XRF analysis searching for fingerprint elemental profile in south-eastern Sicily tomatoes.

The implementation of analytical techniques able to certify food quality and origin in a fast and non-destructive way is becoming a widespread need in the agri-food sector. Among the physical non-destructive techniques, X-ray fluorescence (XRF) spectrometry is often used to analyze the elemental composition of biological samples. In this study, X-ray fluorescence (XRF) elemental profiles were measured on tomato samples belonging to different geographical areas in Sicily (Italy). The purpose of this investigation was aiming to establish a protocol for in-situ measurement and analysis able to provide quality assessment and traceability of PGI agri-food products, specifically sustaining health safety and self qualifying bio-chemical signature. In detail, sampling was performed in one of the most tomato productive area of south-eastern Sicily (Pachino district), characterised by a relative higher amount of Organic Carbon and Cation Exchange Capacity, and compared with samples from other growing areas of Sicily, falling in Ragusa province and Mt. Etna region. Experimental data were analyzed in the framework of multivariate analysis by using principal component analysis and further validated by discriminant analysis. The results show the presence of specific elemental signatures associated to several characterizing elements. This methodology establishes the possibility to disentangle a clear fingerprint pattern associated to the geographical origin of an agri-food product.

Applications of Delayed Luminescence for tomato fruit quality assessment across varied Sicilian cultivation zones.

The food industry places significant emphasis on ensuring quality and traceability as key components of a healthy diet. To cater to consumer demands, researchers have prioritized the development of analytical techniques that can rapidly and non-invasively provide data on quality parameters. In this study, we propose to use the Delayed Luminescence (DL), an ultra-weak and photo-induced emission of optical photons, as a tool for a rapid evaluation of quality profile associated with fruit ripening, in support of traditional analysis methods. Delayed Luminescence measurements have been performed on cherry tomatoes, with and without the PGI "Pomodoro di Pachino" certification, harvested from two different growing areas of south-eastern Sicily (Italy). Then, DL emissions were correlated with soluble solid content and titratable acidity values, which are known to affect the flavor, the commerciality and the maturity degree of tomato fruits. In addition, we evaluated the changes in the DL parameters with respect to the geographical origin of the cherry tomatoes, with the aim of testing the possibility of applying the technique for identification purposes. The signals of Delayed Luminescence appeared to be good indicators of the macromolecular structure of the biological system, revealing structural changes related to the content of total soluble solids present in the juice of tomatoes analyzed, and they appeared unsuitable for authenticating vegetable crops, since the differences in the photon yields emitted by tomato Lots were not related to territory of origin. Thus, our results suggest that DL can be used as a nondestructive indicator of important parameters linked to tomato fruit quality.

Epiphytic and endophytic microorganisms associated to different cultivar of tomato fruits in greenhouse environment and characterization of beneficial bacterial strains for the control of post-harvest tomato pathogens.

Several bacterial and fungal diseases affect greenhouse-grown tomato crops, causing severe annual yield losses worldwide. The need to reduce chemical compound applications has encouraged the search of alternative approach for the control of tomato diseases, including the use of biological control agents. The presence of total and beneficial microbial populations was investigated on the surface and in the pulp of seven cultivars of tomato fruit coming from eleven greenhouses in the Pachino district (south-east of Sicily), recognized by the European Community with the "Protected Geographical Indication" label. Principal component analysis (PCA) showed that epiphytic and endophytic microbial populations clustered into groups according to the areas of origin. Approximately 240 tomato fruit-associated bacterial isolates were selected and a high percentage of them showed antagonistic activity against Clavibacter michiganensis subsp. michiganensis, Pseudomonas syringae pv. tomato, Xanthomonas euvesicatoria pv. perforans, Botrytis cinerea and Alternaria alternata. Analysis of the 16S rRNA gene sequences revealed a predominance of bacteria in Bacillus and Pseudomonas genera, followed by Citrobacter and Enterobacter. The presence of these genera differed according to the geographical areas of tomato samples, whereas their antagonistic capabilities varied according to the five tomato pathogens. The in vitro effectiveness of eight representative bacterial strains belonging to Pseudomonas, Bacillus and Enterobacter genera was confirmed in in vivo assays, carried out on tomato fruit artificially inoculated with A. alternata and B. cinerea. Altogether, these results revealed differences in population density of native microbiota of "Pomodoro di Pachino" fruits and allowed the selection of antagonistic bacterial strains that can be applied in field and in postharvest conditions as alternatives to chemical compounds.