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18 pages, 2792 KB  
Article
Effect of Crop Cycles on the Antioxidant Compound Contents in Tomato Landraces Undergoing Phenotypic Selection
by Selene Betsabe Montesinos-Cortes, Mónica Lilian Pérez-Ochoa, Araceli Minerva Vera-Guzmán, José Cruz Carrillo-Rodríguez, Pedro Benito-Bautista and José Luis Chávez-Servia
Agronomy 2026, 16(9), 868; https://doi.org/10.3390/agronomy16090868 - 25 Apr 2026
Viewed by 347
Abstract
Tomato landraces possess distinct flavors, colors, textures and aromas, making them suitable for traditional cuisine. Tomato landraces contain a wide range of genes, including those involved in fruit quality, that can be isolated and used in local breeding programs. In regions recognized as [...] Read more.
Tomato landraces possess distinct flavors, colors, textures and aromas, making them suitable for traditional cuisine. Tomato landraces contain a wide range of genes, including those involved in fruit quality, that can be isolated and used in local breeding programs. In regions recognized as centers of origin, domestication and diversification, traditional farmers play an important role in the preservation of tomato landraces adapted to local conditions and agricultural practices, on the whole maintaining high genetic diversity. This work aimed to evaluate the effects of the crop cycle (C), genotype (G) and C × G interactions on the contents of soluble solids, reducing sugars, lycopene, total polyphenols, flavonoids, and vitamin C, as well as the pH and antioxidant activity, in fifteen tomato landraces (genotypes) undergoing phenotypic selection and a commercial tomato variety (control). All the varieties were grown in two crop cycles under uniform greenhouse management using a randomized block design with four repetitions. Fruit composition was analyzed with AOAC and spectrophotometric methods. Significant differences (p ≤ 0.01) were detected in the soluble solid content, pH, flavor and maturity indices, polyphenol and flavonoid contents, and antioxidant activity between C, G and C × G interactions. In contrast, titratable acidity, reducing sugars, lycopene and vitamin C did not differ between cycles. Coefficients of phenotypic and genotypic variation and broad-sense heritability (H2) ranged from 4.3 to 33.7, 2.0 to 19.0, and 3.2 to 63.5%, respectively. H2 for bioactive compounds ranged from moderate to slightly high (16.3–38.8%). These findings, supported by laboratory analyses, suggest that genotypes under agronomic selection have potential as parents to enhance fruit quality in current and future breeding programs. Full article
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18 pages, 1934 KB  
Article
Reproductive Diversity in Cultivated Tomato (Solanum lycopersicum L.): Relationships Among Floral, Fruit and Seed Traits
by Fabrizio Olivieri, Lorenzo Mancini, Barbara Farinon, Maurizio Enea Picarella and Andrea Mazzucato
Plants 2026, 15(6), 878; https://doi.org/10.3390/plants15060878 - 12 Mar 2026
Cited by 1 | Viewed by 1025
Abstract
The extensive diversification of flower shape and organs underpins the adaptive success of angiosperms. Despite substantial knowledge of the molecular mechanisms controlling flower induction and development, few studies have quantified the variability in floral traits within species or explored their correlation with other [...] Read more.
The extensive diversification of flower shape and organs underpins the adaptive success of angiosperms. Despite substantial knowledge of the molecular mechanisms controlling flower induction and development, few studies have quantified the variability in floral traits within species or explored their correlation with other reproductive traits. In cultivated tomato (Solanum lycopersicum L.), human selection has driven fruit diversification in terms of size and shape. In the present study, 48 landraces representing tomato diversity in reproduction-related characteristics were phenotyped for 18 flower structural or dimensional traits. Flower traits exhibited lower coefficients of variation compared to other reproductive traits, though organ numbers showed high heritability values. Flower organ number and size were tightly correlated, but the correlation between dimensional traits was weaker. This likely reflects the selective pressures on pistil traits during domestication, including specific mutations affecting carpel number and ovary morphology. While ovary and fruit size were positively correlated, no relationship was found between ovule and seed size, suggesting that genes related to seed size generally act after fruit set. The collection was genotyped at the Fasciated (Fas) locus, and 13 floral traits were significantly different in fas mutants. The phenotypic variability described in this study could help breeders select for more fertile flowers and assist reproductive biologists in linking genes to flower development. Full article
(This article belongs to the Special Issue Floral Biology, 4th Edition)
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20 pages, 2048 KB  
Article
Effect of Tm-2a, Sw-5 and Ty-1 Gene Introduction on the Agronomic Performance and Metabolic Profile of Traditional Muchamiel-Type Tomato Varieties
by Alicia Sánchez, Juana Cava, Virginia Hernández, Pilar Flores, Santiago García-Martínez, Pedro Carbonell, Elena Sánchez, Nuria López, Elia Molina, José Fenoll and Pilar Hellín
Horticulturae 2025, 11(7), 838; https://doi.org/10.3390/horticulturae11070838 - 15 Jul 2025
Cited by 1 | Viewed by 1312
Abstract
The introduction of virus resistance genes into traditional tomato varieties offers a strategy to preserve genetic diversity and enhance commercial viability. However, the homozygous presence of these genes has been associated with negative effects on yield and fruit quality. This two-year study evaluated [...] Read more.
The introduction of virus resistance genes into traditional tomato varieties offers a strategy to preserve genetic diversity and enhance commercial viability. However, the homozygous presence of these genes has been associated with negative effects on yield and fruit quality. This two-year study evaluated the impact of introducing the Tm-2a, Sw-5 and Ty-1 genes, which are associated with resistance to ToMV, TSWV and TYLCV, respectively, on the agronomic yield, fruit characteristics and metabolic profile of Muchamiel-type cultivars. Four hybrids were obtained by crossing two breeding lines carrying the resistance genes in homozygosis (UMH1139 and UMH1200) with two traditional susceptible varieties (MC1 and MC2). Hybrids matched or exceeded the agronomic performance of their parents. Fruit morphology of the hybrids was similar to traditional parents. The presence of Ty-1 correlated with reduced organic acid concentration, though hybrids exhibited higher levels than the homozygous line, UMH1200. No negative effects on soluble sugars or secondary metabolites were observed. Genotypes carrying resistance genes, breeding lines and hybrids exhibited higher flavonoid contents, suggesting a potential role in virus response. Hybrids maintained or improved the bioactive profile of traditional varieties. These findings support the development of Muchamiel-type hybrids that combine the presence of virus resistance genes in heterozygosity with the desirable traits of traditional tomatoes. Full article
(This article belongs to the Special Issue Genetics, Genomics and Breeding of Vegetable Crops)
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20 pages, 6718 KB  
Article
Genetic Diversification of Tomato and Agricultural Soil Management Shaped the Rhizospheric Microbiome of Tomato (Solanum lycopersicum)
by Máximo González, Juan Pablo Araya-Angel, Ashlie Muñoz, Adalid Alfaro-Flores, Massimiliano Cardinale and Alexandra Stoll
Microorganisms 2025, 13(7), 1550; https://doi.org/10.3390/microorganisms13071550 - 1 Jul 2025
Cited by 4 | Viewed by 1772
Abstract
The domestication process not only reduced the allelic diversity of tomato genotypes but also affected the genetic traits associated to microbial recruitment, their composition, and their diversity in different compartments of the plant host. Additionally, this process included the transition from natural to [...] Read more.
The domestication process not only reduced the allelic diversity of tomato genotypes but also affected the genetic traits associated to microbial recruitment, their composition, and their diversity in different compartments of the plant host. Additionally, this process included the transition from natural to agricultural soils, which differ in nutrient availability, physicochemical properties, and agricultural practices. Therefore, modern cultivars may fail to recruit microbial taxa beneficial to their wild relatives, potentially losing important ecological functions. In this study, we analyzed the phylogenetic relationship and the rhizosphere microbiota of four tomato genotypes, Solanum chilense (wild species), S. lycopersicum var. cerasiforme (Cherry tomato), and the S. lycopersicum landrace ‘Poncho Negro’ and the modern cultivar ‘Cal Ace’, grown in both natural and agricultural soils. Microbial communities were identified using 16S rRNA (bacteria) and ITS2 (fungi) amplicon sequencing, allowing cross-domain taxonomic characterization. While the soil type was the main driver of overall microbial diversity, the host genotype influenced the recruitment of specific microbial taxa, which exhibited different recruitment patterns according to the genetic diversification of Solanum genotypes and soil types. Additionally, co-occurrence network analysis identified two main clusters: first, taxa did not show any preferential associations to particular genotypes or soil types, while the second cluster revealed specific microbial patterns associated to fungal taxa in natural soil and bacterial taxa in agricultural soil. Finally, the functional analysis suggested the loss of specific functions through tomato domestication independently of soil type. These findings highlight the role of the plant genotype as a fine-tuning factor in microbiome assembly, with implications for breeding strategies aimed at restoring beneficial plant–microbe interactions. Full article
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19 pages, 1138 KB  
Article
Exploring the Benefits of Greek Tomato Landraces for Development of High Yield and Quality Hybrids in Organic Farming Systems
by Rafail Tagiakas, Efthalia Vardaki, Evangelos Katsanoulas, Stavroula Kostoula, Athanasios Mavromatis, Ioannis Xynias and Ilias D. Avdikos
Horticulturae 2025, 11(3), 296; https://doi.org/10.3390/horticulturae11030296 - 9 Mar 2025
Cited by 1 | Viewed by 2792
Abstract
Nowadays, there is a lack of high-performing genetic materials specifically developed to thrive under low-input conditions and meet the demands of organic agriculture. This study aims to evaluate seven improved Greek tomato landraces and their (F1) hybrids designed for low-input farming systems as [...] Read more.
Nowadays, there is a lack of high-performing genetic materials specifically developed to thrive under low-input conditions and meet the demands of organic agriculture. This study aims to evaluate seven improved Greek tomato landraces and their (F1) hybrids designed for low-input farming systems as a potential solution to the shortage of superior varieties for organic farming in specific environments. This evaluation focuses on yield components and fruit quality parameters. According to the results, experimental genetic material matches or exceeds the performance of the commercial (F1) hybrid Formula and outperforms the control variety cv. Macedonia (pure line), indicating that selected inbred lines (S.I.L.s) originated from landraces that developed under low-input conditions and are better suited to organic farming systems. For instance, the improved line (S.I.L.) from landrace Pantaroza pink has only a 13% lower total yield compared to (F1) commercial hybrid Formula, whereas the (F1) hybrid between Pantaroza pink × Kardia vodiou surpasses it, by 23%. In conclusion, tomato landraces are an important gene pool for seed development for organic or low-input farming systems, especially under the circumstances of climate change, presenting increasing challenges. Improving these local genetic materials using mild breeding approaches under low-input conditions leads to the production of new selected pure lines (S.I.L.s) along with their (F1) hybrids, which could ensure high-quality products with satisfactory yield and low requirements, offering an innovative pathway toward sustainable agriculture. Full article
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16 pages, 2739 KB  
Article
Novel Alleles of the Potato Leaf Gene Identified in Italian Traditional Varieties Conferring Potato-like Leaf Shape in Tomato
by Lorenzo Mancini, Barbara Farinon, Ludovica Fumelli, Maurizio Enea Picarella, Andrea Mazzucato and Fabrizio Olivieri
Horticulturae 2025, 11(2), 129; https://doi.org/10.3390/horticulturae11020129 - 25 Jan 2025
Cited by 1 | Viewed by 2228
Abstract
The genetic diversity of tomato in Italy and the growing interest in high-quality food products highlight the importance of establishing varietal distinctiveness through molecular strategies to ensure agrifood product quality and traceability. In this study, four Italian potato-like leaf (PL) landraces were analyzed: [...] Read more.
The genetic diversity of tomato in Italy and the growing interest in high-quality food products highlight the importance of establishing varietal distinctiveness through molecular strategies to ensure agrifood product quality and traceability. In this study, four Italian potato-like leaf (PL) landraces were analyzed: “Spagnoletta di Formia e di Gaeta” (SPA) from southern Lazio, “Giagiù” (GIA) and “Patanara” (PTN) from Campania, and “Pomodoro di Mola” (MOL) from Apulia. These landraces were genotyped for the potato leaf gene (C), with two PL American genotypes and a non-allelic PL mutant line included as outgroups. Nagcarlang served as control. An allelism test confirmed C as determinant gene. The SCAR marker for C revealed that the Italian landraces presented determinants other than the most representative one responsible for PL. Whole-genome sequencing of SPA identified a private novel nonsense SNP variant allele, confirmed through dCAPS marker analysis. Additionally, two novel PL alleles responsible for missense variations were identified in GIA/PTN and MOL. In silico protein analysis suggested that novel C alleles could be functional determinants for the protein activity. Overall, PL mutations identified for the first time could serve as molecular tools for agrifood chain traceability, enabling early differentiation and recognition of genotypically similar varieties. Full article
(This article belongs to the Special Issue Genomics and Genetic Diversity in Vegetable Crops)
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24 pages, 2315 KB  
Article
Deficit Irrigation Response and Climate Resilience of Mediterranean Tomato Landraces
by Yüksel Tüzel, Hüseyin Biyke, Omar S. Harouna, Tunç Durdu, Mahmut Tepecik, Gölgen B. Oztekin, Ulaş Tunalı and Nazim S. Gruda
Horticulturae 2025, 11(1), 74; https://doi.org/10.3390/horticulturae11010074 - 11 Jan 2025
Cited by 9 | Viewed by 2853
Abstract
Vegetable production worldwide is heavily influenced by climate change. We aimed to determine the responses of some local tomato landraces from Mediterranean countries pre-selected as drought tolerant according to previous screening tests at an early stage. Three irrigation approaches were applied: Full irrigation [...] Read more.
Vegetable production worldwide is heavily influenced by climate change. We aimed to determine the responses of some local tomato landraces from Mediterranean countries pre-selected as drought tolerant according to previous screening tests at an early stage. Three irrigation approaches were applied: Full irrigation (Ir-Full), Deficit 1 (Ir-Def1), and Deficit 2 (Ir-Def2) irrigation. Drought stress was simulated via controlled irrigation deficit, reducing the amount of water applied by 35% and 50% in Ir-Def1 and Ir-Def2, respectively. Plant growth, yield, some fruit physicochemical properties, water consumption, and water use efficiency were measured. The results revealed that water deficit adversely affected total and marketable yields, plant growth, and biomass while enhancing some specific quality parameters. Landrace responses varied across different levels of water deficit. Among the tested tomato landraces, ‘Valldemossa’, ‘Chondrokats’, and ‘TR62367’ exhibited strong yield performance, with up to 4 kg m−2 under water-limited conditions, whereas ‘Cherry-INRAE 1’, ‘Cherry-INRAE 3’, and ‘Cherry-INRAE 4’ excelled in fruit quality attributes, reaching up to 9.3% Brix, 14.07 mg 100 g−1 vitamin C, 7.77 mg GAE 100 g−1 total phenols, and 75.74 µmol TE g−1 antioxidant activity. The amount of water could be reduced by 35% without compromising yield or quality in the most drought-tolerant landraces. Full article
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14 pages, 1340 KB  
Article
Evaluation of Tomato Landraces for Tolerance to Drought Stress Using Morphological and Physiological Traits
by Stanislava Grozeva, Elena Topalova, Daniela Ganeva and Ivanka Tringovska
Int. J. Plant Biol. 2024, 15(4), 1391-1404; https://doi.org/10.3390/ijpb15040096 - 23 Dec 2024
Cited by 6 | Viewed by 3188
Abstract
Drought is among the stress factors that, on a global scale, have direct negative effects on plant growth, yield, and quality. Great efforts are directed towards water shortage adaptation. Exploring the genetic diversity of landraces often tolerant to locally occurring stress can represent [...] Read more.
Drought is among the stress factors that, on a global scale, have direct negative effects on plant growth, yield, and quality. Great efforts are directed towards water shortage adaptation. Exploring the genetic diversity of landraces often tolerant to locally occurring stress can represent a valuable source for the development of cultivars with yield stability and improved quality under stress conditions. This study aimed to identify drought-tolerant tomato landraces based on an integrated approach involving morphological traits and physiological parameters. To investigate the effects of water deficit, five landraces and two controls were tested under optimum and 50% reduced irrigation. Yield and yield-related traits, color, firmness, and chlorophyll fluorescence measurements were evaluated. The summarized results indicated that the tomato landraces differed in their responses to water deficit. Water deficit decreased the yield by 44% and the average fruit weight by 29%. Physiological parameters were also significantly affected by water scarcity, with a decrease in the ratios Fv/Fm (the maximum quantum yield of PSII) and Fv/Fo (the maximum primary yield of photochemistry) of 8.2% and 35.5%, respectively, at 14 days’ exposure to stress. Landrace 1352, characterized by indeterminate growth habit and large, rounded, and red-colored fruits, showed a significantly lower reduction in yield and physiological parameters under reduced irrigation and could be used in breeding programs to develop new tomato lines combining resistance with quality. Full article
(This article belongs to the Section Plant Response to Stresses)
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16 pages, 2252 KB  
Article
Managing the Nutraceutical and Sensorial Qualities of Pisanello, an Ancient Tomato Landrace, in Soilless Conditions
by Fatjon Cela, Basma Najar, Isabella Taglieri, Chiara Sanmartin, Giulia Carmassi, Costanza Ceccanti, Luca Incrocci and Francesca Venturi
Appl. Sci. 2024, 14(20), 9503; https://doi.org/10.3390/app14209503 - 17 Oct 2024
Cited by 1 | Viewed by 1735
Abstract
Recently, there has been significant consumer demand for traditional tomato varieties due to their favourable organoleptic qualities; however, the cultivation of these ancient varieties is becoming more restricted due to inadequate shelf life and low productivity. The “Pisanello” is a Tuscany tomato variety [...] Read more.
Recently, there has been significant consumer demand for traditional tomato varieties due to their favourable organoleptic qualities; however, the cultivation of these ancient varieties is becoming more restricted due to inadequate shelf life and low productivity. The “Pisanello” is a Tuscany tomato variety mainly cultivated in the provinces of Pisa, Lucca, and Livorno, and the main producers of this ancient tomato are small local farmers. The purpose of this work was, firstly, to study the range of quality parameters of this landrace tomato grown using different cultivation techniques, both in soil and soilless systems. For this purpose, the physicochemical parameters of Pisanello tomatoes grown in six different farms in Tuscany using both soilless and soil methods were investigated. Secondly, Pisanello tomatoes grown using different soilless techniques (rockwool and aeroponics) and soil-grown tomatoes (Pisanello and Goldmar F1) were evaluated from organoleptic and nutraceutical points of view. The sensory profile evaluation of all types of tomatoes under investigation was carried out. The aeroponic cultivation of Pisanello induced higher organoleptic qualities than those of tomatoes cultivated in rockwool (+34% for titratable acidity and +18% for total soluble solids). On the other hand, soilless rockwool-grown tomatoes showed a better sensory profile with respect to aeroponic cultivation. Nevertheless, the Goldmar F1 tomato, morphologically similar to ‘Pisanello’, received lower scores from the sensory panel compared to the Tuscany landrace tomato. This indicates that ancient tomato varieties selected over decades remain the preferred choice for consumers. Therefore, from a long-term viewpoint, the valorisation of local tomato varieties such as Pisanello can promote the regional commercialization of novel niche products originating from ancient fruit thanks to their acceptability by consumers. Full article
(This article belongs to the Special Issue Advanced Phytochemistry and Its Applications)
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24 pages, 6101 KB  
Article
Potential Impact of Drought and Rewatering on Plant Physiology and Fruit Quality in Long-Shelf-Life Tomatoes
by Cristina Patanè, Sarah Siah, Valeria Cafaro, Salvatore L. Cosentino and Sebastiano A. Corinzia
Agronomy 2024, 14(9), 2045; https://doi.org/10.3390/agronomy14092045 - 6 Sep 2024
Cited by 3 | Viewed by 2287
Abstract
In this study, the effects of repeated cycles of drying and rehydration on some physiological traits were assessed in long shelf-life tomatoes cultivated in a typical semi-arid area of Southern Italy. Three Sicilian landraces (‘Custonaci’, ‘Salina’, and ‘Vulcano’) from the germplasm collection at [...] Read more.
In this study, the effects of repeated cycles of drying and rehydration on some physiological traits were assessed in long shelf-life tomatoes cultivated in a typical semi-arid area of Southern Italy. Three Sicilian landraces (‘Custonaci’, ‘Salina’, and ‘Vulcano’) from the germplasm collection at CNR-IBE (Catania, Italy) and a commercial tomato mini-plum (‘Faino Hy., control) were investigated under three water regimes: DRY (no irrigation), IRR (long-season full irrigation) and REW (post-drought rewaterings). Net photosynthetic assimilation rate (Pn), leaf transpiration (E), stomatal conductance (gs), instantaneous water use efficiency (WUEi), leaf intercellular CO2 (Ci, ppm), and leaf temperature (°C), were measured during the growing season. At harvest (late July), fruit production per plant was measured and ripened fruits were analysed for total solids (TS), soluble solids (SS), reducing sugars (RS), vitamin C (AscA), and total phenols (TP). Pn promptly responded to rewatering (REW), quickly increasing immediately after irrigation, and declined with soil drying up. All genotypes had similar physiological pathways in DRY, but in IRR, ‘Faino’ had higher Pn (up to 31 μmol CO2 m−2s−1) and E (up to 18 mmol H2O m−2s−1). Stomatal conductance (gs) after rewatering steeply increased and quickly declined after that. All local landraces had the same gs in IRR and REW. Variations in RWC were less pronounced than those in other physiological parameters. WUEi in REW and DRY proceeded similarly (up to 3 μmol CO2 mmol H2O). Irrigation in REW significantly promoted plant productivity over the DRY control (up to +150% in ‘Vulcano’). TS and SS in REW were lower than those in DRY, but higher (+19 and +7%, respectively) than in IRR. Vitamin C was greater in DRY and REW (26 and 18% higher than in IRR, respectively). TP in all local tomatoes were significantly higher (up to +29% in ‘Vulcano’) than those in the commercial control. Water regime had a minor effect on TP in ‘Custonaci’ and ‘Salina’. Principal Component Analysis (PCA) provided information on the changes in physiological and fruit quality traits in tomatoes in relation to cultivars and water regimes. The results of this study also revealed that a water-saving irrigation strategy where few irrigations are applied after prolonged periods of drought might be profitable in terms of fruit production enhancement in long shelf-life tomatoes and that limited rewaterings in most cases, help retaining high levels of fruit quality traits. Full article
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12 pages, 672 KB  
Article
Biostimulant Effects of Algae Species, Arbuscular Mycorrhizal Fungi, and Their Combinations on Yield and Quality of Yellow Tomato Landrace Under Different Crop Cycles
by Soumaya Abidi, Alessio Vincenzo Tallarita, Eugenio Cozzolino, Vasile Stoleru, Otilia Cristina Murariu, Amina Abidi, Roberto Maiello, Vincenzo Cenvinzo, Pasquale Lombardi, Antonio Cuciniello, Lamia Hamrouni, Gianluca Caruso and Rafik Balti
Horticulturae 2024, 10(8), 876; https://doi.org/10.3390/horticulturae10080876 - 19 Aug 2024
Cited by 2 | Viewed by 2293
Abstract
Recent agricultural research has prioritized the development of environmentally friendly management strategies to ensure food security, among which the application of biostimulants such as brown algae extracts, arbuscular mycorrhizal fungi (AMF), and their combination are included. The experimental protocol was based on the [...] Read more.
Recent agricultural research has prioritized the development of environmentally friendly management strategies to ensure food security, among which the application of biostimulants such as brown algae extracts, arbuscular mycorrhizal fungi (AMF), and their combination are included. The experimental protocol was based on the factorial combination of two planting times (4 May and 1 June) and seven biostimulant treatments (three brown algae species, Cystoseria tamariscifolia—C.t.; Fucus vesiculosus—F.v.; Padina pavonica—P.p.; arbuscular mycorrhizal fungi—AMF; C.t. + AMF; F.v. + AMF; P.p. + AMF) plus an untreated control. The earlier transplant resulted in a higher yield, due to the higher number of fruits per plant, and a higher plant fresh and dry biomass. The treatments with P.p. and F.v. extracts and the combination P.p. + AMF led to the highest yields (56.7 t ha−1), mainly due to the highest fruit number per plant. The earlier planting time led to higher values of dry residue, soluble solids, firmness, and colour component ‘a’. The highest values of fruit dry residue were recorded under the F.v. and P.p. extracts, and the combinations F.v. + AMF and P.p. + AMF, the highest soluble solid content with P.p. treatment, and firmness under P.p. + AMF. The highest levels of ‘L’ and ‘a’ fruit colour components were obtained under the P.p. extract treatment, of ‘b’ upon the application of P.p. and F.v. extract, and AMF + P.p. and AMF + F.v. The later planting time led to significantly higher values of the antioxidant parameters, as did the application of the P.p. extract and P.p. + AMF. CAT activity was more intense corresponding to the later tomato crop cycle, P.p. extract, and AMF + P.p. Overall, our study highlights the potential of biostimulants, particularly brown algae extracts and their combination with AMF, to improve tomato yield, antioxidant properties, and biochemical activities. Full article
(This article belongs to the Section Plant Nutrition)
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14 pages, 1392 KB  
Article
Evaluation of the Impact of the Ripening Stage on the Composition and Antioxidant Properties of Fruits from Organically Grown Tomato (Solanum lycopersicum L.) Spanish Varieties
by Ivan Cruz-Chamorro, Guillermo Santos-Sánchez, Franz Martín, María-Soledad Fernández-Pachón, Dámaso Hornero-Méndez and Isabel Cerrillo
Foods 2024, 13(15), 2337; https://doi.org/10.3390/foods13152337 - 25 Jul 2024
Cited by 4 | Viewed by 3118
Abstract
Tomato (Solanum lycopersicum L.) is a widely cultivated horticultural crop. It belongs to the Solanaceae family and is known for its high concentration of essential nutrients, including vitamins, minerals, and bioactive compounds with antioxidant properties. The Mediterranean countries, including Italy, Spain, and [...] Read more.
Tomato (Solanum lycopersicum L.) is a widely cultivated horticultural crop. It belongs to the Solanaceae family and is known for its high concentration of essential nutrients, including vitamins, minerals, and bioactive compounds with antioxidant properties. The Mediterranean countries, including Italy, Spain, and Greece, have a diverse range of tomato landraces. Assessing the nutritional and bioactive composition of different tomato varieties and their ripening stages is crucial to determine their suitability for the market. Therefore, the aim of this study was to investigate the effect of ripening on nutritional composition (including carotenoids and polyphenols content) and antioxidant activities of fruits of three specific tomato varieties grown in Spain: Josefina and Karelya, which are cherry-like tomatoes, and Muchamiel, a type of salad tomato. In addition to evaluating their characteristics and composition (including carotenoids and polyphenol content), the antioxidant activities of these varieties at three different ripening stages were quantified. As expected, the results reveal that, as the tomatoes matured, their antioxidant capacity increased along with higher levels of carotenoids and polyphenols. Interestingly, cherry-like tomatoes showed a higher antioxidant activity than the salad tomatoes. This investigation emphasizes the role of fruit ripening in increasing carotenoid levels, which contribute to the antioxidant activity of three tomato varieties. Full article
(This article belongs to the Topic Advances in Analysis of Food and Beverages)
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28 pages, 4867 KB  
Article
Improving the Salt Tolerance of “Old Limachino Tomato” by Using a New Salt-Tolerant Rootstock
by Juan-Pablo Martínez, Raúl Fuentes, Danitza Badilla, Camila Rosales, Juan Felipe Alfaro-Quezada, Francisco Correa, Carolina Lizana, Boris Sagredo, Muriel Quinet and Stanley Lutts
Horticulturae 2024, 10(8), 780; https://doi.org/10.3390/horticulturae10080780 - 24 Jul 2024
Cited by 2 | Viewed by 2140
Abstract
Salinity is a major constraint limiting the yield of tomatoes. However, grafting strategies may help to overcome the salt toxicity of this important horticultural species if appropriate rootstocks are identified. The present study aimed to test a new rootstock, JUPAFORT1, obtained by crossing [...] Read more.
Salinity is a major constraint limiting the yield of tomatoes. However, grafting strategies may help to overcome the salt toxicity of this important horticultural species if appropriate rootstocks are identified. The present study aimed to test a new rootstock, JUPAFORT1, obtained by crossing the glycophyte Solanum lycopersicum (cv. Poncho Negro) with the halophyte wild-related species Solanum chilense to improve the salinity tolerance of the Chilean tomato landrace Old Limachino Tomato (OLT). Intact OLT plants were exposed to 0, 80, or 160 mM of NaCl for 21 days at the vegetative stage and compared with self-grafted (L/L) and Limachino plants grafted on JUPAFORT1 rootstock (L/R) under a completely randomized design. JUPAFORT1 increased OLT scion vigor in the absence of salt but did not significantly increase fresh weight under stress conditions. However, JUPAFORT1 confers to the scion an anisohydric behavior contrasting with the isohydric behavior of L and L/L plants as indicated by measurements of stomatal conductance; L/R plants were able to maintain their metabolic status despite a slight decrease in the leaf’s relative water content. JUPAFORT1 rootstock also enabled the maintenance of photosynthetic pigment concentrations in the scion in contrast to L and L/L plants, which exhibited a decrease in photosynthetic pigments under stress conditions. L/R plants encountered oxidative stress at the highest stress intensity (160 mM of NaCl) only, while L and L/L plants suffered from oxidative damage at a lower dose (80 mM of NaCl). L/R plants behaved as includer plants and did not sequester Na+ in the root system, in contrast to L and L/L, which behaved as excluder plants retaining Na+ in the root system to avoid its translocation to the shoots. The expression of genes coding for ion transporters (HKT1.1, HKT1.2, LKT1, SKOR, SOS2, and SOS3) in the root system was not modified by salinity in L/R. In contrast, their expression varied in response to salinity in L and L/L. Overall, L/R plants exhibited higher physiological stability than L/L or L plants in response to an increasing NaCl dose and did not require additional energy investment to trigger an adaptative response to salinity. This suggests that the constitutive salinity tolerance of the halophyte S. chilense was maintained in the interspecific rootstock. JUPAFORT1 issued from S. lycopersicum x S. chilense may thus improve salt-stress resilience in OLT tomatoes. Additional studies are required to identify the molecular components involved in the root-to-shoot signaling pathway in this promising material. Full article
(This article belongs to the Special Issue Horticultural Plants’ Response to Biotic and Abiotic Stresses)
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16 pages, 1867 KB  
Article
Behind the Loss of Salinity Resistance during Domestication: Alternative Eco-Physiological Strategies Are Revealed in Tomato Clade
by Antonio Pompeiano, Tommaso Michele Moles, Viviana Viscomi, Andrea Scartazza, Thais Huarancca Reyes and Lorenzo Guglielminetti
Horticulturae 2024, 10(6), 644; https://doi.org/10.3390/horticulturae10060644 - 15 Jun 2024
Cited by 3 | Viewed by 1618
Abstract
Salinity stress impairs growth and physiological performance in tomato, which is one of the most economically important vegetables and is widely cultivated in arid and semi-arid areas of the world. Plant landraces, which are heterogeneous, local adaptations of domesticated species, offer a unique [...] Read more.
Salinity stress impairs growth and physiological performance in tomato, which is one of the most economically important vegetables and is widely cultivated in arid and semi-arid areas of the world. Plant landraces, which are heterogeneous, local adaptations of domesticated species, offer a unique opportunity to valorize available germplasm, underpinning the productivity, resilience, and adaptive capacity of staple crops in vulnerable environments. Here, we investigated the response of fully mature tomato plants from a commercial variety, an ancestral wild relative, and a landrace under short-term salinity exposure, as well as their ability to recover upon cessation of stress. The heterogeneous panel evaluated in this study revealed different adaptative strategies to cope the stress. Our data highlighted the ability of the tomato clade to handle low and intermediate salinity stress for short-term exposure time, as well as its capacity to recover after the cessation of stress, although inter- and intraspecific variations in morphological and physiological responses to salinity were observed. Overall, the landrace and the wild type performed similarly to control conditions under low salinity, demonstrating an improved ability to maintain ionic balance. In contrast, the commercial genotype showed susceptibility and severe symptoms even under low salinity, with pronounced reductions in K+/Na+ ratio, PSII photochemical efficiency, and photosynthetic pigments. This research confirmed that improved salt tolerant genotypes can lead to substantial, positive impacts on horticultural production. While the salt tolerance mechanism of domesticated tomato was efficient under mild stress conditions, it failed at higher salinity levels. Full article
(This article belongs to the Collection Biosaline Agriculture)
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18 pages, 2680 KB  
Article
Salinity Impact on Yield, Quality and Sensory Profile of ‘Pisanello’ Tuscan Local Tomato (Solanum lycopersicum L.) in Closed Soilless Cultivation
by Fatjon Cela, Giulia Carmassi, Basma Najar, Isabella Taglieri, Chiara Sanmartin, Susanna Cialli, Costanza Ceccanti, Lucia Guidi, Francesca Venturi and Luca Incrocci
Horticulturae 2024, 10(6), 570; https://doi.org/10.3390/horticulturae10060570 - 30 May 2024
Cited by 11 | Viewed by 2898
Abstract
Tomatoes are globally renowned for their nutritional value and culinary versatility. However, environmental stresses, particularly salinity, present significant challenges to tomato production, impacting both yield and fruit quality. In light of these challenges, this study investigates the effect of salinity on yield and [...] Read more.
Tomatoes are globally renowned for their nutritional value and culinary versatility. However, environmental stresses, particularly salinity, present significant challenges to tomato production, impacting both yield and fruit quality. In light of these challenges, this study investigates the effect of salinity on yield and fruit quality of a local cultivar tomato named ‘Pisanello’ in a closed soilless rockwool cultivation system. Total yield, fruit size, and number were investigated in both control (10 mM of NaCl) and salinity-treated plants (salinity 1 (S1)~30 mM of NaCl and salinity 2 (S2)~60 mM of NaCl), alongside various physicochemical parameters in fully ripened tomato fruits. The results indicated a decrease in crop production with rising sodium chloride concentration in the nutrient solution (25% and 41% for S1 and S2 treatment, respectively). Conversely, salinity-treated fruits exhibited an increase in total phenolic content of +21.9% in S1 and +36.7% in S2 and in antioxidant capacity (+33.5% and +34.7%, for the S1 and S2 treatments, respectively). Salinity treatments registered in general higher quality parameters such as titratable acidity (+8.9 for S1 and +16.5% for S2), total soluble solids (+18.5% for S1 and +43.0% for S2) and fruit firmness (+30.7% for S1 and +60.3% for S2) in comparison with control tomato fruits. Sensory profile analysis further validated the preference for fresh consumption of tomato fruits grown with saline water. These findings suggests that salinity stress can enhance the nutritional quality and taste of the Pisanello tomato. Further investigation could explore the optimal NaCl concentration to balance tomato production and nutritional quality. Full article
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