It was recently shown that the biocomplex induces an early re-programming of the infected trees upon the spray treatments characterized by the loss of all disease biomarkers [27]. On the other hand, the leaf ionome comparison between treated and not infected trees, as well as between the olive groves of the "free" and "infected" areas also show clear differences, resulting in Zn being the most discriminative ion between the two situations and could be used as a putative biomarker for tolerance to X. f. subsp.…”

Section: Discussionmentioning

confidence: 99%

“…Within this context, we observed that the supply of a zinc-copper-citric acid biocomplex to the canopy of X. fastidiosa subsp. pauca-infected olive trees during spring and summer allowed to reduce both the field symptoms (i.e., leaf and twig die-backs) and pathogen cell densities within the leaves [25] as well as a rapid re-programming of the basic metabolism of the infected tree [26,27].…”

Section: Introductionmentioning

confidence: 99%

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Soil and Leaf Ionome Heterogeneity in Xylella fastidiosa Subsp. Pauca-Infected, Non-Infected and Treated Olive Groves in Apulia, Italy

Coco

Migoni

Girelli

et al. 2020

Plants

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Xylella fastidiosa subsp. pauca is responsible for the “olive quick decline syndrome” (OQDS) in Salento (Apulia). The main epidemiological aspects of the syndrome are related to the pathogen spread and survival in the area, and to the biology of the insect vector. The assessment of the macro and microelements content (i.e., ionome) in soil and leaves could provide basic and useful information. Indeed, knowledge of host ionomic composition and the possibility of its modification could represent a potential tool for the management of diseases caused by X. fastidiosa. Therefore, soil and leaf ionomes of naturally infected, not infected, and zinc–copper–citric acid biocomplex treated trees of different areas of Apulia and the bordering Basilicata regions were compared. We observed that soil and leaf ionomic composition of olive farms growing in the pathogen-free areas north of the Salento Barletta-Andria-Trani BAT (Apulia) and Potenza PZ (Basilicata, Apulia bordering region) provinces is significantly different from that shown by the infected olive groves of the Salento areas (LE, BR, TA provinces). In particular, a higher content of zinc and copper both in soil and leaves was found in the studied northern areas in comparison to the southern areas. This finding could partly explain the absence of OQDS in those areas. In the infected Salento areas, the leaf ionomic profile resulted as being markedly different for the biocomplex treated compared to the untreated trees. A higher zinc content in leaves characterized treated with respect to untreated trees. On the other hand, among the not-infected trees, Xylella-resistant Leccino showed higher manganese content when compared with the higher pathogen sensitive Ogliarola salentina and Cellina di Nardò. According to these results, soil and olive leaf ionome could provide basic information for the epidemiologic study and possible control of X. f. subsp. pauca in Apulia.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Soil and Leaf Ionome Heterogeneity in Xylella fastidiosa Subsp. Pauca-Infected, Non-Infected and Treated Olive Groves in Apulia, Italy

Coco

Migoni

Girelli

et al. 2020

Plants

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“…Previous studies were used to assign peaks and chemical shift regions. 7,[17][18][19][20] We found that there was no significant change between the three spectra, but there was a difference in peak intensity in the unsaturated fatty acid region near 2 ppm and in the polyunsaturated fatty acid region near 2.8 ppm. When oak leaves are exposed to chemicals, the intensity of the peak is reduced in the aldehyde region of 8-12 ppm.…”

Section: Resultsmentioning

confidence: 65%

“…To this end, measurement techniques were assessed for analysis of the molecular structure of chemicals in solid plant samples by referring to published papers and databases available in domestic and international journals. [7][8][9][10][11][12][13][14][15][16][17][18][19][20] After a pretreatment method was established, analysis of chemical accident-induced damage to plants was carried out using solution-state NMR, high-resolution magic angle spinning NMR (HR-MAS NMR), and solid-state NMR. Solutionstate NMR shows sharp peaks due to fast tumbling, but can only measure substances that are soluble in solvents and it is important to find a suitable solvent.…”

Section: Introductionmentioning

confidence: 99%

“…It is intended to contribute to the preparation of objects and methodologies for loss estimation. To this end, measurement techniques were assessed for analysis of the molecular structure of chemicals in solid plant samples by referring to published papers and databases available in domestic and international journals 7–20 . After a pretreatment method was established, analysis of chemical accident‐induced damage to plants was carried out using solution‐state NMR, high‐resolution magic angle spinning NMR (HR‐MAS NMR), and solid‐state NMR.…”

Section: Introductionmentioning

confidence: 99%

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Analysis of Plant Metabolites Damaged in Chemical Accidents Using NMR Spectroscopy

Kim

Son

Song

et al. 2020

Bulletin Korean Chem Soc

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Chemical accidents can cause a variety of damage, including damage to human health and ecosystems. In Korea, there are a limited number of crops that can be used to calculate damage done to plants after chemical accidents, and there are insufficient data on testing of damaged plants and methods for evaluation thereof because damage calculation methods and procedures have not been specifically established. Therefore, in order to estimate economic losses due to chemical accidents, it is necessary to establish specific calculation methods and procedures. At this point, improvements in Nuclear Magnetic Resonance (NMR) spectroscopy are needed to improve the accuracy and precision of assessment of plant damage caused by chemical accidents. The purpose of this study is to standardize sample pretreatment methods for NMR application and to develop a methodology for estimation of plant damage via testing and evaluation methods for solid samples such as plants and powders at chemical accident sites.

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Management of the olive decline disease complex caused by Xylella fastidiosa subsp. pauca and Neofusicoccum spp. in Apulia, Italy

Scortichini,

Loreti,

Scala

et al. 2024

Crop Protection

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1H-NMR Metabolite Fingerprinting Analysis Reveals a Disease Biomarker and a Field Treatment Response in Xylella fastidiosa subsp. pauca-Infected Olive Trees

Cited by 21 publications

References 63 publications

Soil and Leaf Ionome Heterogeneity in Xylella fastidiosa Subsp. Pauca-Infected, Non-Infected and Treated Olive Groves in Apulia, Italy

Soil and Leaf Ionome Heterogeneity in Xylella fastidiosa Subsp. Pauca-Infected, Non-Infected and Treated Olive Groves in Apulia, Italy

Analysis of Plant Metabolites Damaged in Chemical Accidents Using NMR Spectroscopy

Management of the olive decline disease complex caused by Xylella fastidiosa subsp. pauca and Neofusicoccum spp. in Apulia, Italy

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