Your search keyword '"Filippo Vetrano"' showing total 41 results

1. Golden Tomato Juice Enhances Hepatic PPAR-α Expression, Mitigates Metabolic Dysfunctions and Influences Redox Balance in a High-Fat-Diet Rat Model

Author

Danila Di Majo, Nicolò Ricciardi, Alessandra Moncada, Mario Allegra, Monica Frinchi, Valentina Di Liberto, Rosa Pitonzo, Francesca Rappa, Filippo Saiano, Filippo Vetrano, Alessandro Miceli, Giuseppe Giglia, Giuseppe Ferraro, Pierangelo Sardo, and Giuditta Gambino

Subjects

oxylipin, metabolic syndrome, PPAR-α, leptin, oxidative stress, functional food, Therapeutics. Pharmacology, RM1-950

Abstract

Golden tomato (GT), harvested at the veraison stage, has gained attention due to its rich content of bioactive compounds and potential health benefits. Previous studies have highlighted GT’s antioxidant properties and its positive effects on metabolic syndrome (MetS), a condition characterized by obesity, dyslipidemia, and oxidative stress. This study investigates for the first time a derivative from GT, i.e., the juice (GTJ), which could be a potential candidate for development as a functional food. We first characterized GT juice, identifying 9-oxo-10(E),12(E)-octadecadienoic (9-oxo-10(E),12(E)-ODA) fatty acid, a known peroxisome proliferator-activated receptor alpha (PPAR-α) agonist, using High-Performance Liquid Chromatography (HPLC)–mass spectrometry. Then, using a high-fat-diet (HFD) rat model, we assessed the impact of daily GT juice supplementation in addressing MetS. We outlined that GTJ improved body weight and leptin-mediated food intake. Moreover, it ameliorated glucose tolerance, lipid profile, systemic redox homeostasis, hepatic oxidative stress, and steatosis in HFD rats. Furthermore, GT juice enhances the hepatic transcription of PPAR-α, thus putatively promoting fatty acid oxidation and lipid metabolism. These findings suggest that GT juice mitigates lipidic accumulation and putatively halters oxidative species at the hepatic level through PPAR-α activation. Our study underscores the protective effects of GT juice against MetS, highlighting its future potential as a nutraceutical for improving dysmetabolism and associated alterations.

Published

2024

2. Screening Local Sicilian Tomato Ecotypes to Evaluate the Response of Tomato Brown Rugose Fruit Virus Infection

Author

Andrea Giovanni Caruso, Stefano Panno, Arianna Ragona, Rosa Peiró, Filippo Vetrano, Alessandra Moncada, Alessandro Miceli, Consuelo Maria La Marra, Luis Galipienso, Luis Rubio, and Salvatore Davino

Subjects

tomato, tobamovirus, ToBRFV, ecotype evaluation, virus tolerance, Agriculture

Abstract

Tomato is one of the most important crops worldwide, with a production of ≈190 million tons, but it is constantly threatened by several viral diseases. Tomato brown rugose fruit virus (ToBRFV), identified in 2014 on tomato plants and subsequently reported in many countries, represents one of the major threats to tomato crops, due to production losses, different transmission modes and its rapid spread. This work aimed to evaluate 37 local Sicilian tomato ecotypes against ToBRFV infection. After a preliminary screening by molecular analyses for tomato mosaic virus (ToMV) and pepino mosaic virus (PepMV), and ToBRFV detection, tomato plants were grown in a greenhouse for their morphological characterization and for evaluating resistance and tolerance to ToBRFV. Resistance and tolerance levels were estimated by mechanical inoculation with ToB SIC01/19 ToBRFV isolate in ten plants per ecotype and evaluating virus accumulation by RT-qPCR and visual observation of symptoms. All ecotypes were infected with ToBRFV, showing several symptoms with different disease severity. No tomato ecotype showed a high level of resistance, but two ecotypes, Pop27 and Pop35, showed very moderate symptoms and therefore a high tolerance. These Sicilian tomato ecotypes could be used in genetic breeding programs as parental ones to obtain cultivars tolerant to ToBRFV.

Published

2024

3. Response of Tagetes patula L. and Ageratum houstonianum Mill. to Microbial Biostimulant Inoculation and Organic Fertilization

Author

Alessandro Miceli, Alessandra Moncada, Filippo Vetrano, and Alessandro Esposito

Subjects

bedding plants, French marigold, flossflower, liquid fertilizer, cultivation technique, organic farming, Agriculture

Abstract

A correct cultivation technique supported by scientific evidence that leads to high-quality standards can promote sustainable floriculture. It is urgent to find alternative solutions to the widely used chemical fertilizers and evaluate the effectiveness of other fertilizers. The liquid organic ones, already in use in organic vegetable farming, could be a good substitute if supplied together with growth-promoting products such as microbial biostimulants. In the hope of replacing the traditional chemicals with a more sustainable organic-based fertilization, the present investigation aimed to evaluate the effects of a microbial biostimulant and various combinations of organic and mineral fertilization on morphological characteristics and physiological parameters of Tagetes patula L. and Ageratum houstonianum Mill. The plants were grown in pots with a substrate inoculated or not with the microbial biostimulant and were fertigated with nutrient solutions at different concentrations of elements from mineral and/or organic sources. Six fertilization formulas were adopted: control (only water without fertilizer), 100% mineral fertilization, 50% mineral fertilization, 100% organic fertilization, 50% organic fertilization, and 50% mineral + 50% organic fertilization. For the organic fertilization, a commercial liquid fertilizer admitted in organic farming with 3-2-5.5 NPK with 3% organic nitrogen was used. Mineral fertilization was formulated to match the organic solution as closely as possible. We observed an improvement in ornamental value (stem diameter and shoot number) with the biostimulant inoculum. Generally, the 50% mineral and 50% organic fertilization did not negatively influence the morphological characteristics. The reduction by 50% in the mineral nutrients and the integration of this reduction with an organic fertilizer was feasible to produce potted plants of these species during spring in the Mediterranean area.

Published

2023

4. 'Golden' Tomato Consumption Ameliorates Metabolic Syndrome: A Focus on the Redox Balance in the High-Fat-Diet-Fed Rat

Author

Giuditta Gambino, Giuseppe Giglia, Mario Allegra, Valentina Di Liberto, Francesco Paolo Zummo, Francesca Rappa, Ignazio Restivo, Filippo Vetrano, Filippo Saiano, Eristanna Palazzolo, Giuseppe Avellone, Giuseppe Ferraro, Pierangelo Sardo, and Danila Di Majo

Subjects

tomato-based products, metabolic syndrome, HFD, antioxidant capacity, phytonutrients, Therapeutics. Pharmacology, RM1-950

Abstract

Tomato fruits defined as “golden” refer to a food product harvested at an incomplete ripening stage with respect to red tomatoes at full maturation. The aim of this study is to explore the putative influence of “golden tomato” (GT) on Metabolic Syndrome (MetS), especially focusing on the effects on redox homeostasis. Firstly, the differential chemical properties of the GT food matrix were characterized in terms of phytonutrient composition and antioxidant capacities with respect to red tomato (RT). Later, we assessed the biochemical, nutraceutical and eventually disease-modifying potential of GT in vivo in the high-fat-diet rat model of MetS. Our data revealed that GT oral supplementation is able to counterbalance MetS-induced biometric and metabolic modifications. Noteworthy is that this nutritional supplementation proved to reduce plasma oxidant status and improve the endogenous antioxidant barriers, assessed by strong systemic biomarkers. Furthermore, consistently with the reduction of hepatic reactive oxygen and nitrogen species (RONS) levels, treatment with GT markedly reduced the HFD-induced increase in hepatic lipid peroxidation and hepatic steatosis. This research elucidates the importance of food supplementation with GT in the prevention and management of MetS.

Published

2023

5. Effect of Mycorrhizal Inoculation on Melon Plants under Deficit Irrigation Regimes

Author

Alessandro Miceli, Filippo Vetrano, Livio Torta, Alessandro Esposito, and Alessandra Moncada

Subjects

Cucumis melo, water stress, evapotranspiration, water use efficiency, arbuscular mycorrhizal fungi, microbial biostimulant, Agriculture

Abstract

The shortage of good quantity and quality of water for irrigated agriculture is a major problem in arid and semiarid regions. To deal with this problem, deficit irrigation (DI) or arbuscular mycorrhizal fungi (AMF) inoculation have been proposed and adopted for many crops as a tool to save water, or to improve crop tolerance to drought stress. An experiment was conducted for two consecutive years to evaluate the effect of mycorrhizal inoculation on the physiological, morphological, yield, and quality characteristics of melon plants grown under deficit irrigation. Melon crop (Cucumis melo L. cv. Helios) was grown under field conditions adopting a split-plot design with four replications, where DI was the main factor and AMF inoculation was the secondary factor. DI treatments consisted of applying 60%, 80%, or 100% of crop evapotranspiration (ETc) on melon plants inoculated or not with a commercial biostimulant containing 50% of Rhizophagus irregularis, and 50% of Funneliformis mosseae. Moderate and severe deficit irrigation significantly reduced the relative water content, stomatal conductance, yield, nitrogen applied efficiency (NAE), and fruit firmness of the uninoculated plants, but significantly increased irrigation water use efficiency (IWUE) and the ascorbic acid content of the fruit. AMF had a positive effect on plant tolerance to moderate water stress, and on some fruit quality parameters (fruit length, firmness, and sugar content). The combined use of moderate deficit irrigation (80%) and soil inoculation with AMF on melon plants allows water savings without affecting fruit yield, and increases IWUE, NAE, and some fruit quality characteristics (firmness, SSC, and SSC/TA). Furthermore, the use of AMF plants could be worth it to reduce the yield loss and increase fruit quality, even with severe deficit irrigation (60%).

Published

2023

6. Effects of NAA and Ecklonia maxima Extracts on Lettuce and Tomato Transplant Production

Author

Alessandra Moncada, Filippo Vetrano, Alessandro Esposito, and Alessandro Miceli

Subjects

vegetable nursery, seedling, Solanum lycopersicum, Lactuca sativa, seaweed extract, synthetic auxins, Agriculture

Abstract

Ecklonia maxima and the commercial biostimulants produced from it contain various plant growth regulators that are responsible for the growth stimulation recorded in many crops. Auxins are one of the major plant growth regulators contained in E. maxima extracts. The aim of this research was to evaluate the growth-promoting effect of a seaweed extract from E. maxima on lettuce and tomato transplant production under nursery conditions, and to compare the effect of this extract with an equal concentration of synthetic auxin. Two doses of natural or synthetic exogenous auxins (50 or 100 μg L−1) were supplied to the substrate through the irrigation water with an ebb and flow system, 4, 11, and 18 days after sowing. A commercial biostimulant based on E. maxima extract was used as a source of natural auxin, while 1-naphthaleneacetic acid (NAA) was used as a synthetic auxin. Seedlings supplied only with water were used as a control. Tomato seedlings treated with 100 μg L−1 of natural auxins from E. maxima extract produced the tallest plants (+22%), with a higher leaf number (+12%), a wider leaf area (+44%), and a stronger stem (+12%), whereas lettuce seedling growth was promoted by all the treatments, but with a greater effect with increasing auxin supplementation and when using E. maxima extract, compared to NAA. The results showed that the supplementation of exogenous synthetic auxin (NAA), or an E. maxima extract containing natural auxins, can have a growth-promoting effect on lettuce and tomato seedlings. This effect was more evident on lettuce than tomato. The biostimulant produced from E. maxima extracts improved seedling quality and promoted shoot and root growth more than the NAA used as a synthetic source of auxins.

Published

2022

7. Influence of Ecklonia maxima Extracts on Growth, Yield, and Postharvest Quality of Hydroponic Leaf Lettuce

Author

Alessandro Miceli, Filippo Vetrano, and Alessandra Moncada

Subjects

biostimulants, seaweed extracts, Lactuca sativa L. var. Crispa, leafy vegetables, hydroponics, floating system, Plant culture, SB1-1110

Abstract

Ecklonia maxima is a brown algae seaweed largely harvested over the last years and used to produce alginate, animal feed, fertilizers, and plant biostimulants. Their extracts are commercially available in various forms and have been applied to many crops for their growth-promoting effects which may vary according to the treated species and doses applied. The aim of the study was to characterize the effect of adding an Ecklonia maxima commercial extract (Basfoliar Kelp; 0, 1, 2, and 4 mL L−1) to the nutrient solution of a hydroponic floating system on growth, yield, and quality of leaf lettuce at harvest and during cold storage (21 days at 4 °C). The supplementation of the E. maxima extract through the mineral nutrient solutions, especially between 2 and 4 mL L−1, enhanced plant growth and improved the yield and many morphological and physiological traits (biomass accumulation, leaf expansion, stomatal conductance, water use efficiency, nitrogen use efficiency, etc.). Preharvest treatments with E. maxima extract were effective in delaying leaf senescence and extending the shelf-life of fresh-cut leaf lettuce. The delay in leaf decay of treated samples allowed to retain an overall quality over the threshold of marketability for up to 21 d of cold storage, especially using 2 mL L−1 of extract.

Published

2021

8. Use of Microbial Biostimulants to Increase the Salinity Tolerance of Vegetable Transplants

Author

Alessandro Miceli, Alessandra Moncada, and Filippo Vetrano

Subjects

vegetable, nursery, seedling, Solanum lycopersium L., Lactuca sativa L., salt stress, Agriculture

Abstract

Vegetable plants are more sensitive to salt stress during the early growth stages; hence, the availability of poor-quality brackish water can be a big issue for the nursery vegetable industry. Microbial biostimulants promote growth and vigor and counterbalance salt stress in mature plants. This study aimed to evaluate the application of plant growth-promoting microorganisms for improving salt tolerance of lettuce and tomato seedlings irrigated with different water salinity levels (0, 25, and 50 mM NaCl) during nursery growth. Two commercial microbial biostimulants were applied to the substrate before seeding: 1.5 g L−1 of TNC BactorrS13 containing 1.3 × 108 CFU g−1 of Bacillus spp.; 0.75 g L−1 of Flortis Micorrize containing 30% of Glomus spp., 1.24 × 108 CFU g−1 of Agrobacterium radiobacter, Bacillus subtilis, Streptomyces spp. and 3 × 105 CFU g−1 of Thricoderma spp. Many morpho-physiological parameters of lettuce and tomato seedlings suffered the negative effect of salinity. The use of the microbial biostimulants modified seedling growth and its response to salt stress. They had a growth-promoting effect on the unstressed seedlings increasing fresh and dry biomass accumulation, leaf number, and leaf area and were successful in increasing salinity tolerance of seedlings especially when using Flortis Micorizze that enhanced salinity tolerance up to 50 mM NaCl. The inoculation of the substrate with microbial biostimulants could represent a sustainable way to improve lettuce and tomato transplant quality and to use brackish water in vegetable nurseries limiting its negative effect on seedling growth.

Published

2021

9. Effects of Foliar Application of Gibberellic Acid on the Salt Tolerance of Tomato and Sweet Pepper Transplants

Author

Alessandro Miceli, Filippo Vetrano, and Alessandra Moncada

Subjects

Solanum lycopersicum, Capsicum annuum, seedlings, vegetable nursery, transplant production, salinity, Plant culture, SB1-1110

Abstract

Seed germination and early seedling growth are the plant growth stages most sensitive to salt stress. Thus, the availability of poor-quality brackish water can be a big limiting factor for the nursery vegetable industry. The exogenous supplementation of gibberellic acid (GA3) may promote growth and vigor and counterbalance salt stress in mature plants. This study aimed to test exogenous supplementation through foliar spray of 10−5 M GA3 for increasing salt tolerance of tomato and sweet pepper seedlings irrigated with increasing salinity (0, 25, and 50 mM NaCl during nursery growth. Tomato and sweet pepper seedlings suffered negative effects of salinity on plant height, biomass, shoot/root ratio, leaf number, leaf area, relative water content, and stomatal conductance. The foliar application of GA3 had a growth-promoting effect on the unstressed tomato and pepper seedlings and was successful in increasing salinity tolerance of tomato seedlings up to 25 mM NaCl and up to 50 mM NaCl in sweet pepper seedlings. This treatment could represent a sustainable strategy to use saline water in vegetable nurseries limiting its negative effect on seedling quality and production time.

Published

2020

10. Alleviation of Salt Stress by Plant Growth-Promoting Bacteria in Hydroponic Leaf Lettuce

Author

Alessandra Moncada, Filippo Vetrano, and Alessandro Miceli

Subjects

saline water, leafy vegetables, Lactuca sativa L. var. Crispa, floating system, nutrient solution, bacterial biostimulant, Agriculture

Abstract

Mediterranean areas with intensive agriculture are characterized by high salinity of groundwater. The use of this water in hydroponic cultivations can lead to nutrient solutions with an electrical conductivity that overcomes the tolerance threshold of many vegetable species. Plant growth-promoting rhizobacteria (PGPR) were shown to minimize salt stress on several vegetable crops but the studies on the application of PGPR on leafy vegetables grown in hydroponics are rather limited and have not been used under salt stress conditions. This study aimed to evaluate the use of plant growth-promoting bacteria to increase the salt tolerance of leaf lettuce grown in autumn and spring in a floating system, by adding a bacterial biostimulant (1.5 g L−1 of TNC BactorrS13 a commercial biostimulant containing 1.3 × 108 CFU g−1 of Bacillus spp.) to mineral nutrient solutions (MNS) with two salinity levels (0 and 20 mM NaCl). Leaf lettuce plants showed a significant reduction of growth and yield under salt stress, determined by the reduction of biomass, leaf number, and leaf area. Plants showed to be more tolerant to salinity in autumn than in spring. The inhibition of lettuce plant growth due to salt stress was significantly alleviated by the addition of the bacterial biostimulant to the MNS, which had a positive effect on plant growth and fresh and dry biomass accumulation of the unstressed lettuce in both cultivation seasons, and maintained this positive effect in brackish MNS, with similar or even significantly higher values of morphologic, physiologic, and yield parameters than those recorded in control unstressed plants.

Published

2020

11. Fertigation Management and Growth-Promoting Treatments Affect Tomato Transplant Production and Plant Growth after Transplant

Author

Alessandra Moncada, Filippo Vetrano, Alessandro Esposito, and Alessandro Miceli

Subjects

Solanum lycopersicum ‘Marmande’, tomato seedlings, vegetable nursery, transplant production, pre-transplanting nutritional conditioning, bacterial biostimulant, Agriculture

Abstract

Plant biostimulants are of interest as they can stimulate plant growth and increase resource utilization. There is still no information on the use of plant growth-promoters under variable nutritional conditions in the nursery and the effects on tomato seedling growth and plant performance after transplant. This study aimed to evaluate the suitability of gibberellic acid (GA3) or bacterial biostimulant treatments to enhance the growth and quality of greenhouse-grown tomato (Solanum lycopersicum ‘Marmande’) seedlings, fertigated with increasing nutrient rates and to assess the efficacy of these treatments on the early growth of tomato plants. During autumn 2019, tomato seedlings were inoculated with 1.5 g L−1 of TNC BactorrS13 (a commercial biostimulant containing 1.3 × 108 CFU g−1 of Bacillus spp.) or sprayed with 10−5 M GA3 and fertigated with a nutrient solution containing 0, 1, 2 and 4 g L−1 of NPK fertilizer (20-20-20) when they reached the 11th BBCH growth stage for tomato. Subsequently, the seedlings were evaluated in greenhouse cultivation for 60 days until at least the 61st BBCH growth stage (January 2020). The growth of the tomato seedlings increased curvilinearly in relation to the fertigation rates. The GA3-treated seedlings showed similar or even higher growth parameters than the control seedlings fed with 4 g L−1 of fertilizer but with half of the nutrients. The inoculation of the substrate with Bacillus spp. had negative effects in the absence of fertigation but determined a greater growth at the highest fertigation rate. The bacterial inoculum of seedlings had longer-term effects than the GA3 treatment during the plant growth, but these effects were noticeable mainly when the bacterial biostimulant was associated with the highest fertigation rate.

Published

2020

12. Effect of Bacterial Inoculum and Fertigation Management on Nursery and Field Production of Lettuce Plants

Author

Filippo Vetrano, Claudia Miceli, Vincenzo Angileri, Benedetto Frangipane, Alessandra Moncada, and Alessandro Miceli

Subjects

Lactuca sativa, seedling, transplant, plant growth-promoting rhizobacteria, sustainability, biostimulants, Agriculture

Abstract

Plant growth-promoting rhizobacteria have been applied to different vegetable crops but there is still no information on the effect of bacterial biostimulant application under variable nutritional level on lettuce seedlings and their performance after transplanting in the field. This study aimed to evaluate the efficacy of a bacterial biostimulant to enhance growth and quality of lettuce seedlings fertigated with increasing nutrient rates and to assess the efficacy of these treatments on lettuce head production. Lettuce seedlings were inoculated with 1.5 g L−1 of TNC BactorrS13 (a commercial biostimulant containing 1.3 × 108 CFU g−1 of Bacillus spp.) and fertigated with a nutrient solution containing 0, 1, 2, and 4 g L−1 of NPK fertilizer (20-20-20). At the end of transplant production, the plants were evaluated for greenhouse cultivation. The effect of fertigation rate on seedling height, dry biomass, dry matter percentage, and water use efficiency was evident up to 2 g L−1 of fertilizer in the non-inoculated seedlings, whereas fresh biomass and nitrogen use efficiency changed up to 4 g L−1 of fertilizer. The use of the bacterial biostimulant modified seedling growth and its response to nutrient availability. The inoculation of the substrate with Bacillus spp. promoted plant growth and allowed seedlings to reach the highest height and biomass accumulation. The physiological age of lettuce seedlings showed a strong influence on plant growth and production after transplanting. The bacterial treatment positively affected the yield and nitrate content of lettuce plants.

Published

2020

13. Use of Gibberellic Acid to Increase the Salt Tolerance of Leaf Lettuce and Rocket Grown in a Floating System

Author

Filippo Vetrano, Alessandra Moncada, and Alessandro Miceli

Subjects

saline water, leafy vegetables, Lactuca sativa L. var. Crispa, Eruca sativa L., hydroponics, GA3, Agriculture

Abstract

Hydroponics need water of good quality to prepare a balanced nutrient solution that could allow plants to reach their maximum yield potential. The rising difficulties in finding water with good quality have led to the compelling necessity of identifying sustainable ways to use saline water, limiting its negative effect on crop yield and quality. The exogenous supplementation of plant growth regulators, such as gibberellic acid (GA3), can be effective in increasing plant growth and vigor, thus helping plants to better cope with salt stress. The aim of this study was to evaluate the feasibility to increase the salt tolerance of leaf lettuce and rocket grown in a floating system by adding GA3 (10−6 M) to mineral nutrient solutions (MNS) with increasing salinity (0, 10, and 20 mM NaCl). Leaf lettuce and rocket plants suffered a significant reduction of growth and yield, determined by the reduction of biomass, leaf number, and leaf area, even with moderate salt stress (10 mM NaCl). The supplementation of exogenous GA3 through the MNS allowed plants to substantially counterbalance salt stress by enhancing various morphological and physiological traits, such as biomass accumulation, leaf expansion, stomatal conductance and water and nitrogen use efficiency. The effects of salt stress and GA3 treatment varied according to the species, thus indicating that this interaction may improve salt tolerance by activating different adaptation systems.

Published

2020

14. Effect of Agronomic Practices on Yield and Quality of Borage at Harvest and During Storage as Minimally-Processed Produce

Author

Claudia Miceli, Alessandra Moncada, Filippo Vetrano, Giovanni Iapichino, Fabio D’Anna, and Alessandro Miceli

Subjects

borago officinalis, plant density, mulching, leafy vegetables, minimal processing, nitrate accumulation, ascorbic acid, shelf life, Agriculture

Abstract

Borage (Borago officinalis L.) is a hairy pubescent herb known throughout the world for its folk medicinal uses, as well as for many culinary uses. There is still little information on the cultivation needs of this species, especially for its use as vegetable crop and as fresh-cut produce. Hence, the aim of the research was to study the effects of agronomic practices on yield and quality of borage and on the storability as minimally-processed product. Two experiments were carried out in two consecutive years in order to evaluate the effect of plant density and plastic mulching on yield and quality of two borage accessions at harvest and during storage as minimally-processed produce for 14 days at 4 °C. The highest plant density (8 plants m2) determined the highest yield of plants and minimally-processed leaves with good quality retention during storage. Mulching had a positive effect on earliness, yield, and shelf life of minimally-processed leaves but also increased nitrate accumulation and reduced ascorbic acid content. Borage plants with lower spacing grown on mulched soil showed the best yield of plants and minimally-processed leaves irrespective of the borage accession tested. Borage plants can be used to produce minimally-processed entire leaves with good quality characteristics.

Published

2020

15. Influence of Preharvest Gibberellic Acid Treatments on Postharvest Quality of Minimally Processed Leaf Lettuce and Rocket

Author

Alessandro Miceli, Filippo Vetrano, Leo Sabatino, Fabio D’Anna, and Alessandra Moncada

Subjects

postharvest, minimally processed vegetables, gibberellic acid, GA3, hydroponics, floating system, leafy vegetables, leaf lettuce, rocket, nitrate content, ascorbic acid, shelf life, Plant culture, SB1-1110

Abstract

Plant growth regulators are used in high-value vegetable crops during cultivation and after harvest to increase yield, enhance crop management, and improve or retain the produce quality. The aim of this work was to evaluate the quality characteristics during cold storage of minimally processed leaf lettuce and rocket, obtained from plants grown in a hydroponic floating system with mineral nutrient solutions (MNS) containing different levels of gibberellic acid (GA3). Plants were grown in greenhouse conditions on nutrient solutions containing 0, 10−8, and 10−6 M GA3. At harvest, lettuce and rocket were immediately processed as fresh-cut vegetables and stored for 21 d at 4 °C. After processing, weight loss, total soluble solids, titratable acidity, ascorbic acid and nitrate content, leaf color characteristics, and overall quality were evaluated. Adding 10−6 M GA3 to the MNS of a floating system significantly increased the yield of leaf lettuce and rocket plants and of minimally-processed leaves. In addition, preharvest GA3 treatments had positive effects on delaying senescence and enhancing shelf-life of minimally processed lettuce and rocket. The slowed senescence of GA3-treated samples maintained an overall quality over the threshold of marketability in both lettuce and rocket for up to 21 d of cold storage.

Published

2019

16. Suitability of Borago officinalis for Minimal Processing as Fresh-Cut Produce

Author

Claudia Miceli, Alessandra Moncada, Filippo Vetrano, Fabio D’Anna, and Alessandro Miceli

Subjects

borage, leafy vegetables, wild vegetables, postharvest, minimal processing, storage temperature, ascorbic acid, nitrates, shelf-life, Plant culture, SB1-1110

Abstract

Borage (Borago officinalis L.) is a wild vegetable appreciated as a folk medicine and for culinary preparations. The introduction of borage as a specialized cultivation would allow for the diversification of vegetable crops and would widen the offerings of raw and minimally processed leafy vegetables. Thus, the aim of the research was to evaluate the quality and shelf-life of fresh-cut borage stored at different temperatures. Borage plants were grown during the autumn−winter season and immediately minimally processed after harvest. Fresh-cut borage leaves packed in sealed bags were stored at 2 or 6 °C for 21 d. Weight loss, total soluble solids (TSS), titratable acidity (TA), ascorbic acid, nitrates, leaf color characteristics and overall quality were determined through the storage period. Borage plants were deemed suitable for minimal processing. Storage temperature significantly influenced the rate of quality loss. Borage leaves had an initial nitrate content of 329.3 mg kg−1 FW that was not affected by temperature or storage. TSS and TA were higher in leaves stored at 6 °C. TSS, TA and ascorbic acid content increased during storage. Minimally processed borage leaves stored at 2 °C had lower weight loss and leaf color modifications during storage and a longer shelf life than those stored at 6 °C, so were still marketable after 21 d of storage.

Published

2019

17. Effect of Gibberellic Acid on Growth, Yield, and Quality of Leaf Lettuce and Rocket Grown in a Floating System

Author

Alessandro Miceli, Alessandra Moncada, Leo Sabatino, and Filippo Vetrano

Subjects

gibberellic acid, GA3, leafy vegetables, lettuce, rocket, hydroponics, floating system, Agriculture

Abstract

Gibberellins (GAs) are growth hormones strongly involved in a wide variety of physiological activities. Currently, gibberellins are commercially used to enhance phenotypic characteristics, earliness, and productivity of many vegetable and ornamental crops. In this work, the efficacy of supplementation of low levels of gibberellic acid (0, 10−8, 10−6, and 10−4 M GA3) through the mineral nutrient solution of a floating system on yield and quality of leaf lettuce and rocket plants was tested. The marketability of plants was lost when 10−4 M GA3 was added to the mineral nutrient solution. This study demonstrated that the addition of 10−4 M GA3 exceeded the acceptable threshold for use in hydroponics production systems. Below the concentration of 10−4 M, the presence of GA3 in the mineral nutrient solutions (MNS), especially at 10−6 M GA3, stimulated plant growth and enhanced the yield. Various morphological and physiological traits were enhanced by GA3 treatments (biomass accumulation, leaf expansion, stomatal conductance, water use efficiency (WUE), Nitrogen use efficiency (NUE), etc.), with superimposable trends in both lettuce and rocket. The addition of 10−6 M GA3 to the nutrient solution of a hydroponic floating system can promote growth and quality of lettuce and rocket plants.

Published

2019

18. Effect of Molybdenum Rate on Yield and Quality of Lettuce, Escarole, and Curly Endive Grown in a Floating System

Author

Alessandra Moncada, Alessandro Miceli, Leo Sabatino, Giovanni Iapichino, Fabio D’Anna, and Filippo Vetrano

Subjects

leafy vegetables, hydroponics, molybdenum, nitrate, vitamin C, Agriculture

Abstract

Molybdenum (Mo) is required in enzymes involved in a number of different metabolic processes, and is crucial for the survival of plants and animals. The influence of nutrient solutions containing four levels of molybdenum (0, 0.5, 1.5, and 3.0 µmol/L) on growth, yield, and quality of lettuce, escarole, and curly endive grown in a hydroponic floating system was evaluated. Biometric, nutrient, and quality analyses were conducted to assess the response of each species to Mo. The results demonstrated that molybdenum is essential for harvesting marketable plants. Lettuce, escarole, and curly endive plants differed significantly in their response to molybdenum fertilization. The increase of Mo concentration in the nutrient solution was not harmful for plants and had no influence on yield and morphological traits of the leafy vegetables; however, it significantly affected some quality characteristics. Mo fertilization raised the nutritional quality by increasing ascorbic acid content up to 320.2, 139.0, and 102.1 mg kg−1 FW (fresh weight), and reducing nitrate content down to 1039.2, 1047.3, and 1181.2 mg kg−1 FW for lettuce, escarole, and curly endive, respectively. The addition of Mo in the nutrient solution increased the Mo content of plants up to 0.50, 4.02, and 2.68 μg g−1 FW for lettuce, escarole, and curly endive, respectively. Increasing Mo supply to lettuce, escarole, and curly endive up to 3.0 µmol L−1 could lead to a higher nutritional quality with no significant morphological alteration or yield loss.

Published

2018

19. Use of microbial biostimulants to increase the salinity tolerance of vegetable transplants

Author

Alessandra Moncada, Alessandro Miceli, Filippo Vetrano, Miceli A., Moncada A., and Vetrano F.

Subjects

0106 biological sciences, Nursery, Microorganism, Lactuca sativa L, Seedling, Biomass, Arbuscular mycorrhizal fungi, Solanum lycopersium L, Vegetable, Trichoderma, 01 natural sciences, 03 medical and health sciences, Salt stre, microorganisms, Glomus, 030304 developmental biology, salt stress, 0303 health sciences, biology, Brackish water, Inoculation, fungi, food and beverages, Agriculture, biology.organism_classification, Salinity, Horticulture, PGPR, Agronomy and Crop Science, 010606 plant biology & botany

Abstract

Vegetable plants are more sensitive to salt stress during the early growth stages, hence, the availability of poor-quality brackish water can be a big issue for the nursery vegetable industry. Microbial biostimulants promote growth and vigor and counterbalance salt stress in mature plants. This study aimed to evaluate the application of plant growth-promoting microorganisms for improving salt tolerance of lettuce and tomato seedlings irrigated with different water salinity levels (0, 25, and 50 mM NaCl) during nursery growth. Two commercial microbial biostimulants were applied to the substrate before seeding: 1.5 g L−1 of TNC BactorrS13 containing 1.3 × 108 CFU g−1 of Bacillus spp., 0.75 g L−1 of Flortis Micorrize containing 30% of Glomus spp., 1.24 × 108 CFU g−1 of Agrobacterium radiobacter, Bacillus subtilis, Streptomyces spp. and 3 × 105 CFU g−1 of Thricoderma spp. Many morpho-physiological parameters of lettuce and tomato seedlings suffered the negative effect of salinity. The use of the microbial biostimulants modified seedling growth and its response to salt stress. They had a growth-promoting effect on the unstressed seedlings increasing fresh and dry biomass accumulation, leaf number, and leaf area and were successful in increasing salinity tolerance of seedlings especially when using Flortis Micorizze that enhanced salinity tolerance up to 50 mM NaCl. The inoculation of the substrate with microbial biostimulants could represent a sustainable way to improve lettuce and tomato transplant quality and to use brackish water in vegetable nurseries limiting its negative effect on seedling growth.

Published

2021

20. Effect of Bacterial Inoculum and Fertigation Management on Nursery and Field Production of Lettuce Plants

Author

Alessandra Moncada, Vincenzo Angileri, Claudia Miceli, Benedetto Frangipane, Filippo Vetrano, Alessandro Miceli, Vetrano, Filippo, Miceli, Claudia, Angileri, Vincenzo, Frangipane, Benedetto, Moncada, Alessandra, and Miceli, Alessandro

Subjects

0106 biological sciences, Fertigation, plant growth-promoting rhizobacteria, Lactuca sativa, seedling, transplant, plant growth-promoting rhizobacteria, sustainability, biostimulants, Settore AGR/04 - Orticoltura E Floricoltura, engineering.material, seedling, Rhizobacteria, 01 natural sciences, lcsh:Agriculture, Nutrient, Lactuca sativa, Dry matter, Transplanting, transplant, Water-use efficiency, biology, lcsh:S, 04 agricultural and veterinary sciences, biology.organism_classification, sustainability, Horticulture, biostimulants, Seedling, 040103 agronomy & agriculture, engineering, 0401 agriculture, forestry, and fisheries, Fertilizer, Agronomy and Crop Science, 010606 plant biology & botany

Abstract

Plant growth-promoting rhizobacteria have been applied to different vegetable crops but there is still no information on the effect of bacterial biostimulant application under variable nutritional level on lettuce seedlings and their performance after transplanting in the field. This study aimed to evaluate the efficacy of a bacterial biostimulant to enhance growth and quality of lettuce seedlings fertigated with increasing nutrient rates and to assess the efficacy of these treatments on lettuce head production. Lettuce seedlings were inoculated with 1.5 g L&minus, 1 of TNC BactorrS13 (a commercial biostimulant containing 1.3 &times, 108 CFU g&minus, 1 of Bacillus spp.) and fertigated with a nutrient solution containing 0, 1, 2, and 4 g L&minus, 1 of NPK fertilizer (20-20-20). At the end of transplant production, the plants were evaluated for greenhouse cultivation. The effect of fertigation rate on seedling height, dry biomass, dry matter percentage, and water use efficiency was evident up to 2 g L&minus, 1 of fertilizer in the non-inoculated seedlings, whereas fresh biomass and nitrogen use efficiency changed up to 4 g L&minus, 1 of fertilizer. The use of the bacterial biostimulant modified seedling growth and its response to nutrient availability. The inoculation of the substrate with Bacillus spp. promoted plant growth and allowed seedlings to reach the highest height and biomass accumulation. The physiological age of lettuce seedlings showed a strong influence on plant growth and production after transplanting. The bacterial treatment positively affected the yield and nitrate content of lettuce plants.

Published

2020

21. Use of Gibberellic Acid to Increase the Salt Tolerance of Leaf Lettuce and Rocket Grown in a Floating System

Author

Alessandro Miceli, Alessandra Moncada, Filippo Vetrano, Vetrano F., Moncada A., and Miceli A.

Subjects

0106 biological sciences, Stomatal conductance, saline water, Lactuca sativa L. var. Crispa, Biomass, Settore AGR/04 - Orticoltura E Floricoltura, Eruca sativa L, 01 natural sciences, lcsh:Agriculture, chemistry.chemical_compound, GA3, nitrate, leafy vegetables, Gibberellic acid, Crop yield, fungi, lcsh:S, food and beverages, hydroponics, 04 agricultural and veterinary sciences, Hydroponics, Ascorbic acid, Saline water, Salinity, Horticulture, chemistry, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, ascorbic acid, Agronomy and Crop Science, Ascorbic acid, Eruca sativa L, GA3, Hydroponics, Lactuca sativa L. var. Crispa, Leafy vegetables, Nitrate, Saline water, 010606 plant biology & botany

Abstract

Hydroponics need water of good quality to prepare a balanced nutrient solution that could allow plants to reach their maximum yield potential. The rising difficulties in finding water with good quality have led to the compelling necessity of identifying sustainable ways to use saline water, limiting its negative effect on crop yield and quality. The exogenous supplementation of plant growth regulators, such as gibberellic acid (GA3), can be effective in increasing plant growth and vigor, thus helping plants to better cope with salt stress. The aim of this study was to evaluate the feasibility to increase the salt tolerance of leaf lettuce and rocket grown in a floating system by adding GA3 (10&minus, 6 M) to mineral nutrient solutions (MNS) with increasing salinity (0, 10, and 20 mM NaCl). Leaf lettuce and rocket plants suffered a significant reduction of growth and yield, determined by the reduction of biomass, leaf number, and leaf area, even with moderate salt stress (10 mM NaCl). The supplementation of exogenous GA3 through the MNS allowed plants to substantially counterbalance salt stress by enhancing various morphological and physiological traits, such as biomass accumulation, leaf expansion, stomatal conductance and water and nitrogen use efficiency. The effects of salt stress and GA3 treatment varied according to the species, thus indicating that this interaction may improve salt tolerance by activating different adaptation systems.

Published

2020

22. Influence of Ecklonia maxima Extracts on Growth, Yield, and Postharvest Quality of Hydroponic Leaf Lettuce

Author

Alessandra Moncada, Alessandro Miceli, Filippo Vetrano, Miceli A., Vetrano F., and Moncada A.

Subjects

Stomatal conductance, Floating system, Seaweed extracts, Lactuca sativa L. var. Crispa, Cold storage, Settore AGR/04 - Orticoltura E Floricoltura, Plant Science, Horticulture, SB1-1110, Ecklonia maxima, leafy vegetables, Water-use efficiency, Hydroponic, biology, Chemistry, Leafy vegetable, Plant culture, hydroponics, biology.organism_classification, Hydroponics, Biostimulant, Brown algae, biostimulants, Postharvest, Preharvest

Abstract

Ecklonia maxima is a brown algae seaweed largely harvested over the last years and used to produce alginate, animal feed, fertilizers, and plant biostimulants. Their extracts are commercially available in various forms and have been applied to many crops for their growth-promoting effects which may vary according to the treated species and doses applied. The aim of the study was to characterize the effect of adding an Ecklonia maxima commercial extract (Basfoliar Kelp, 0, 1, 2, and 4 mL L−1) to the nutrient solution of a hydroponic floating system on growth, yield, and quality of leaf lettuce at harvest and during cold storage (21 days at 4 °C). The supplementation of the E. maxima extract through the mineral nutrient solutions, especially between 2 and 4 mL L−1, enhanced plant growth and improved the yield and many morphological and physiological traits (biomass accumulation, leaf expansion, stomatal conductance, water use efficiency, nitrogen use efficiency, etc.). Preharvest treatments with E. maxima extract were effective in delaying leaf senescence and extending the shelf-life of fresh-cut leaf lettuce. The delay in leaf decay of treated samples allowed to retain an overall quality over the threshold of marketability for up to 21 d of cold storage, especially using 2 mL L−1 of extract.

Published

2021

23. Effect of Molybdenum Rate on Yield and Quality of Lettuce, Escarole, and Curly Endive Grown in a Floating System

Author

Alessandro Miceli, Filippo Vetrano, Alessandra Moncada, Giovanni Iapichino, Fabio D'Anna, Leo Sabatino, and Alessandra Moncada, Alessandro Miceli , Leo Sabatino, Giovanni Iapichino, Fabio D’Anna, Filippo Vetrano

Subjects

0106 biological sciences, inorganic chemicals, vitamin C, Settore AGR/04 - Orticoltura E Floricoltura, 01 natural sciences, lcsh:Agriculture, chemistry.chemical_compound, Human fertilization, Nutrient, molybdenum, Nitrate, nitrate, leafy vegetables, Hydroponic, Chemistry, Crop yield, Leafy vegetable, lcsh:S, hydroponics, 04 agricultural and veterinary sciences, Ascorbic acid, Hydroponics, Horticulture, enzymes and coenzymes (carbohydrates), Plant morphology, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, bacteria, Plant nutrition, Agronomy and Crop Science, 010606 plant biology & botany

Abstract

Molybdenum (Mo) is required in enzymes involved in a number of different metabolic processes, and is crucial for the survival of plants and animals. The influence of nutrient solutions containing four levels of molybdenum (0, 0.5, 1.5, and 3.0 &micro, mol/L) on growth, yield, and quality of lettuce, escarole, and curly endive grown in a hydroponic floating system was evaluated. Biometric, nutrient, and quality analyses were conducted to assess the response of each species to Mo. The results demonstrated that molybdenum is essential for harvesting marketable plants. Lettuce, escarole, and curly endive plants differed significantly in their response to molybdenum fertilization. The increase of Mo concentration in the nutrient solution was not harmful for plants and had no influence on yield and morphological traits of the leafy vegetables, however, it significantly affected some quality characteristics. Mo fertilization raised the nutritional quality by increasing ascorbic acid content up to 320.2, 139.0, and 102.1 mg kg&minus, 1 FW (fresh weight), and reducing nitrate content down to 1039.2, 1047.3, and 1181.2 mg kg&minus, 1 FW for lettuce, escarole, and curly endive, respectively. The addition of Mo in the nutrient solution increased the Mo content of plants up to 0.50, 4.02, and 2.68 &mu, g g&minus, 1 FW for lettuce, escarole, and curly endive, respectively. Increasing Mo supply to lettuce, escarole, and curly endive up to 3.0 &micro, mol L&minus, 1 could lead to a higher nutritional quality with no significant morphological alteration or yield loss.

Published

2018

24. Effect of Gibberellic Acid on Growth, Yield, and Quality of Leaf Lettuce and Rocket Grown in a Floating System

Author

Leo Sabatino, Alessandro Miceli, Filippo Vetrano, Alessandra Moncada, Alessandro Miceli, Alessandra Moncada, Leo Sabatino, and Filippo Vetrano

Subjects

0106 biological sciences, Stomatal conductance, Biomass, chemistry.chemical_element, Settore AGR/04 - Orticoltura E Floricoltura, 01 natural sciences, lcsh:Agriculture, leafy vegetable, chemistry.chemical_compound, floating system, GA3, Ornamental plant, leafy vegetables, Water-use efficiency, Gibberellic acid, lcsh:S, food and beverages, hydroponics, 04 agricultural and veterinary sciences, hydroponic, Hydroponics, Nitrogen, lettuce, Horticulture, chemistry, rocket, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Gibberellin, Agronomy and Crop Science, gibberellic acid, 010606 plant biology & botany

Abstract

Gibberellins (GAs) are growth hormones strongly involved in a wide variety of physiological activities. Currently, gibberellins are commercially used to enhance phenotypic characteristics, earliness, and productivity of many vegetable and ornamental crops. In this work, the efficacy of supplementation of low levels of gibberellic acid (0, 10&minus, 8, 10&minus, 6, and 10&minus, 4 M GA3) through the mineral nutrient solution of a floating system on yield and quality of leaf lettuce and rocket plants was tested. The marketability of plants was lost when 10&minus, 4 M GA3 was added to the mineral nutrient solution. This study demonstrated that the addition of 10&minus, 4 M GA3 exceeded the acceptable threshold for use in hydroponics production systems. Below the concentration of 10&minus, 4 M, the presence of GA3 in the mineral nutrient solutions (MNS), especially at 10&minus, 6 M GA3, stimulated plant growth and enhanced the yield. Various morphological and physiological traits were enhanced by GA3 treatments (biomass accumulation, leaf expansion, stomatal conductance, water use efficiency (WUE), Nitrogen use efficiency (NUE), etc.), with superimposable trends in both lettuce and rocket. The addition of 10&minus, 6 M GA3 to the nutrient solution of a hydroponic floating system can promote growth and quality of lettuce and rocket plants.

Published

2019

25. Alleviation of Salt Stress by Plant Growth-Promoting Bacteria in Hydroponic Leaf Lettuce

Author

Alessandro Miceli, Alessandra Moncada, Filippo Vetrano, Moncada, Alessandra, Vetrano, Filippo, and Miceli, Alessandro

Subjects

0106 biological sciences, saline water, Biomass, Settore AGR/04 - Orticoltura E Floricoltura, nutrient solution, Biology, Rhizobacteria, 01 natural sciences, lcsh:Agriculture, floating system, Nutrient, bacterial biostimulant, leafy vegetables, Lactuca sativa L. var. Crispa, Brackish water, fungi, lcsh:S, Bacillus, food and beverages, 04 agricultural and veterinary sciences, Hydroponics, biology.organism_classification, Saline water, Salinity, Horticulture, PGPR, saline water, leafy vegetables, Lactuca sativa L. var. Crispa, floating system, nutrient solution, bacterial biostimulant, PGPR, Bacillus, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Agronomy and Crop Science, Bacteria, 010606 plant biology & botany

Abstract

Mediterranean areas with intensive agriculture are characterized by high salinity of groundwater. The use of this water in hydroponic cultivations can lead to nutrient solutions with an electrical conductivity that overcomes the tolerance threshold of many vegetable species. Plant growth-promoting rhizobacteria (PGPR) were shown to minimize salt stress on several vegetable crops but the studies on the application of PGPR on leafy vegetables grown in hydroponics are rather limited and have not been used under salt stress conditions. This study aimed to evaluate the use of plant growth-promoting bacteria to increase the salt tolerance of leaf lettuce grown in autumn and spring in a floating system, by adding a bacterial biostimulant (1.5 g L&minus, 1 of TNC BactorrS13 a commercial biostimulant containing 1.3 &times, 108 CFU g&minus, 1 of Bacillus spp.) to mineral nutrient solutions (MNS) with two salinity levels (0 and 20 mM NaCl). Leaf lettuce plants showed a significant reduction of growth and yield under salt stress, determined by the reduction of biomass, leaf number, and leaf area. Plants showed to be more tolerant to salinity in autumn than in spring. The inhibition of lettuce plant growth due to salt stress was significantly alleviated by the addition of the bacterial biostimulant to the MNS, which had a positive effect on plant growth and fresh and dry biomass accumulation of the unstressed lettuce in both cultivation seasons, and maintained this positive effect in brackish MNS, with similar or even significantly higher values of morphologic, physiologic, and yield parameters than those recorded in control unstressed plants.

Published

2020

26. Quality and shelf-life of minimally processed cauliflower

Author

Alessandro Miceli, Filippo Vetrano, Calogero Romano, Miceli A., Vetrano F., and Romano C.

Subjects

media_common.quotation_subject, Brassica oleracea L. var. botrytis L., Browning, Cold storage, Fresh-cut produce, Vegetables, Environmental science, Quality (business), Agricultural engineering, Settore AGR/04 - Orticoltura E Floricoltura, Horticulture, prodotti freschi, ortaggi, Brassica oleracea L. var. botrytis L., conservazione a freddo, doratura, Shelf life, media_common

Abstract

Il cavolfiore è stato descritto come un ortaggio con un alto valore nutrizionale grazie al suo alto contenuto di vitamine, antiossidanti e composti anti-cancerogeni. Le infiorescenze di cavolfiore vengono raccolte mentre sono totalmente immature, il che implica gravi cambiamenti nello stato dei nutrienti, dell'acqua e degli ormoni. La raccolta e la successiva lavorazione possono causare gravi stress determinando la comparsa di sintomi di senescenza accelerata. Sono stati studiati gli effetti della lavorazione e della conservazione a freddo del cavolfiore trasformato minimamente. Gli ornamenti sono stati trattati con antiossidanti prima della conservazione in sacchi di PE a 4 ° C per 21 giorni. Durante il periodo di conservazione sono stati valutati perdita di peso, colore, compattezza, SSC e pH. Il cavolfiore ha mostrato una buona conservabilità e una manutenzione di qualità generale, ma anche una suscettibilità alla doratura delle zone di taglio. Cauliflower has been described as a vegetable with a high nutritional value due to its high content of vitamins, antioxidants and anti-carcinogenic compounds. Cauliflower inflorescences are harvested while they are totally immature, which implies severe changes in nutrient, water and hormonal status. Harvesting and the following processing can cause severe stress determining the appearance of accelerated senescence symptoms. The effects of processing and cold storage of minimally processed cauliflower were investigated. Florets were treated with antioxidants before storage in PE bags at 4°C for 21 days. During the storage period the weight loss, colour, firmness, SSC and pH were evaluated. Cauliflower showed a good shelf-life and overall quality maintenance but also a susceptibility to browning of cut zones.

Published

2018

27. Nursery and field evaluation of eggplant grafted onto unrooted cuttings of Solanum torvum Sw

Author

Leo Sabatino, Alessandro Miceli, Filippo Vetrano, Alessandra Moncada, Fabio D'Anna, Miceli, A, Sabatino, L, Moncada, A, Vetrano, F, and D'Anna, F

Subjects

Vegetable grafting, biology, Crop yield, Nursery production, Settore AGR/04 - Orticoltura E Floricoltura, Horticulture, biology.organism_classification, Solanum melongena L, Cutting, eggplant quality, Germination, Seedling, Botany, unrooted grafted cutting, Cultivar, Solanum torvum, Solanum, Rootstock

Abstract

Solanum torvum is the eggplant ( Solanum melongena ) relative most commonly used for grafting even if the nursery production of eggplants grafted onto this rootstock has some issues related to its long, irregular and erratic germination and slow growth and development of seedlings. Unrooted cuttings harvested from stock plants could be an alternative propagation material to obtain S. torvum rootstocks and might allow to overcome nursery production issues for eggplant. The aim of this work was to evaluate eggplant suitability to be propagated by unrooted grafted cuttings using S. torvum as rootstock and the influence of this propagation technique on plant yield and fruit quality. A two years trial was performed in nursery and open field. The eggplant cultivar Birgah was used as the scion variety as well as the ungrafted controls (seedling control and unrooted cutting control). Two propagation techniques of the rootstock were evaluated using S. torvum and ‘Birgah’ eggplant (self-grafted): unrooted cuttings or seedlings. S. torvum showed to be suitable to be propagated by unrooted grafted cuttings. The joined healing and rooting had no negative effect on grafting success and plantlets quality. The use of unrooted cuttings of S. torvum , instead of seedlings, reduced considerably the length of propagation time. The shorter propagation time of the innovative propagation technique might permit propagators to overcome the propagation issues of S. torvum and to optimize the scheduling for grafted eggplant production. The use of S. torvum rootstock for grafting eggplant confirmed to enhance plant vigour and productivity. The plants produced from unrooted grafted cuttings of S. torvum showed no differences with the traditional grafted plants in field trials as regard fruit yield and quality. Thus, this innovative technique may be feasible for nursery and field production.

Published

2014

28. Influence of Preharvest Gibberellic Acid Treatments on Postharvest Quality of Minimally Processed Leaf Lettuce and Rocket

Author

Alessandra Moncada, Leo Sabatino, Alessandro Miceli, Filippo Vetrano, Fabio D'Anna, Miceli A., Vetrano F., Sabatino L., D'Anna F., and Moncada A.

Subjects

0106 biological sciences, Nitrate content, Floating system, Shelf life, Cold storage, Titratable acid, Settore AGR/04 - Orticoltura E Floricoltura, Plant Science, lcsh:Plant culture, Horticulture, 01 natural sciences, chemistry.chemical_compound, 0404 agricultural biotechnology, GA3, Postharvest, lcsh:SB1-1110, Minimally processed vegetable, Gibberellic acid, leafy vegetables, Hydroponic, Chemistry, fungi, Leafy vegetable, food and beverages, hydroponics, 04 agricultural and veterinary sciences, Hydroponics, Ascorbic acid, 040401 food science, Rocket, minimally processed vegetables, Preharvest, Leaf lettuce, 010606 plant biology & botany

Abstract

Plant growth regulators are used in high-value vegetable crops during cultivation and after harvest to increase yield, enhance crop management, and improve or retain the produce quality. The aim of this work was to evaluate the quality characteristics during cold storage of minimally processed leaf lettuce and rocket, obtained from plants grown in a hydroponic floating system with mineral nutrient solutions (MNS) containing different levels of gibberellic acid (GA3). Plants were grown in greenhouse conditions on nutrient solutions containing 0, 10&minus, 8, and 10&minus, 6 M GA3. At harvest, lettuce and rocket were immediately processed as fresh-cut vegetables and stored for 21 d at 4 &deg, C. After processing, weight loss, total soluble solids, titratable acidity, ascorbic acid and nitrate content, leaf color characteristics, and overall quality were evaluated. Adding 10&minus, 6 M GA3 to the MNS of a floating system significantly increased the yield of leaf lettuce and rocket plants and of minimally-processed leaves. In addition, preharvest GA3 treatments had positive effects on delaying senescence and enhancing shelf-life of minimally processed lettuce and rocket. The slowed senescence of GA3-treated samples maintained an overall quality over the threshold of marketability in both lettuce and rocket for up to 21 d of cold storage.

Published

2019

29. COLLARD GREEN (BRASSICA OLERACEA VAR. ACEPHALA) CULTIVATION IN SICILY

Author

Fabio D'Anna, Calogero Romano, Alessandro Miceli, Alessandra Moncada, Filippo Vetrano, Francesca D'Anna, Vetrano, F, Miceli, A, Moncada, A, Mustazza, G, Romano, C, and D’Anna, F

Subjects

Horticulture, biology, Botany, Brassica oleracea, Brassicaceae, leafy vegetables, leafy greens, planting dates, crop cycles, secondary shoots, Settore AGR/04 - Orticoltura E Floricoltura, Collard Green, biology.organism_classification

Abstract

Collard greens (Brassica oleracea var. acephala) are a group of plants cultivated for its thick, slightly bitter, edible leaves. As other Brassicaceae, have a good nutritional value as they are a good sources of vitamin C and soluble fiber, and contain various compounds with potent anticancer properties. In order to enhance collard cultivation in Sicily, different planting dates were tested. The research was carried out during 2009-2010 in the experimental field of SAgA Department – University of Palermo. Plants of a Sicilian local cultivar, with high vigor, good emission of side shoots, large and moderately curly leaves and long and strong petiole, were planted in three different periods: end of November, end on January, end of March. The harvest of the main shoot was made when they had tender and non-fibrous leaves and petioles. Secondary shoots, eventually originated from axillary buds left on the plant, were also harvested. Data were recorded on: number of leaves plant-1, stem diameter, fresh weight, dry weight, length and number of harvested shoots. The plants of the earliest transplant were harvested in March (main shoot), April and May (secondary shoots), while only the main shoot was harvested in the other plants (on May and June respectively for the second and the third transplant). This determined an higher yield for the first transplant against the other planting dates. Early transplant influenced also the quality of the main shoots that had more leaves, higher percentage of edible part and less dry matter than those from the other transplant. Secondary shoots had worst quality than the main shoot.

Published

2013

30. EFFECT OF HOT AIR TREATMENT ON MINIMALLY PROCESSED CAULIFLOWER

Author

Alessandro Miceli, Filippo Vetrano, Calogero Romano, Miceli, A, Vetrano, F, and Romano, C

Subjects

Chemistry, Soluble solids, Air treatment, Cold storage, Fresh-cut vegetables, Brassica oleracea L. var. botrytis L., postharvest treatments, cold storage, browning, Titratable acid, Settore AGR/04 - Orticoltura E Floricoltura, Food science, Horticulture

Abstract

The request of minimally processed vegetable is continuously increasing, and there is a growing interest for new fresh cut products. Cauliflower, as other cabbages, is highly appreciated for its nutritional value due to the good content of vitamins, antioxidants and anti-carcinogenic compounds. It is suitable to be used as a minimally processed vegetable, but harvesting and the following processing can cause a severe stress determining the appearance of accelerated senescence symptoms. The aim of the present work was to investigate the effect of hot air treatment and cold storage on minimally processed green cauliflower. Fresh-cut cauliflower florets put in sealed PE bags were treated at 48°C for 180 min and then stored at 4°C for 21 days. During the storage period, weight loss, colour, firmness, soluble solids, titratable acidity and overall quality were evaluated. Non treated fresh-cut cauliflower maintained soluble solid content, good firmness and showed low weight loss, but marketability was limited to 14 days, mainly due to the browning occurring in the cut zones. The hot air treatment increased weight loss during storage, but strongly reduced colour changes of minimally processed cauliflower. This lead to prolonged shelf life up to 3 weeks.

Published

2013

31. EFFECTS OF PLASTIC MULCH AND FLOATING COVER ON LETTUCE PRODUCTION IN SICILY

Author

Alessandra Moncada, Filippo Vetrano, Giovanni Iapichino, Salvatore Fascella, Giovanni Incalcaterra, Iapichino, G, Vetrano, F, Moncada, A, Fascella, S, and Incalcaterra, G

Subjects

Engineering, business.industry, Crop yield, Plastic film, Settore AGR/04 - Orticoltura E Floricoltura, Horticulture, Plastic mulch, Agronomy, direct covering, vegetable crops, mulching, Lactuca sativa L., earliness, Cover (algebra), Cultivar, business, Mulch

Abstract

The use of floating cover directly applied on top of the crop is rapidly increasing on leafy vegetables like lettuce as a simple, inexpensive and effective technique to induce earliness. Two lettuce types, ‘Iceberg’ and ‘Romaine’, under two different crop management systems (black plastic mulch and black plastic mulch combined with floating cover) were tested in Sicily in 2007. Plug type transplants were planted at the end of January on double rows. The nonwoven floating cover was applied after transplanting. Maximum and minimum air temperatures below the floating cover during the growing period were in the average 5 and 1.5°C higher than those without cover. Lettuces mulched and protected with floating cover reached their commercial fresh weight ten days before those without floating cover. Regardless of the cultivar tested, total yield was significantly higher in the plots where black mulch was combined with floating cover as compared to that obtained with black plastic mulch alone. Regardless of the direct covering, ‘Romaine’ was more productive than ‘Iceberg’.

Published

2012

32. EFFECT OF CULTIVAR AND CROWN SIZE ON YIELD AND QUALITY OF STRAWBERRY FRESH BARE ROOT PLANTS IN SICILY

Author

Alessandra Moncada, Filippo Vetrano, Fabio D'Anna, Giuseppina Caracciolo, D'Anna, F, Caracciolo, G, Moncada, A, and Vetrano, F

Subjects

Mediterranean climate, Crown size, Crown (botany), Starch content, Greenhouse, Sowing, Settore AGR/04 - Orticoltura E Floricoltura, Horticulture, Biology, Agronomy, Productivity (ecology), 'Candonga', Yield (wine), 'Nora', Crown diameter, Cultivar

Abstract

In the southern regions of Mediterranean areas the plantations with fresh plants (winter planting system) have almost completely replaced those with cold stored plants (summer planting system). Particularly, fresh bare root plants produced in high elevation nurseries located in Spain and Poland and, in experimental phase, in the southern of Italy (in the mountains of Sicily, Calabria, Basilicata) are the most used. Such type of plant usually has a crown diameter from 6 to 14 mm, but the smallest plants should be (

Published

2012

33. RESPONSE OF MELON GENOTYPES TO POLYETHYLENE AND BIODEGRADABLE STARCH-BASED MULCHING FILMS USED FOR FRUIT PRODUCTION IN THE WESTERN COAST OF SICILY

Author

P. Girgenti, G. Buscemi, Filippo Vetrano, Giovanni Incalcaterra, P. Sutera, Giovanni Iapichino, Salvatore Fascella, Vetrano, F, Fascella, S, Iapichino, G, Incalcaterra, G, Girgenti, P, Sutera, P, and Buscemi, G

Subjects

Cucumis melo, genotype response, landrace, Materials science, Starch, Melon, Crop yield, Plastic film, Horticulture, Polyethylene, chemistry.chemical_compound, Agronomy, chemistry, Crop quality, Cultivar, Mulch

Published

2009

34. EFFECTS OF SOLARIZATION AND BIOFUMIGATION ON TOMATO GREENHOUSE PRODUCTION IN THE SOUTHERN COAST OF SICILY

Author

Iapichino G, Puleo L, Giovanni Iapichino, Luca Puleo, Filippo Vetrano, A. Sciortino, and Alfonso Sciortino

Subjects

Horticulture, Agronomy, Environmental science, Greenhouse production, Solarisation

Published

2008

35. FIRST RESULTS OF FLOATING SYSTEM CULTIVATION OF ERUCA SATIVA L

Author

Fabio D'Anna, Alessandro Miceli, and Filippo Vetrano

Subjects

biology, media_common.quotation_subject, food and beverages, Greenhouse, Eruca, Horticulture, biology.organism_classification, Adaptability, Salinity, chemistry.chemical_compound, Nutrient, Nitrate, chemistry, Environmental science, Composition (visual arts), Water treatment, media_common

Abstract

The floating system is an inexpensive and easy hydroponic system. It can be used to produce small-size leafy vegetables or ready-to-use vegetables that are raising more and more interest among consumers. The aim of this study was to evaluate the effects of different salinity of nutrient solution and of water supply before the harvest, on rocket (Eruca sativa L.) plants hydroponically grown using the floating system technique. The growing cycle was carried out in greenhouse in march-april 2002. Two nutrient solutions with different electrical conductivity (2.8 and 3.8 mS cm-1) were compared. Both solutions had the same nutrient composition and the differences in EC were obtained using water with different salinity (ECw 0.8 and 1.6 mS cm-1). Five days before harvest, half of the floating boards were supplied only with water instead of nutrient solution, in order to evaluate the effect of this treatment on leaf nitrate content. Data were collected on plant height, leaf area, yeald and the ratio and content in the plant of anions and cations. The rocket shows a good adaptability to this growing system. EC levels tested have not affected the plant height and slightly influenced the yield. The water treatment before harvest, resulted in higher yeald and lower nitrate concentration.

Published

2003

36. FIRST RESULTS ON YIELD AND QUALITY RESPONSE OF BASIL (OCIMUM BASILICUM L.) GROWN IN A FLOATING SYSTEM

Author

Alessandra Moncada, Alessandro Miceli, Filippo Vetrano, and Fabio D'Anna

Subjects

Horticulture, food.ingredient, food, Yield (engineering), biology, Basilicum, Ocimum, biology.organism_classification, Floating system, Mathematics

Published

2003

37. Effect of a Brassica Juncea Cover Crop on a Mono-Succession of Melon

Author

Calogero Romano, Alessandro Miceli, Fabio D'Anna, Filippo Vetrano, Miceli, A, Romano, C, Vetrano, F, D’anna, F, and D'Anna, F

Subjects

Agronomy, Melon, Brassica, Ecological succession, Settore AGR/04 - Orticoltura E Floricoltura, Horticulture, Biology, green manure, biofumigation, horticulture, Brassicaceae, Indian mustard, crop rotation, Cover crop, biology.organism_classification

Abstract

The ban of methyl bromide and the need for low environmental impact of agriculture has recently increased the interest in the biofumigant effects of Brassica species on soil-borne pathogens. Many researches have tested the toxic effects of Brassica green manures on several soil-borne pathogens in vitro, but field studies have not assessed definitely the efficiency of biofumigation at the field scale and the effect on crop development and production quality. The aim of this research was to evaluate the effect of a winter-spring cover crop of Brassica juncea compared to bare soil on a mono-succession of melon. The biomass of the B. juncea plants or of the weeds eventually developed in bare soil, used as control, were managed as follows:(i) crushed and left on the soil as organic mulching; (ii)crushed and incorporated into the soil; (iii) crushed and incorporated into the soil under PE mulching along melon crop rows. Soil changes during the two years trial were monitored by evaluating: organic matter content, availability and content of mineral elements and Cation Exchange Capacity. Marketable and unmarketable production, fruit weight and fruit quality (thickness of the epicarp and pulp, percentage of edible part, soluble solid content, firmness, etc.) were evaluated on melon. The use of Brassica juncea as a cover crop influenced soil characteristics and was effective on melon compared to bare soil when the biomass was incorporated to the soil, while no difference was found on melon production and quality when PE mulching was used.

Published

2013

38. Effect of grafting on yield and quality of eggplant (Solanum melongena L.)

Author

Alessandra Moncada, Valerio Mineo, Diego Planeta, Alessandro Miceli, Fabio D'Anna, Filippo Vetrano, Moncada, A, Vetrano, F, Miceli, A, Mineo, V, Planeta, D, and D'Anna, F

Subjects

biology, fungi, Solanaceae, Solanum torvum, eggplant cultivars, wilt desease, rootstock, skin colour, anthocyanins, food and beverages, Settore AGR/04 - Orticoltura E Floricoltura, Horticulture, biology.organism_classification, Grafting, Protected cultivation, Solanum torvum, Agronomy, Browning, Rootstock, Cultivar, Solanum, Eggplant cultivar, Vegetable production, Wilt disease, Hybrid

Abstract

Eggplants have fruits with different sizes, shapes and colours, according to the cultivar. Skin colour is due to anthocyanins, pigments located in the cell vacuole of fruit skin that belong to phenolic flavonoids, a powerful antioxidants group. Environmental conditions and growing techniques may influence fruits characteristics and their content of phenolic compounds. Grafting is a non chemical alternative for overcoming the effects of intensive and continuous cropping. The rootstocks preferred for eggplant are hybrids of tomato or tomato KVFN. Also species taxonomically close, as Solanum torvum, have been used and showed good vigour, compatibility and resistance to wilt disease. Information on yield and quality of grafted eggplants onto this rootstock is conflicting. Therefore, the aim of this study was to evaluate yield and quality of eggplant cultivars (‘Birgah’, ‘Black Bell’, ‘Black Moon’ and ‘Longo’) grafted or ungrafted onto Solanum torvum. Plants were grown in an unheated plastic greenhouse from October 2009 till May 2010. Grafted plants had lower mortality, while yield and quality of fruits were mostly influenced by cultivars. Differences among tested cultivars in growth characteristics, graft affinity and compatibility, could have caused the variations observed in growth and yield. ‘Longo’ and ‘Black Moon’ were not influenced by grafting, while grafted plants of ‘Birgah’ and ‘Black Bell’ had a higher portion of unmarketable production. Grafting onto Solanum torvum did not change the colour saturation of berries, with the exception of 'Birgah' that, when grafted, produced fruits with a less vivid colour. Also inner tissue browning was not influenced by grafting. Total phenolic content was greater in the ungrafted plants.

Published

2011

39. EFFECT OF PACKAGING ON QUALITY OF MINIMALLY PROCESSED FENNEL.

Author

Alessandro, Miceli, Alessandra, Moncada, Filippo, Vetrano, and Fabio, D'Anna

Subjects

PROCESSED foods, FENNEL, COLD storage, WEIGHT loss, POLYSTYRENE

Abstract

Fennel is not a widespread product among minimally processed vegetables, due to the fast deterioration mainly caused by browning of the cut surfaces, even during cold storage. In order to extend the shelf-life of fresh-cut fennel, the influence of different packaging techniques was studied. Sliced fennel, dipped in citric acid solution (0.5 %), was placed in polystyrene trays, sealed with PE film or vacuum packaged in PE bags and stored up to 14 days at 4°C. During this period weight loss, soluble solid content, pH, colour and firmness were evaluated. Minimally processed fennel packed in sealed trays and cold-stored at 4°C, extended its shelf life to 14 days maintaining acceptable quality. Fennel stored in vacuum packaging showed a lower weight loss but had severe alterations of flavour that led to loss of marketability after only 7 days. [ABSTRACT FROM AUTHOR]

Published

2014

40. Use of organic fertilizers for lettuce plug plant production

Author

Salvatore Fascella, Filippo Vetrano, M. A. Poma, Giovanni Incalcaterra, Giovanni Iapichino, VETRANO, F, IAPICHINO, G, POMA, MA, FASCELLA, S, and INCALCATERRA, G

Subjects

Horticulture, Agronomy, Lactuca sativa, seedling fertilization, yield, law, Plant production, Crop yield, Environmental science, Spark plug, law.invention

Abstract

Vegetable crop production in conventional intensive agricultural systems commonly implies high fertilization rates. Recent data show that the worldwide demand for organically grown products is expanding rapidly. Increasing interest in organic vegetable production has lead to a need to produce seedlings organically. The aim of this study was to evaluate the effects of different levels of organic fertilizers applied to lettuce seedlings on plant growth and yield. Romaine lettuce seeds of cultivar Gretta R were sown on March 2007 in polystyrene plug trays in a unheated greenhouse in the Northern coast of Sicily. At the second leaf stage, seedlings were saturated with solutions containing various concentrations (3, 6, or 9 g l-1) of an organic water soluble fertilizer (Kappabios, Serbios®) containing N 3% and K20 6%. At the end of March 2007, four leaf stage plug plants were field transplanted in black polyethylene film mulched plots at a density of 6.6 plants m-2. One week after transplanting, plantlets were respectively foliar sprayed with solutions containing various concentrations (1.5, 2.5, or 3.5 g l-1) of an organic water soluble fertilizer (Azobios,, Serbios®) containing 14%N. Higher fertilization rates positively influenced seedling growth in the greenhouse and resulted in higher yields and larger head weight.

41. Plug plant fertilization and planting density affect onion productivity in sicily

Author

Salvatore Fascella, M. Bertolino, Filippo Vetrano, Giovanni Incalcaterra, Giovanni Iapichino, VETRANO, F, IAPICHINO, G, BERTOLINO, M, FASCELLA, S, and INCALCATERRA, G

Subjects

Horticulture, Agronomy, Crop yield, Plant density, Sowing, Environmental science, Productivity, Plant reproduction, Allium cepa, propagation, bulb production

Abstract

The aim of this study was to evaluate the effects of different planting density and different levels of plug plant fertilization on onion production in Sicily. Onion landrace ‘Bisacquino’ was sown in the first week of January 2006 in a unheated greenhouse in polystyrene plug trays. Seedlings were fertigated with the following three different solutions containing (in mg l-1) 800 N - 400 P - 400 K, 1200 N - 600 P - 600 K or 1600 N- 800 P - 800 K. Trays were subirrigated with the nutrient solution both at one leaf stage and 10 days prior transplanting. Plug plants were field transplanted in the Sicilian hilly countryside. The plugs consisting of one, two, or three onion plants were set 20 cm apart in the row and transplanted as a cluster resulting in a plant density of 20, 40, or 60 plants-2. Higher fertilization levels positively influenced seedling growth in the greenhouse and resulted in higher yields and larger bulb weight. In addition, increasing planting density resulted in higher yields and in lower bulb weight.